Tao Wang1, Qian-Qian Wang2, Gui-Xia Pan1, Guo-Rong Jia1, Xiao Li1, Chao Wang2, Li-Ming Zhang2, Chang-Jing Zuo1. 1. Department of Nuclear Medicine, Changhai Hospital, Second Military Medical University Shanghai 200433 China changjing.zuo@qq.com. 2. Department of Marine Biotechnology, Faculty of Naval Medicine, Second Military Medical University Shanghai 200433 China lmzhang1969@aliyun.com.
PSCs are located in the periacinar spaces in a quiescent state in normal healthy pancreas, but can be activated by many extracellular stimuli including pro-inflammatory cytokines, oxidative stress, hypoxia and increased interstitial pressure.[1,2] The activated PSCs can express α-smooth muscle actin (α-SMA) and synthesize a large amount of extracellular matrix (ECM) proteins leading to excessive fibrosis of the pancreas. For example, in human pancreatic cancer, the fibrotic stroma can account for up to 90% of the tumor volume, and the fibrotic microenvironment has been proven to support tumorigenesis, chemoresistance, invasion and progression of tumors.[3,4] Owing to the altered cancer cell glucose metabolism, hypoxia and insufficient blood perfusion, the microenvironment of solid tumors is acidic, which means that PSCs are exposed to low pH conditions in pancreatic cancer. However, the effect of acidic environment on the biological behaviour of PSCs and the underlying molecular mechanisms are far from clear.Acid-sensing ion channels (ASICs) are H+-gated cation channels, which belong to the degenerin/epithelial Na+ channel (DEG/ENaC) superfamily, and at least six ASICs subunit proteins, namely 1a, 1b, 2a, 2b, 3 and 4, have been identified.[5] Among them, ASIC1a attracts special attention because of its important biological functions in the pathogenesis of acid-associated diseases. Previous studies show that ASIC1a is mainly expressed in mammalian central and peripheral nervous systems and plays an important role in pain perception, learning and memory, and fear conditioning.[6] Since an acidic extracellular pH is a major feature of malignant tumor tissues, the expression and role of ASIC1a in many kinds of tumor cells including liver cancer,[7] gastric cancer,[8] lung cancer[9] and gliomas,[10] pancreatic cancer[11] have been investigated, and the results show that ASIC1a involves the proliferation, invasion or autophagy of tumor cells, suggesting a novel therapeutic role for ASIC1a in these tumors. Interestingly, recent studies suggest that hepatic stellate cells (HSCs) and rat articular chondrocytes both can express ASIC1a, and inhibition of ASIC1a could reduce acid or PDGF-induced activation of HSCs and liver fibrosis,[12,13] and ASIC1a can promote acid-induced autophagy of rat articular chondrocytes through AMPK/FoxO3a pathway.[14]PSCs are very like HSCs, but whether ASIC1a is expressed in PSCs has not been reported yet. Given that ASIC1a plays an irreplaceable role in acidity-associated events, it is reasonable to relate ASIC1a with the possible changed physiological function of PSCs. In the present study, we aim to investigate the expression of ASIC1a in PSCs cultured in pH 7.4 (the normal tissue pH) and pH 6.5 medium (one of the most widely used pH values minicing an acidic tumor microenvironment in vitro) respectively, and then explore the effect of inhibition of ASIC1a on the acid-induced pathophysiological processes including activation and autophagy of PSCs.
Experimental section
Reagents and antibodies
Dulbecco's modified Eagle's medium (DMEM) and fetal bovine serum (FBS) were obtained from Gibco. Psalmotoxin-1 (PcTx1) was purchased from ApexBio Technology. Cell RIPA lysis buffer was obtained from Solarbio Company. Primary antibodies of ASIC1a, α-SMA and beclin 1 were obtained from Abcom. Autophagy protein microtubule-associated protein 1 light chain-3B (LC3B) and collagen 1 antibodies, FITC-conjugated goat anti-rabbit IgG (H+L), Alexa Fluor 555-conjugated donkey anti-rabbit IgG (H+L) and HRP-conjugated secondary antibodies were obtained from Beyotime Biotechnology. Anti-GAPDH was obtained from CST. Other general agents were commercially available.
Cell culture and treatment
Human PSCs were purchased from the Cell Bank of Shanghai Tongpai Biological Technology Company and cultured in DMEM containing 10% FBS at 37 °C with 5% CO2. To simulate the extracellular acid environment, the medium was adjusted to acidic pH (pH 6.5) with HCl. PSCs were cultured in two different pHs, including pH 7.4 and pH 6.5 for 4 h, then the medium was replaced with complete medium for another 3 h. To observe the influence of ASIC1a on the acid-induced physiological function, PSCs, pretreated with 50 nM of ASIC1a-specific inhibitor PcTx1 for 30 min, or PSCs with ASIC1a knockdown using small interfering RNA (siRNA), were cultured in pH 6.5.
Immunofluorescence assay
After treatment as indicated above, PSCs were fixed with 4% paraformaldehyde for 30 min, permeabilized with 0.3% Triton X-100 in PBS for 15 min, and then blocked with 3% BSA for 1 h. After this, PSCs were divided into three groups and incubated with 1: 100 anti-ASIC1a, anti-α-SMA, anti-collagen 1 antibody overnight at 4 °C respectively, followed by incubation with 1: 100 FITC-conjugated goat anti-rabbit IgG (for ASIC1a and collagen 1) or Alexa Fluor 555-conjugated donkey anti-rabbit IgG (for α-SMA) in the dark for 1 h at room temperature. Nuclear staining was counterstained with DAPI for 15 min. Finally, the cells were washed with PBS, mounted with coverslips and imaged using an inverted fluorescence microscope.
Knockdown of ASIC1a in PSCs by siRNA
Based on siRNA design principles and the sequence of ASIC1a in Genebank, siRNA duplexes targeting human ASIC1a and negative control (NC) were designed and synthesized, and then the adenoviral vector Ad-ASIC1a-siRNA and Ad-NC-siRNA were constructed by JRDUN Biotechnology (Shanghai) Co., Ltd. PSCs were transfected with Ad-ASIC1a-siRNA or Ad-NC-siRNA according to the manufactures' instructions, and after 48 h of transfection, ASIC1a protein and mRNA expression levels were analyzed by western blotting and qRT-PCR to confirm the ASIC1a knockdown efficiency (Fig. S1†). All transfections were performed in triplicate.
Western blotting
Cells collected from each group were washed twice with ice-cold PBS, and then were lysed in RIPA lysis buffer for 30 min on ice to extract total protein. The concentration of protein was determined by BCA assay. Equal amounts of protein lysates (15 μL) from each group was separated by 10% SDS-PAGE and transferred to a PVDF membrane. The membrane was washed with TBST and then blocked with 5% non-fat milk for 1 h at room temperature. After this, the membranes were incubated in the appropriate primary antibodies and GAPDH monoclonal antibodies overnight at 4 °C, followed by HRP-conjugated secondary antibodies at room temperature for 1 h. Last, the membranes were visualized using Tanon 5200 enhanced chemiluminescence (ECL) detection system, and the density of target bands was quantified with a computerized digital imaging system. The above procedure was repeated three times using GAPDH as control.
Total RNA was extracted from PSCs using Trizol reagent. The first-strand cDNA was synthesized using Thermoscript RT-PCR System according to the manufacturer's instructions. The primers were designed and synthesized by JRDUN Biotechnology (Shanghai) Co., Ltd according to the serial number from Genbank, as shown in Table 1. GAPDH was used as an internal control. qRT-PCR was performed using 0.1 L of cDNA with SYBR Green dye detection of amplification products on a real-time PCR Detection System. The cycle threshold value was defined as the PCR cycle number at which the reporter fluorescence crossed the threshold. The relative expression levels of target genes were normalized by GAPDH and calculated by 2−ΔΔ.
Primer sequences for qRT-PCR
Primer
Primer sequences
Product length/bp
ASIC1a
F: 5′-TGACCCGCTATGGCAAAG-3′
121
R: 5′-TCCAGCACCAGGATGTTC-3′
α-SMA
F: 5′-ATTGCCGACCGAATGCAG-3′
193
R: 5′-TGCGGTGGACAATGGAAG-3′
Collagen 1
F: 5′-CTTCGTGTAAACTCCCTCCATCC-3′
136
R: 5′-AAGTCCATGTGAAATTGTCTCCCA-3′
Beclin 1
F: 5′-AGGGATGGAAGGGTCTAAG-3′
155
R: 5′-GGGCTGTGGTAAGTAATGG-3′
GAPDH
F: 5′-AATCCCATCACCATCTTC-3′
218
R: 5′-AGGCTGTTGTCATACTTC-3′
Statistical analysis
All experiments were repeated a minimum of three times, and the data are expressed as mean ± SD. The comparison among the different groups was performed using analysis of variance (ANOVA) and unpaired Student's t-test, and P < 0.05 was considered statistically significant.
Results and discussion
ASIC1a is expressed in PSCs and acid upregulate its expression
ASIC1a has been found to be expressed in a variety of non-neuronal tissues and plays an important role in pH changes related to tissue acidosis. Besides tumor cells, it is a remarkable fact that ASIC1a is also expressed in HSCs and involves the activation of HSCs through MAPK pathway, which benefit the formation of hepatic fibrosis.[12,13] PSCs and HSCs share many common features, but whether ASIC1a is present in PSCs has not been reported. Considering that the typical pH value of tumor ECM is about 6.5–6.8, in this study, PSCs were cultured in physiological conditions (pH 7.4) and pH 6.5 medium, and then the expression of ASIC1a was detected. First, an observable morphology change of PSCs occured in acidic medium. In pH 7.4 medium, PSCs had a stellate, thin and angular appearance (Fig. 1A), and the acid exposure made PSCs shorter and thicker (Fig. 1B), but ASIC1a-specific inhibitor PcTx1 can lessen this change (Fig. 1C). Then, we investigated the cellular distribution of ASIC1a in PSCs using immunofluorescence assay, which is a very useful method for imaging subcellular localization, exploring the interaction of PSCs and tumor cells.[15,16] As shown in Fig. 2A, ASIC1a was mainly present in plasma membrane, and the fluorescence intensity of ASIC1a in pH 6.5 group was stronger than that in pH 7.4 group, indicating this protein expression increased. The phenomenon was further confirmed by the results from western blotting and qRT-PCR, which showed that, compared with pH 7.4 group, there was around 4-fold and 2-fold significant increase of ASIC1a protein and ASIC1a mRNA under acidic stimuli, respectively (Fig. 3).
Fig. 1
Morphology of PSCs at pH 7.4 medium (A), pH 6.5 medium (B) or pretreatment with PcTx1 and then culture in acid medium (C) was observed (400 X).
Fig. 2
Immunofluorescence staining of ASIC1a (A), α-SMA (B) and collagen 1 (C) in PSCs cultured in different pH medium. ASIC1a, collagen 1 and α-SMA were labeled with FITC (green) and Alexa Fluor 555 (red), respectively, and the nuclei were counterstained with DAPI (400 X).
Fig. 3
Expression of ASIC1a in PSCs in different culture condition was assessed by western blotting and qRT-PCR. Western blotting results show that ASIC1a protein is expressed in PSC, and extracellular acid could increase its expression, but PcTx1 or siRNA knockdown of ASIC1a could inhibit the acid-induced expression of ASIC1a (A and B), which are consistent with the results of ASIC1a mRNA detected by qRT-PCR (C). Data are expressed as mean ± SD of three independent experiments. *P < 0.05 versus pH 6.5 group.
The pH sensitivity of ASIC1a, namely pH50, is 5.8–6.8, and as expected, the acidic medium (pH 6.5) promoted ASIC1a expression.[6] PcTx1 is a 40-residue peptide isolated from the venom of the South American tarantula Psalmopoeus cambridgei, and has a very high selectivity for ASIC1a but does not affect other ion channels including ASIC1b.[17] Therefore, PcTx1 has become a potent pool for the functional study of ASIC1a. Gene silencing using siRNA, as a powerful tool for the study on molecular function, was used to knock down ASIC1a expression in our study. As shown in Fig. 3, the expression of ASIC1a protein and ASIC1a mRNA in pH 6.5 medium was inhibited to 52.3% and 60.5% by PcTx1, respectively, while the corresponding data in ASIC1a knockdown group was 41.3% and 45.9%, respectively, but the effect can not be observed in NC-siRNA group. In a word, the present data identified that ASIC1a is expressed in PSCs, and extracellular acid can upregulate ASIC1a expression. It has been reported that tissue acidosis can occur in several pathological conditions such as inflammation, lesions and cancer.[12] PSCs play an integral role in the pathogenesis of pancreatitis and pancreatic cancer, and according to the present in vitro study, an acidic environment will contribute to enhance the expression of ASIC1a in PSCs, but this effect on the development and progression of these two major diseases of the pancreas is still unknown and worth further study. At least, in analogy with HSCs, the role of ASIC1a in the mechanism of pancreatic fibrosis need to be addressed in the further.
Inhibition of ASIC1a suppresses the activation of PSCs induced by extracellular acid
Activated PSCs play a pivotal role in the pathologic processes of pancreatic diseases, and inhibition of PSCs activation, or even the transformation of activated PSCs into quiescence PSCs, has been found to be beneficial to the treatment of pancreatic cancer and pancreatitis.[18-20] The activated PSCs are positive for α-SMA, collagen 1, so this two molecules are often used as the marker of PSCs activation.[21] As shown in Fig. 2B and C, compared with pH 7.4, PSCs cultured in pH 6.5 have stronger red fluorescence (α-SMA) and green fluorescence (collagen 1), suggesting that extracellular acid can promote the activation of PSCs. Then, the protein and mRNA expression of α-SMA, collagen 1 was detected to further assess the activation of PSCs in different pH medium. Consistent with the results from the immunofluorescence assay, the western blotting and qRT-PCR results showed that acid solution exposure significantly increased the expression of α-SMA and collagen 1 both at protein level and mRNA level (Fig. 4). It is conceivable that an acidic environment existed in pancreatic cancer or pancreatitis can induce PSCs activation, and the activated PSCs in turn will produce extensive desmoplasia. Not only that, activated PSCs also have been found in all stages of pancreatic cancer, including premalignant lesions such as IPMNs and PanINs. However, the molecular mechanisms of PSC activation have been not fully understood. Considering that ASIC1a takes part in many acid-induced pathophysiological events, the role of ASIC1a in PSCs activation was explored. As shown in Fig. 4B and C, compared with pH 7.4 medium, the acid treatment made the expression of α-SMA protein and mRNA increase to 2.6 and 3.3 folds, respectively. The similar phenomena was observed in the results of collagen 1 expression (Fig. 4D–F). It is notable that the expression of α-SMA and collagen 1 in PcTx1 pretreatment or ASIC1a knockdown group only has a tiny increase even in acidic medium, and is markedly lower than that in pH 6.5 group (P < 0.05). Based on these results, we can conclude that ASIC1a is involved in the acid-induced activation of PSCs, which can be weakened, at least partly, through the inhibition of ASIC1a.
Fig. 4
ASIC1a involves the acid-induced activation of PSCs. The expression of α-SMA (A–C) and collagen 1 (D–F) at protein and mRNA level in PSCs in pH 6.5 medium both increase compared with that in pH 7.4 medium, but PcTx1 or siRNA knockdown of ASIC1a could reduce the enhanced expression of α-SMA and collagen 1. Data are expressed as mean ± SD of three independent experiments. *P < 0.05 versus pH 6.5 group.
Inhibition of ASIC1a attenuates the autophagy of PSCs induced by extracellular acid
Under stress condition, e.g. acidic environment, starvation, hypoxia, autophagy might be initiated. Autophagy is a major catabolic pathway in which the cell degrades macromolecules and damaged organelles, and beclin 1 has been well-characterized to play a crucial role in the initial stage of autophagy.[22] As shown in Fig. 5, the expression of beclin 1 protein and mRNA, was upregulated in pH 6.5 medium compared with pH 7.4 medium, while PcTx1 or ASIC1a knockdown by siRNA could attenuate the acid-induced up-regulation of beclin 1 expression, suggesting that ASIC1a work in the autophagy initiation in acid medium. But, autophagy is a dynamic and complicated process. During the formation of autophagosome, the soluble form of LC3B I is converted to the autophagic vesicle-associated form of LC3B II, and the amount of LC3B II is usually considered to correlate well with the number of autophagosomes.[23] So, to further evaluate the effect of ASIC1a on the autophagy flux, the conversion from endogenous LC3B I to LC3B II in different conditions was investigated by western blotting. As shown in Fig. 6, compared with pH 7.4 group, LC3B I expression appeared an obvious downtrend in pH 6.5 group, while LC3B II expression showed an opposite character, and the ratio of LC3B II/LC3B I increased from 0.6 to 3.8. Meanwhile, PcTx1 pretreatment or siRNA knockdown of ASIC1a had a noticeable negative effect on the acid-induced enhanced expression of LC3B II, indicating the formation of autophagosome is almost completely blocked (Fig. 6). All told, the above results exhibit that PSCs autophagy occur in acidic medium, and inhibition of ASIC1a can impair the autophagy largely at the initiation and maturation stage.
Fig. 5
ASIC1a involves the acid-induced expression of beclin 1 in PSC. The semiquantitative analyses of the western blotting gels (A and B) and the results of qRT-PCR (C) both show that, compared with pH 7.4 group, an up-regulated expression of beclin 1 occurred at protein and mRNA level in PSCs in pH 6.5 group, which can be suppressed by PcTx1 or siRNA knockdown of ASIC1a. Data are expressed as mean ± SD of three independent experiments. *P < 0.05 versus pH 6.5 group.
Fig. 6
The protein expression of LC3B II and LC3B I in PSCs with different treatment. Results show the expression of LC3B II increases and the expression of LC3B I decreases after PSCs treated with acid, but remained constant when PSCs were pretreated with PcTx1 or siRNA knockdown of ASIC1a. *,#P < 0.05 versus the expression of LC3B I and LC3B II in pH 6.5 group, respectively.
In fact, the autophagy of PSCs has a particular significance for pancreatic disease, especially pancreatic cancer. It has been reported that PSCs can secrete alanine through autophagy and provide an alternative carbon source for pancreatic cancer cells, which is critical for pancreatic cancer metabolism;[24] in addition, autophagy is required for activation of PSCs, and autophagic PSCs are associated with shorter survival times and disease recurrence in patients with pancreatic cancer.[25] These studies suggest that autophagy of PSCs may become a unique target for the treatment of pancreatic cancer. Since ASIC1a involves the acid-induced autophagy of PSCs, blockade of ASIC1a in PSCs may be useful for the prognosis of pancreatic cancer. However, an in-depth research on the mechanism of ASIC1a-mediated autophagy is certainly need.It is interesting and noteworthy that inhibition of ASIC1a in PSCs by PcTx1 or siRNA knockdown both can suppress the acid-induced upregulation of ASIC1a, activation- and autophagy-related molecules at protein level and mRNA level. ASIC1a is the only family member that is reported to be permeable to Ca2+, and intracellular Ca2+ might increase under acid environment where ASIC1a is activated by the extracellular H+ and then Ca2+ influx happen. In fact, ASIC1a can work via adjusting intracellular Ca2+ concentration, which has been reported by a lot of literatures.[9,11,14,26,27] Ca2+ serves as one of the most important second messengers regulating many important cellular functions, and it may have a positive effect on the expression of ASIC1a and activation and autophagy of PSCs. So, once ASIC1a is blocked, ASIC1a-mediated Ca2+ influx response to acid stimulation is limited, and the downstream processes are affected accordingly. This is one possible explanation for the phenomenon that we have observed in present study, but the exact mechanism need to explore further.
Conclusions
Our present study reports for the first time that ASIC1a is expressed in PSCs, and acid medium can upregulate its expression. Meanwhile, acid exposure also offers a condition for PSCs activation and autophagy, which can be attenuated partly by inhibiting ASIC1a, indicating acid-activated ASIC1a may involve these two important physiopathological events. Considering that the activation and autophagy of PSCs is of great significance for the development and progression of pancreatic diseases, targeting ASIC1a maybe provide a new strategy for the treatment of pancreatic cancer and pancreatitis. However, further efforts should be made to reveal the underlying molecular mechanism on the role of ASIC1a in the interaction between PSCs and pancreatic cancer cells or pancreatic cells.
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Hyewon Chung; Taijoon Chung; Yuen-Li Chung; Yong-Joon Chwae; Valentina Cianfanelli; Roberto Ciarcia; Iwona A Ciechomska; Maria Rosa Ciriolo; Mara Cirone; Sofie Claerhout; Michael J Clague; Joan Clària; Peter Gh Clarke; Robert Clarke; Emilio Clementi; Cédric Cleyrat; Miriam Cnop; Eliana M Coccia; Tiziana Cocco; Patrice Codogno; Jörn Coers; Ezra Ew Cohen; David Colecchia; Luisa Coletto; Núria S Coll; Emma Colucci-Guyon; Sergio Comincini; Maria Condello; Katherine L Cook; Graham H Coombs; Cynthia D Cooper; J Mark Cooper; Isabelle Coppens; Maria Tiziana Corasaniti; Marco Corazzari; Ramon Corbalan; Elisabeth Corcelle-Termeau; Mario D Cordero; Cristina Corral-Ramos; Olga Corti; Andrea Cossarizza; Paola Costelli; Safia Costes; Susan L Cotman; Ana Coto-Montes; Sandra Cottet; Eduardo Couve; Lori R Covey; L Ashley Cowart; Jeffery S Cox; Fraser P Coxon; Carolyn B Coyne; Mark S Cragg; Rolf J Craven; Tiziana Crepaldi; Jose L Crespo; Alfredo Criollo; Valeria Crippa; Maria Teresa Cruz; Ana Maria Cuervo; Jose M Cuezva; Taixing Cui; Pedro R Cutillas; Mark J Czaja; Maria F Czyzyk-Krzeska; Ruben K Dagda; Uta Dahmen; Chunsun Dai; Wenjie Dai; Yun Dai; Kevin N Dalby; Luisa Dalla Valle; Guillaume Dalmasso; Marcello D'Amelio; Markus Damme; Arlette Darfeuille-Michaud; Catherine Dargemont; Victor M Darley-Usmar; Srinivasan Dasarathy; Biplab Dasgupta; Srikanta Dash; Crispin R Dass; Hazel Marie Davey; Lester M Davids; David Dávila; Roger J Davis; Ted M Dawson; Valina L Dawson; Paula Daza; Jackie de Belleroche; Paul de Figueiredo; Regina Celia Bressan Queiroz de Figueiredo; José de la Fuente; Luisa De Martino; Antonella De Matteis; Guido Ry De Meyer; Angelo De Milito; Mauro De Santi; Wanderley de Souza; Vincenzo De Tata; Daniela De Zio; Jayanta Debnath; Reinhard Dechant; Jean-Paul Decuypere; Shane Deegan; Benjamin Dehay; Barbara Del Bello; Dominic P Del Re; Régis Delage-Mourroux; Lea Md Delbridge; Louise Deldicque; Elizabeth Delorme-Axford; Yizhen Deng; Joern Dengjel; Melanie Denizot; Paul Dent; Channing J Der; Vojo Deretic; Benoît Derrien; Eric Deutsch; Timothy P Devarenne; Rodney J Devenish; Sabrina Di Bartolomeo; Nicola Di Daniele; Fabio Di Domenico; Alessia Di Nardo; Simone Di Paola; Antonio Di Pietro; Livia Di Renzo; Aaron DiAntonio; Guillermo Díaz-Araya; Ines Díaz-Laviada; Maria T Diaz-Meco; Javier Diaz-Nido; Chad A Dickey; Robert C Dickson; Marc Diederich; Paul Digard; Ivan Dikic; Savithrama P Dinesh-Kumar; Chan Ding; Wen-Xing Ding; Zufeng Ding; Luciana Dini; Jörg Hw Distler; Abhinav Diwan; Mojgan Djavaheri-Mergny; Kostyantyn Dmytruk; Renwick Cj Dobson; Volker Doetsch; Karol Dokladny; Svetlana Dokudovskaya; Massimo Donadelli; X Charlie Dong; Xiaonan Dong; Zheng Dong; Terrence M Donohue; Kelly S Doran; Gabriella D'Orazi; Gerald W Dorn; Victor Dosenko; Sami Dridi; Liat Drucker; Jie Du; Li-Lin Du; Lihuan Du; André du Toit; Priyamvada Dua; Lei Duan; Pu Duann; Vikash Kumar Dubey; Michael R Duchen; Michel A Duchosal; Helene Duez; Isabelle Dugail; Verónica I Dumit; Mara C Duncan; Elaine A Dunlop; William A Dunn; Nicolas Dupont; Luc Dupuis; Raúl V Durán; Thomas M Durcan; Stéphane Duvezin-Caubet; Umamaheswar Duvvuri; Vinay Eapen; Darius Ebrahimi-Fakhari; Arnaud Echard; Leopold Eckhart; Charles L Edelstein; Aimee L Edinger; Ludwig Eichinger; Tobias Eisenberg; Avital Eisenberg-Lerner; N Tony Eissa; Wafik S El-Deiry; Victoria El-Khoury; Zvulun Elazar; Hagit Eldar-Finkelman; Chris Jh Elliott; Enzo Emanuele; Urban Emmenegger; Nikolai Engedal; Anna-Mart Engelbrecht; Simone Engelender; Jorrit M Enserink; Ralf Erdmann; Jekaterina Erenpreisa; Rajaraman Eri; Jason L Eriksen; Andreja Erman; Ricardo Escalante; Eeva-Liisa Eskelinen; Lucile Espert; Lorena Esteban-Martínez; Thomas J Evans; Mario Fabri; Gemma Fabrias; Cinzia Fabrizi; Antonio Facchiano; Nils J Færgeman; Alberto Faggioni; W Douglas Fairlie; Chunhai Fan; Daping Fan; Jie Fan; Shengyun Fang; Manolis Fanto; Alessandro Fanzani; Thomas Farkas; Mathias Faure; Francois B Favier; Howard Fearnhead; Massimo Federici; Erkang Fei; Tania C Felizardo; Hua Feng; Yibin Feng; Yuchen Feng; Thomas A Ferguson; Álvaro F Fernández; Maite G Fernandez-Barrena; Jose C Fernandez-Checa; Arsenio Fernández-López; Martin E Fernandez-Zapico; Olivier Feron; Elisabetta Ferraro; Carmen Veríssima Ferreira-Halder; Laszlo Fesus; Ralph Feuer; Fabienne C Fiesel; Eduardo C Filippi-Chiela; Giuseppe Filomeni; Gian Maria Fimia; John H Fingert; Steven Finkbeiner; Toren Finkel; Filomena Fiorito; Paul B Fisher; Marc Flajolet; Flavio Flamigni; Oliver Florey; Salvatore Florio; R Andres Floto; Marco Folini; Carlo Follo; Edward A Fon; Francesco Fornai; Franco Fortunato; Alessandro Fraldi; Rodrigo Franco; Arnaud Francois; Aurélie François; Lisa B Frankel; Iain Dc Fraser; Norbert Frey; Damien G Freyssenet; Christian Frezza; Scott L Friedman; Daniel E Frigo; Dongxu Fu; José M Fuentes; Juan Fueyo; Yoshio Fujitani; Yuuki Fujiwara; Mikihiro Fujiya; Mitsunori Fukuda; Simone Fulda; Carmela Fusco; Bozena Gabryel; Matthias Gaestel; Philippe Gailly; Malgorzata Gajewska; Sehamuddin Galadari; Gad Galili; Inmaculada Galindo; Maria F Galindo; Giovanna Galliciotti; Lorenzo Galluzzi; Luca Galluzzi; Vincent Galy; Noor Gammoh; Sam Gandy; Anand K Ganesan; Swamynathan Ganesan; Ian G Ganley; Monique Gannagé; Fen-Biao Gao; Feng Gao; Jian-Xin Gao; Lorena García Nannig; Eleonora García Véscovi; Marina Garcia-Macía; Carmen Garcia-Ruiz; Abhishek D Garg; Pramod Kumar Garg; Ricardo Gargini; Nils Christian Gassen; Damián Gatica; Evelina Gatti; Julie Gavard; Evripidis Gavathiotis; Liang Ge; Pengfei Ge; Shengfang Ge; Po-Wu Gean; Vania Gelmetti; Armando A Genazzani; Jiefei Geng; Pascal Genschik; Lisa Gerner; Jason E Gestwicki; David A Gewirtz; Saeid Ghavami; Eric Ghigo; Debabrata Ghosh; Anna Maria Giammarioli; Francesca Giampieri; Claudia Giampietri; Alexandra Giatromanolaki; Derrick J Gibbings; Lara Gibellini; Spencer B Gibson; Vanessa Ginet; Antonio Giordano; Flaviano Giorgini; Elisa Giovannetti; Stephen E Girardin; Suzana Gispert; Sandy Giuliano; Candece L Gladson; Alvaro Glavic; Martin Gleave; Nelly Godefroy; Robert M Gogal; Kuppan Gokulan; Gustavo H Goldman; Delia Goletti; Michael S Goligorsky; Aldrin V Gomes; Ligia C Gomes; Hernando Gomez; Candelaria Gomez-Manzano; Rubén Gómez-Sánchez; Dawit Ap Gonçalves; Ebru Goncu; Qingqiu Gong; Céline Gongora; Carlos B Gonzalez; Pedro Gonzalez-Alegre; Pilar Gonzalez-Cabo; Rosa Ana González-Polo; Ing Swie Goping; Carlos Gorbea; Nikolai V Gorbunov; Daphne R Goring; Adrienne M Gorman; Sharon M Gorski; Sandro Goruppi; Shino Goto-Yamada; Cecilia Gotor; Roberta A Gottlieb; Illana Gozes; Devrim Gozuacik; Yacine Graba; Martin Graef; Giovanna E Granato; Gary Dean Grant; Steven Grant; Giovanni Luca Gravina; Douglas R Green; Alexander Greenhough; Michael T Greenwood; Benedetto Grimaldi; Frédéric Gros; Charles Grose; Jean-Francois Groulx; Florian Gruber; Paolo Grumati; Tilman Grune; Jun-Lin Guan; Kun-Liang Guan; Barbara Guerra; Carlos Guillen; Kailash Gulshan; Jan Gunst; Chuanyong Guo; Lei Guo; Ming Guo; Wenjie Guo; Xu-Guang Guo; Andrea A Gust; Åsa B Gustafsson; Elaine Gutierrez; Maximiliano G Gutierrez; Ho-Shin Gwak; Albert Haas; James E Haber; Shinji Hadano; Monica Hagedorn; David R Hahn; Andrew J Halayko; Anne Hamacher-Brady; Kozo Hamada; Ahmed Hamai; Andrea Hamann; Maho Hamasaki; Isabelle Hamer; Qutayba Hamid; Ester M Hammond; Feng Han; Weidong Han; James T Handa; John A Hanover; Malene Hansen; Masaru Harada; Ljubica Harhaji-Trajkovic; J Wade Harper; Abdel Halim Harrath; Adrian L Harris; James Harris; Udo Hasler; Peter Hasselblatt; Kazuhisa Hasui; Robert G Hawley; Teresa S Hawley; Congcong He; Cynthia Y He; Fengtian He; Gu He; Rong-Rong He; Xian-Hui He; You-Wen He; Yu-Ying He; Joan K Heath; Marie-Josée Hébert; Robert A Heinzen; Gudmundur Vignir Helgason; Michael Hensel; Elizabeth P Henske; Chengtao Her; Paul K Herman; Agustín Hernández; Carlos Hernandez; Sonia Hernández-Tiedra; Claudio Hetz; P Robin Hiesinger; Katsumi Higaki; Sabine Hilfiker; Bradford G Hill; Joseph A Hill; William D Hill; Keisuke Hino; Daniel Hofius; Paul Hofman; Günter U Höglinger; Jörg Höhfeld; Marina K Holz; Yonggeun Hong; David A Hood; Jeroen Jm Hoozemans; Thorsten Hoppe; Chin Hsu; Chin-Yuan Hsu; Li-Chung Hsu; Dong Hu; Guochang Hu; Hong-Ming Hu; Hongbo Hu; Ming Chang Hu; Yu-Chen Hu; Zhuo-Wei Hu; Fang Hua; Ya Hua; Canhua Huang; Huey-Lan Huang; Kuo-How Huang; Kuo-Yang Huang; Shile Huang; Shiqian Huang; Wei-Pang Huang; Yi-Ran Huang; Yong Huang; Yunfei Huang; Tobias B Huber; Patricia Huebbe; Won-Ki Huh; Juha J Hulmi; Gang Min Hur; James H Hurley; Zvenyslava Husak; Sabah Na Hussain; Salik Hussain; Jung Jin Hwang; Seungmin Hwang; Thomas Is Hwang; Atsuhiro Ichihara; Yuzuru Imai; Carol Imbriano; Megumi Inomata; Takeshi Into; Valentina Iovane; Juan L Iovanna; Renato V Iozzo; Nancy Y Ip; Javier E Irazoqui; Pablo Iribarren; Yoshitaka Isaka; Aleksandra J Isakovic; Harry Ischiropoulos; Jeffrey S Isenberg; Mohammad Ishaq; Hiroyuki Ishida; Isao Ishii; Jane E Ishmael; Ciro Isidoro; Ken-Ichi Isobe; Erika Isono; Shohreh Issazadeh-Navikas; Koji Itahana; Eisuke Itakura; Andrei I Ivanov; Anand Krishnan V Iyer; José M Izquierdo; Yotaro Izumi; Valentina Izzo; Marja Jäättelä; Nadia Jaber; Daniel John Jackson; William T Jackson; Tony George Jacob; Thomas S Jacques; Chinnaswamy Jagannath; Ashish Jain; Nihar Ranjan Jana; Byoung Kuk Jang; Alkesh Jani; Bassam Janji; Paulo Roberto Jannig; Patric J Jansson; Steve Jean; Marina Jendrach; Ju-Hong Jeon; Niels Jessen; Eui-Bae Jeung; Kailiang Jia; Lijun Jia; Hong Jiang; Hongchi Jiang; Liwen Jiang; Teng Jiang; Xiaoyan Jiang; Xuejun Jiang; Xuejun Jiang; Ying Jiang; Yongjun Jiang; Alberto Jiménez; Cheng Jin; Hongchuan Jin; Lei Jin; Meiyan Jin; Shengkan Jin; Umesh Kumar Jinwal; Eun-Kyeong Jo; Terje Johansen; Daniel E Johnson; Gail Vw Johnson; James D Johnson; Eric Jonasch; Chris Jones; Leo Ab Joosten; Joaquin Jordan; Anna-Maria Joseph; Bertrand Joseph; Annie M Joubert; Dianwen Ju; Jingfang Ju; Hsueh-Fen Juan; Katrin Juenemann; Gábor Juhász; Hye Seung Jung; Jae U Jung; Yong-Keun Jung; Heinz Jungbluth; Matthew J Justice; Barry Jutten; Nadeem O Kaakoush; Kai Kaarniranta; Allen Kaasik; Tomohiro Kabuta; Bertrand Kaeffer; Katarina Kågedal; Alon Kahana; Shingo Kajimura; Or Kakhlon; Manjula Kalia; Dhan V Kalvakolanu; Yoshiaki Kamada; Konstantinos Kambas; Vitaliy O Kaminskyy; Harm H Kampinga; Mustapha Kandouz; Chanhee Kang; Rui Kang; Tae-Cheon Kang; Tomotake Kanki; Thirumala-Devi Kanneganti; Haruo Kanno; Anumantha G Kanthasamy; Marc Kantorow; Maria Kaparakis-Liaskos; Orsolya Kapuy; Vassiliki Karantza; Md Razaul Karim; Parimal Karmakar; Arthur Kaser; Susmita Kaushik; Thomas Kawula; A Murat Kaynar; Po-Yuan Ke; Zun-Ji Ke; John H Kehrl; Kate E Keller; Jongsook Kim Kemper; Anne K Kenworthy; Oliver Kepp; Andreas Kern; Santosh Kesari; David Kessel; Robin Ketteler; Isis do Carmo Kettelhut; Bilon Khambu; Muzamil Majid Khan; Vinoth Km Khandelwal; Sangeeta Khare; Juliann G Kiang; Amy A Kiger; Akio Kihara; Arianna L Kim; Cheol Hyeon Kim; Deok Ryong Kim; Do-Hyung Kim; Eung Kweon Kim; Hye Young Kim; Hyung-Ryong Kim; Jae-Sung Kim; Jeong Hun Kim; Jin Cheon Kim; Jin Hyoung Kim; Kwang Woon Kim; Michael D Kim; Moon-Moo Kim; Peter K Kim; Seong Who Kim; Soo-Youl Kim; Yong-Sun Kim; Yonghyun Kim; Adi Kimchi; Alec C Kimmelman; Tomonori Kimura; Jason S King; Karla Kirkegaard; Vladimir Kirkin; Lorrie A Kirshenbaum; Shuji Kishi; Yasuo Kitajima; Katsuhiko Kitamoto; Yasushi Kitaoka; Kaio Kitazato; Rudolf A Kley; Walter T Klimecki; Michael Klinkenberg; Jochen Klucken; Helene Knævelsrud; Erwin Knecht; Laura Knuppertz; Jiunn-Liang Ko; Satoru Kobayashi; Jan C Koch; Christelle Koechlin-Ramonatxo; Ulrich Koenig; Young Ho Koh; Katja Köhler; Sepp D Kohlwein; Masato Koike; Masaaki Komatsu; Eiki Kominami; Dexin Kong; Hee Jeong Kong; Eumorphia G Konstantakou; Benjamin T Kopp; Tamas Korcsmaros; Laura Korhonen; Viktor I Korolchuk; Nadya V Koshkina; Yanjun Kou; Michael I Koukourakis; Constantinos Koumenis; Attila L Kovács; Tibor Kovács; Werner J Kovacs; Daisuke Koya; Claudine Kraft; Dimitri Krainc; Helmut Kramer; Tamara Kravic-Stevovic; Wilhelm Krek; Carole Kretz-Remy; Roswitha Krick; Malathi Krishnamurthy; Janos Kriston-Vizi; Guido Kroemer; Michael C Kruer; Rejko Kruger; Nicholas T Ktistakis; Kazuyuki Kuchitsu; Christian Kuhn; Addanki Pratap Kumar; Anuj Kumar; Ashok Kumar; Deepak Kumar; Dhiraj Kumar; Rakesh Kumar; Sharad Kumar; Mondira Kundu; Hsing-Jien Kung; Atsushi Kuno; Sheng-Han Kuo; Jeff Kuret; Tino Kurz; Terry Kwok; Taeg Kyu Kwon; Yong Tae Kwon; Irene Kyrmizi; Albert R La Spada; Frank Lafont; Tim Lahm; Aparna Lakkaraju; Truong Lam; Trond Lamark; Steve Lancel; Terry H Landowski; Darius J R Lane; Jon D Lane; Cinzia Lanzi; Pierre Lapaquette; Louis R Lapierre; Jocelyn Laporte; Johanna Laukkarinen; Gordon W Laurie; Sergio Lavandero; Lena Lavie; Matthew J LaVoie; Betty Yuen Kwan Law; Helen Ka-Wai Law; Kelsey B Law; Robert Layfield; Pedro A Lazo; Laurent Le Cam; Karine G Le Roch; Hervé Le Stunff; Vijittra Leardkamolkarn; Marc Lecuit; Byung-Hoon Lee; Che-Hsin Lee; Erinna F Lee; Gyun Min Lee; He-Jin Lee; Hsinyu Lee; Jae Keun Lee; Jongdae Lee; Ju-Hyun Lee; Jun Hee Lee; Michael Lee; Myung-Shik Lee; Patty J Lee; Sam W Lee; Seung-Jae Lee; Shiow-Ju Lee; Stella Y Lee; Sug Hyung Lee; Sung Sik Lee; Sung-Joon Lee; Sunhee Lee; Ying-Ray Lee; Yong J Lee; Young H Lee; Christiaan Leeuwenburgh; Sylvain Lefort; Renaud Legouis; Jinzhi Lei; Qun-Ying Lei; David A Leib; Gil Leibowitz; Istvan Lekli; Stéphane D Lemaire; John J Lemasters; Marius K Lemberg; Antoinette Lemoine; Shuilong Leng; Guido Lenz; Paola Lenzi; Lilach O Lerman; Daniele Lettieri Barbato; Julia I-Ju Leu; Hing Y Leung; Beth Levine; Patrick A Lewis; Frank Lezoualc'h; Chi Li; Faqiang Li; Feng-Jun Li; Jun Li; Ke Li; Lian Li; Min Li; Min Li; Qiang Li; Rui Li; Sheng Li; Wei Li; Wei Li; Xiaotao Li; Yumin Li; Jiqin Lian; Chengyu Liang; Qiangrong Liang; Yulin Liao; Joana Liberal; Pawel P Liberski; Pearl Lie; Andrew P Lieberman; Hyunjung Jade Lim; Kah-Leong Lim; Kyu Lim; Raquel T Lima; Chang-Shen Lin; Chiou-Feng Lin; Fang Lin; Fangming Lin; Fu-Cheng Lin; Kui Lin; Kwang-Huei Lin; Pei-Hui Lin; Tianwei Lin; Wan-Wan Lin; Yee-Shin Lin; Yong Lin; Rafael Linden; Dan Lindholm; Lisa M Lindqvist; Paul Lingor; Andreas Linkermann; Lance A Liotta; Marta M Lipinski; Vitor A Lira; Michael P Lisanti; Paloma B Liton; Bo Liu; Chong Liu; Chun-Feng Liu; Fei Liu; Hung-Jen Liu; Jianxun Liu; Jing-Jing Liu; Jing-Lan Liu; Ke Liu; Leyuan Liu; Liang Liu; Quentin Liu; Rong-Yu Liu; Shiming Liu; Shuwen Liu; Wei Liu; Xian-De Liu; Xiangguo Liu; Xiao-Hong Liu; Xinfeng Liu; Xu Liu; Xueqin Liu; Yang Liu; Yule Liu; Zexian Liu; Zhe Liu; Juan P Liuzzi; Gérard Lizard; Mila Ljujic; Irfan J Lodhi; Susan E Logue; Bal L Lokeshwar; Yun Chau Long; Sagar Lonial; Benjamin Loos; Carlos López-Otín; Cristina López-Vicario; Mar Lorente; Philip L Lorenzi; Péter Lõrincz; Marek Los; Michael T Lotze; Penny E Lovat; Binfeng Lu; Bo Lu; Jiahong Lu; Qing Lu; She-Min Lu; Shuyan Lu; Yingying Lu; Frédéric Luciano; Shirley Luckhart; John Milton Lucocq; Paula Ludovico; Aurelia Lugea; Nicholas W Lukacs; Julian J Lum; Anders H Lund; Honglin Luo; Jia Luo; Shouqing Luo; Claudio Luparello; Timothy Lyons; Jianjie Ma; Yi Ma; Yong Ma; Zhenyi Ma; Juliano Machado; Glaucia M Machado-Santelli; Fernando Macian; Gustavo C MacIntosh; Jeffrey P MacKeigan; Kay F Macleod; John D MacMicking; Lee Ann MacMillan-Crow; Frank Madeo; Muniswamy Madesh; Julio Madrigal-Matute; Akiko Maeda; Tatsuya Maeda; Gustavo Maegawa; Emilia Maellaro; Hannelore Maes; Marta Magariños; Kenneth Maiese; Tapas K Maiti; Luigi Maiuri; Maria Chiara Maiuri; Carl G Maki; Roland Malli; Walter Malorni; Alina Maloyan; Fathia Mami-Chouaib; Na Man; Joseph D Mancias; Eva-Maria Mandelkow; Michael A Mandell; Angelo A Manfredi; Serge N Manié; Claudia Manzoni; Kai Mao; Zixu Mao; Zong-Wan Mao; Philippe Marambaud; Anna Maria Marconi; Zvonimir Marelja; Gabriella Marfe; Marta Margeta; Eva Margittai; Muriel Mari; Francesca V Mariani; Concepcio Marin; Sara Marinelli; Guillermo Mariño; Ivanka Markovic; Rebecca Marquez; Alberto M Martelli; Sascha Martens; Katie R Martin; Seamus J Martin; Shaun Martin; Miguel A Martin-Acebes; Paloma Martín-Sanz; Camille Martinand-Mari; Wim Martinet; Jennifer Martinez; Nuria Martinez-Lopez; Ubaldo Martinez-Outschoorn; Moisés Martínez-Velázquez; Marta Martinez-Vicente; Waleska Kerllen Martins; Hirosato Mashima; James A Mastrianni; Giuseppe Matarese; Paola Matarrese; Roberto Mateo; Satoaki Matoba; Naomichi Matsumoto; Takehiko Matsushita; Akira Matsuura; Takeshi Matsuzawa; Mark P Mattson; Soledad Matus; Norma Maugeri; Caroline Mauvezin; Andreas Mayer; Dusica Maysinger; Guillermo D Mazzolini; Mary Kate McBrayer; Kimberly McCall; Craig McCormick; Gerald M McInerney; Skye C McIver; Sharon McKenna; John J McMahon; Iain A McNeish; Fatima Mechta-Grigoriou; Jan Paul Medema; Diego L Medina; Klara Megyeri; Maryam Mehrpour; Jawahar L Mehta; Yide Mei; Ute-Christiane Meier; Alfred J Meijer; Alicia Meléndez; Gerry Melino; Sonia Melino; Edesio Jose Tenorio de Melo; Maria A Mena; Marc D Meneghini; Javier A Menendez; Regina Menezes; Liesu Meng; Ling-Hua Meng; Songshu Meng; Rossella Menghini; A Sue Menko; Rubem Fs Menna-Barreto; Manoj B Menon; Marco A Meraz-Ríos; Giuseppe Merla; Luciano Merlini; Angelica M Merlot; Andreas Meryk; Stefania Meschini; Joel N Meyer; Man-Tian Mi; Chao-Yu Miao; Lucia Micale; Simon Michaeli; Carine Michiels; Anna Rita Migliaccio; Anastasia Susie Mihailidou; Dalibor Mijaljica; Katsuhiko Mikoshiba; Enrico Milan; Leonor Miller-Fleming; Gordon B Mills; Ian G Mills; Georgia Minakaki; Berge A Minassian; Xiu-Fen Ming; Farida Minibayeva; Elena A Minina; Justine D Mintern; Saverio Minucci; Antonio Miranda-Vizuete; Claire H Mitchell; Shigeki Miyamoto; Keisuke Miyazawa; Noboru Mizushima; Katarzyna Mnich; Baharia Mograbi; Simin Mohseni; Luis Ferreira Moita; Marco Molinari; Maurizio Molinari; Andreas Buch Møller; Bertrand Mollereau; Faustino Mollinedo; Marco Mongillo; Martha M Monick; Serena Montagnaro; Craig Montell; Darren J Moore; Michael N Moore; Rodrigo Mora-Rodriguez; Paula I Moreira; Etienne Morel; Maria Beatrice Morelli; Sandra Moreno; Michael J Morgan; Arnaud Moris; Yuji Moriyasu; Janna L Morrison; Lynda A Morrison; Eugenia Morselli; Jorge Moscat; Pope L Moseley; Serge Mostowy; Elisa Motori; Denis Mottet; Jeremy C Mottram; Charbel E-H Moussa; Vassiliki E Mpakou; Hasan Mukhtar; Jean M Mulcahy Levy; Sylviane Muller; Raquel Muñoz-Moreno; Cristina Muñoz-Pinedo; Christian Münz; Maureen E Murphy; James T Murray; Aditya Murthy; Indira U Mysorekar; Ivan R Nabi; Massimo Nabissi; Gustavo A Nader; Yukitoshi Nagahara; Yoshitaka Nagai; Kazuhiro Nagata; Anika Nagelkerke; Péter Nagy; Samisubbu R Naidu; Sreejayan Nair; Hiroyasu Nakano; Hitoshi Nakatogawa; Meera Nanjundan; Gennaro Napolitano; Naweed I Naqvi; Roberta Nardacci; Derek P Narendra; Masashi Narita; Anna Chiara Nascimbeni; Ramesh Natarajan; Luiz C Navegantes; Steffan T Nawrocki; Taras Y Nazarko; Volodymyr Y Nazarko; Thomas Neill; Luca M Neri; Mihai G Netea; Romana T Netea-Maier; Bruno M Neves; Paul A Ney; Ioannis P Nezis; Hang Tt Nguyen; Huu Phuc Nguyen; Anne-Sophie Nicot; Hilde Nilsen; Per Nilsson; Mikio Nishimura; Ichizo Nishino; Mireia Niso-Santano; Hua Niu; Ralph A Nixon; Vincent Co Njar; Takeshi Noda; Angelika A Noegel; Elsie Magdalena Nolte; Erik Norberg; Koenraad K Norga; Sakineh Kazemi Noureini; Shoji Notomi; Lucia Notterpek; Karin Nowikovsky; Nobuyuki Nukina; Thorsten Nürnberger; Valerie B O'Donnell; Tracey O'Donovan; Peter J O'Dwyer; Ina Oehme; Clara L Oeste; Michinaga Ogawa; Besim Ogretmen; Yuji Ogura; Young J Oh; Masaki Ohmuraya; Takayuki Ohshima; Rani Ojha; Koji Okamoto; Toshiro Okazaki; F Javier Oliver; Karin Ollinger; Stefan Olsson; Daniel P Orban; Paulina Ordonez; Idil Orhon; Laszlo Orosz; Eyleen J O'Rourke; Helena Orozco; Angel L Ortega; Elena Ortona; Laura D Osellame; Junko Oshima; Shigeru Oshima; Heinz D Osiewacz; Takanobu Otomo; Kinya Otsu; Jing-Hsiung James Ou; Tiago F Outeiro; Dong-Yun Ouyang; Hongjiao Ouyang; Michael Overholtzer; Michelle A Ozbun; P Hande Ozdinler; Bulent Ozpolat; Consiglia Pacelli; Paolo Paganetti; Guylène Page; Gilles Pages; Ugo Pagnini; Beata Pajak; Stephen C Pak; Karolina Pakos-Zebrucka; Nazzy Pakpour; Zdena Palková; Francesca Palladino; Kathrin Pallauf; Nicolas Pallet; Marta Palmieri; Søren R Paludan; Camilla Palumbo; Silvia Palumbo; Olatz Pampliega; Hongming Pan; Wei Pan; Theocharis Panaretakis; Aseem Pandey; Areti Pantazopoulou; Zuzana Papackova; Daniela L Papademetrio; Issidora Papassideri; Alessio Papini; Nirmala Parajuli; Julian Pardo; Vrajesh V Parekh; Giancarlo Parenti; Jong-In Park; Junsoo Park; Ohkmae K Park; Roy Parker; Rosanna Parlato; Jan B Parys; Katherine R Parzych; Jean-Max Pasquet; Benoit Pasquier; Kishore Bs Pasumarthi; Daniel Patschan; Cam Patterson; Sophie Pattingre; Scott Pattison; Arnim Pause; Hermann Pavenstädt; Flaminia Pavone; Zully Pedrozo; Fernando J Peña; Miguel A Peñalva; Mario Pende; Jianxin Peng; Fabio Penna; Josef M Penninger; Anna Pensalfini; Salvatore Pepe; Gustavo Js Pereira; Paulo C Pereira; Verónica Pérez-de la Cruz; María Esther Pérez-Pérez; Diego Pérez-Rodríguez; Dolores Pérez-Sala; Celine Perier; Andras Perl; David H Perlmutter; Ida Perrotta; Shazib Pervaiz; Maija Pesonen; Jeffrey E Pessin; Godefridus J Peters; Morten Petersen; Irina Petrache; Basil J Petrof; Goran Petrovski; James M Phang; Mauro Piacentini; Marina Pierdominici; Philippe Pierre; Valérie Pierrefite-Carle; Federico Pietrocola; Felipe X Pimentel-Muiños; Mario Pinar; Benjamin Pineda; Ronit Pinkas-Kramarski; Marcello Pinti; Paolo Pinton; Bilal Piperdi; James M Piret; Leonidas C Platanias; Harald W Platta; Edward D Plowey; Stefanie Pöggeler; Marc Poirot; Peter Polčic; Angelo Poletti; Audrey H Poon; Hana Popelka; Blagovesta Popova; Izabela Poprawa; Shibu M Poulose; Joanna Poulton; Scott K Powers; Ted Powers; Mercedes Pozuelo-Rubio; Krisna Prak; Reinhild Prange; Mark Prescott; Muriel Priault; Sharon Prince; Richard L Proia; Tassula Proikas-Cezanne; Holger Prokisch; Vasilis J Promponas; Karin Przyklenk; Rosa Puertollano; Subbiah Pugazhenthi; Luigi Puglielli; Aurora Pujol; Julien Puyal; Dohun Pyeon; Xin Qi; Wen-Bin Qian; Zheng-Hong Qin; Yu Qiu; Ziwei Qu; Joe Quadrilatero; Frederick Quinn; Nina Raben; Hannah Rabinowich; Flavia Radogna; Michael J Ragusa; Mohamed Rahmani; Komal Raina; Sasanka Ramanadham; Rajagopal Ramesh; Abdelhaq Rami; Sarron Randall-Demllo; Felix Randow; Hai Rao; V Ashutosh Rao; Blake B Rasmussen; Tobias M Rasse; Edward A Ratovitski; Pierre-Emmanuel Rautou; Swapan K Ray; Babak Razani; Bruce H Reed; Fulvio Reggiori; Markus Rehm; Andreas S Reichert; Theo Rein; David J Reiner; Eric Reits; Jun Ren; Xingcong Ren; Maurizio Renna; Jane Eb Reusch; Jose L Revuelta; Leticia Reyes; Alireza R Rezaie; Robert I Richards; Des R Richardson; Clémence Richetta; Michael A Riehle; Bertrand H Rihn; Yasuko Rikihisa; Brigit E Riley; Gerald Rimbach; Maria Rita Rippo; Konstantinos Ritis; Federica Rizzi; Elizete Rizzo; Peter J Roach; Jeffrey Robbins; Michel Roberge; Gabriela Roca; Maria Carmela Roccheri; Sonia Rocha; Cecilia Mp Rodrigues; Clara I Rodríguez; Santiago Rodriguez de Cordoba; Natalia Rodriguez-Muela; 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Authors: Josef Gillson; Yomna S Abd El-Aziz; Lionel Y W Leck; Patric J Jansson; Nick Pavlakis; Jaswinder S Samra; Anubhav Mittal; Sumit Sahni Journal: Cancers (Basel) Date: 2022-07-20 Impact factor: 6.575
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