Literature DB >> 22852069

Yessotoxin as a tool to study induction of multiple cell death pathways.

Abstract

This work proposes to use the marine algal toxin yessotoxin (YTX) to establish reference model experiments to explore medically valuable effects from induction of multiple cell death pathways. YTX is one of few toxins reported to make such induction. It is a small molecule compound which at low concentrations can induce apoptosis in primary cultures, many types of cells and cell lines. It can also induce a non-apoptotic form of programmed cell death in BC3H1 myoblast cell lines. The present contribution reviews arguments that this type of induction may have principal interest outside this particular example. One principal effect of medical interest may be that cancer cells will not so easily adapt to the synergistic effects from induction of more than one death pathway as compared to induction of only apoptosis.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: apoptosis; cancer; multiple signalling pathways; neurodegenerative diseases; paraptosis; yessotoxin

Mesh：

Substances：
Oxocins
yessotoxin

Year: 2012 PMID： 22852069 PMCID： PMC3407893 DOI： 10.3390/toxins4070568

Source DB: PubMed Journal: Toxins (Basel) ISSN： 2072-6651 Impact factor: 4.546

1. Introduction

Programmed cell death mechanisms are significant for development, maintenance and self-regulation of multicellular organisms [1]. Cell-intrinsic regulation exists in the diverse cell death modalities that occur under different physiological and pathological conditions. This regulation depends on death-inducing stimulus. Several mediators, organelles and cellular processes can take part in and activate a diverse cascade of signalling pathways that may interact or cross-talk [2]. Classification of programmed cell death mechanisms are developing and new cell death modalities often appear without a clear reference to precise biochemical mechanisms [3,4]. Galluzzi et al. [4] recently proposed molecular definitions of a comprehensive and detailed set of cell death subroutines based on measurable biochemical features. They argue that their classification must be interpreted with caution, especially when single parameters are under investigation. The current knowledge about programmed cell death seems often to be associated with morphological criteria and in terms of simpler terminology as compared to Galluzzi et al. [4]. Morphologically relatively uniform sets of observations have been important for recognition of different forms of cell death [5]. These traits can be evaluated using light, fluorescence and electron microscopy. Biochemical markers such as caspase activation, cleavage of caspase substrates and related target proteins, DNA fragmentation and changes in the membrane asymmetry can be measured by immunohistochemistry and immunocytochemistry methods. The choice of the methodology to identify cell death mechanisms will depend on the experimental model. Combination of several methods is recommended for proper evaluation of different cell death modalities. Programmed cell death is an integral part of complex living systems which typically possess redundancy and a capacity of adaptation. Different biochemical mechanisms within programmed cell death may overlap or act as hidden backups for events to take place. Such systems may not in practice be fully observable. Reference model experiments and preliminary generic views may though support their description. The present work provides photographic illustrations indicating diversity in how cells can respond to insults affecting cell death programmes. Such variations may be important for understanding cell death mechanisms. It reflects redundancy and plasticity of cell signalling pathways. Programmed cell death mechanisms vary and they are context dependent [6]. Apoptosis is an active gene regulated programmed cell death mechanism executed by caspases [7,8,9,10]. It is characterised by activation of a sequence of cellular, morphological and biochemical changes. These changes include cell shrinkage, compression of cytoplasmatic organelles, dilatation of the endoplasmic reticulum, chromatin condensation, membrane blebbing and DNA fragmentation recognised as a “DNA ladder” [11]. Apoptotic inducers can, however, initiate programmed cell death mechanisms which are independent on caspase activation [6]. These other types of programmed cell death mechanisms such as paraptosis, autophagy and mitotic catastrophe can operate in absence and independent of caspase activation [1]. Caspase-independent cell death programs are activated when caspase-mediated pathways are inhibited or fail to function [1,6]. Furthermore, caspase-independent cell death mechanisms utilise signalling mediators that are also involved in apoptosis induction [6]. Knowledge about the distinct regulatory signalling pathways that can be induced during distinct cell death modalities helps to understand the development of some diseases. Dysregulation or defects in execution of programmed cell death mechanisms can cause cancer and neurodegenerative diseases. Disruption of apoptotic functions can in some cases accelerate transformation of a normal cell into a tumour cell [12]. Tumours that succeed in progressing to states of high-grade malignancy and resistance to therapy may do so by overcoming the apoptotic pathway [13,14]. Yessotoxin (YTX) is a marine algal toxin that can induce programmed cell death at nanomolar concentrations in different model systems [15,16,17,18,19,20,21,22]. It affects cellular systems in a cell-specific manner. The knowledge about induction of programmed cell death mechanisms and their cross-talk under YTX exposure is substantially incomplete [22]. YTX can also induce a non-apoptotic form of programmed cell death termed paraptosis-like cell death [23]. This type of cell death fails to fulfill the criteria for apoptosis. It is insensitive to a broad range of caspase inhibitors and it operates in a caspase-independent form, although caspase-9 can be activated in an Apaf-1 independent manner [24]. YTX may therefore be of interest in the search for vulnerabilities of cancer cells which are resistant to apoptotic inducers. Administration of two different insults inducing for example apoptosis and paraptosis, respectively, may not have the same capacity to kill cancer cells as compared to an insult that can induce both apoptosis and paraptosis. It is presumably harder for a cell to survive after exposure to multiple simultaneous death-inducing stimulus than it is to withstand similar but non-simultaneous ones (as would be the case if the cells where subject to two different drugs with different response/exposure times). A design of a cancer drug may utilise this idea. Therefore, elucidation of the molecular mechanisms and biochemical markers implicated in multiple forms of programmed cell death induced by yessotoxin may help to develop therapeutic approaches related to conditions characterised by excessive cell death or by excessive cell death accumulation.

2. Programmed Cell Death in Disease Models

Apoptotic cell death pathways and their biochemical mediators and regulators are relatively known. However, similar detailed knowledge is missing for non-apoptotic forms of programmed cell death mechanisms [25,26,27]. These programmes operate in a caspase-independent manner and they are not affected by apoptosis inhibitors [24,28]. Non-apoptotic forms of cell death are associated with a variety of neurodegenerative and neoplastic conditions [24]. However, accumulated evidence suggests that under neurodegenerative diseases, all types of programmed cell death phenotypes can take place [29]. Activation of both caspase-dependent and caspase-independent signalling pathways under the same death stimuli has been reported in cases where deletion of damaged cells needs execution of complementary programmes to assure cell death [30,31]. Apoptotic and non-apoptotic cell death programmes seem in general often to coexist [32]. Activation of multiple cell death programmes may limit action of cancer cells due to cross-fire effects, or it may act as a default mechanism in neurodegenerative conditions when caspases are inhibited or when caspase-dependent and -independent pathways are activated in parallel [33,34,35]. Non-apoptotic caspase-independent cell death programmes may activate in an apoptotic resistant cancer cell. Such programmes may employ death-inducing proteases such as calpains and cathepsins. These proteases can execute cell death independently of the apoptotic machinery, and they may take a dominant role in the progression of tumour development in some cell types by triggering the TNF-cell death signalling pathway [36,37]. Non-apoptotic forms of cell death may also affect tissue reorganisation, regeneration in the nervous system and induce immunological reactions in tumours [35,38]. Alternative cell death signalling pathways can ensure safe elimination of unwanted cells. This redundancy of cell removal may protect organisms against development of diseases such as cancer where huge numbers of mutations and failed cell divisions occur during the life span [1]. Cancer cells may inactivate key components for apoptosis such as the p53 pathway, the extrinsic cascade, induced loss of pro-apoptotic proteins, or induced activation of the P13K-Akt/PKB pathway. Cancer cells which develop into aggressive tumours may not have lost the ability to induce apoptosis. However, they may not trigger sufficient death signalling cascades to stop tumour development [35]. They can combine cellular factors to avoid the action of anti-cancer drugs, although drug resistance mechanisms are quite variable [32]. Searching for compounds that can induce alternative cell death pathways may better contribute to target different cellular functions and exploit synergistic effects not yet discovered.

3. Potential Medical Applications for Yessotoxin

YTX can activate different cell death programmes in BC3H1 myoblast cell lines [19,23]. Figure 1, Figure 2 illustrate apoptotic and paraptotic traits in BC3H1 cells due to YTX exposure. Membrane blebbing and formation of apoptotic bodies are typical for apoptosis while extensive cytoplasmic vacuolation is a trait for paraptosis. This variability indicates potentials to compose synergistic effects of interest within development of therapeutic methods to avoid drug-resistance in cancer cells.

Figure 1

Figure 2

Apoptotic and paraptotic features in BC3H1 myoblast cell lines exposed to 100 nM YTX. Exposure times are 24 h (left), 48 h (centre) and 72 h (right). Membrane blebbing and apoptotic bodies (green arrow), cytoplasmic vacuolation (red arrow). Note that apoptotic and paraptotic features are already evident at 24 h YTX exposure. Each of the lower image is an enlarged subset of the image above. Scale bar: 100 µm.

Activation of apoptosis and paraptosis like-cell death in BC3H1 myoblast cell lines to 100 nM YTX. Left: untreated cells. Centre and right: exposed cells after 48 h and 72 h (respectively) showing morphological traits of apoptosis (green arrow) and paraptosis (red arrow). Scale bar: 100 µm. Korsnes et al. [19] and Korsnes et al. [23] provide light and electron microscopy pictures showing morphological traits typical to apoptosis and paraptosis in BC3H1 cells subject to YTX exposure during 24, 48 and 72 h. Typical morphological traits of apoptosis in this case were membrane blebbing, nuclear skrinkage and formation of apoptotic bodies. Caspase 9 activation was detected by western blotting and immunofluorescence labelling. DNA agarose gel electrophoresis and TUNEL assay evidence lack of DNA fragmentation. One similarly found excessive cytoplasmic vacuolation, no DNA fragmentation, no PARP cleavage, uncondensed chromatin, mitochondria and ER swelling and JNK activation as typical paraptotic traits. Double membrane vacuoles or autophagosomes in the cytoplasm of dying cells may be present during YTX exposures. However, formation of autophagosomes is not sufficient to incriminate autophagy as a mechanism of cell death [39]. Autophagosomes may accumulate not due to activation of the flux through the autophagic pathway; rather, they may appear as a result of inhibition of their maturation process [39]. Autophagosomes may also be involved in elimination of damaged mitochondria, damaged portions of the ER membrane, or selective removal of functionally redundant organelles [40,41]. Paraptosis and autophagic cell death can not be easily distinguished with standardised in vitro biochemical assays [42]. Induction of autophagic cell death under YTX insult has yet to be demonstrated. Apoptotic and paraptotic features in BC3H1 myoblast cell lines exposed to 100 nM YTX. Exposure times are 24 h (left), 48 h (centre) and 72 h (right). Membrane blebbing and apoptotic bodies (green arrow), cytoplasmic vacuolation (red arrow). Note that apoptotic and paraptotic features are already evident at 24 h YTX exposure. Each of the lower image is an enlarged subset of the image above. Scale bar: 100 µm. Sperandio et al. [24] reported that cell death insults can produce a two-pronged response leading either to activation of the apoptotic pathway or to activation of the paraptotic pathway. Activation of a specific cell death pathway can depend on a variety of factors including cell type, the hierarchy of inter-cellular organelles and the type and severity of insult [2,24]. Multiple pathways might interact to execute cell death, although the resulting morphological appearance would be decided by the metabolic situation, the activation or suppression of individual subroutines or the relative speed of their execution in each cell type [43,44,45,46,47]. Moreover, a specific cell death-related phenomenon may occur along with the execution of another cell death mode or a cell death-associated biochemical process can occur at a sub-lethal or transient level, which does not lead to the cell demise [4]. Crosstalk between different cell death subroutines can occur under stress conditions and it may result in the activation of multiple lethal mechanisms, which can exhibit different degree of overlap. Interference between pro-survival and pro-death pathways may determine if and by which subroutine the cell will eventually die [4]. Receptors involved in mediating cell death may also execute the apoptotic or the paraptotic pathway, or both pathways [24]. Furthermore, the contribution of individual receptors could also be relevant in the decision of the mode of cell death [44]. Activation of the apoptotic and the paraptotic pathway in BC3H1 myoblast cell lines under YTX insult might be related to individual receptors in such cell lines and the interaction of YTX with different cellular components that are involved in the expression and function of such cellular receptors. YTX is already suggested for different therapeutic approaches [48,49]. López et al. [48] proposed to use YTX as an anti-tumour drug, and López et al. [49] proposed to use YTX and its analogues to treat and/or prevent neurodegenerative diseases such as the Alzheimer’s disease. The Alzheimer’s disease is characterized by abnormal accumulation of β-amyloid and TAU proteins. Misfolded β-amyloid and TAU proteins form aggregates and adversely affect normal cellular function in the neurons where they induce a progressive degeneration. López et al. [49] brought the idea that YTX may help to avoid this pathological accumulation of proteins. They showed that YTX at a low concentration of 1 nM can decrease levels of the TAU and the β-amyloid protein in transgenic mice. These different and opposite therapeutic approaches indicate that YTX concentration and cell-specificity might be critical for the induction of different cell death mechanisms. Therefore, identification of chemical compounds that can modulate induction of apoptosis and inhibition of paraptosis would be beneficial for possible therapeutic applications. Evaluation of programmed cell death induction by YTX with different model cellular systems will increase understanding about YTX’s mechanisms of action and cross-talk among signalling pathways involved in cell death. For example, induction of the apoptotic cell death receptor pathway under YTX exposure is still undetermined and it could be a new potential therapeutic use regarding the apoptotic pathway. Targeting apoptosis by employing the death receptor pathway constitutes a potential therapeutic strategy in many cancer cells, since cancer cells are known to their resistance to apoptosis induction.

4. Other Examples of Complex Induction of Programmed Cell Death

There are currently few reports of chemical agents which can activate both apoptosis and paraptosis in cells. Table 1 summarises such observations. The table includes a list of different insults which can activate different cell death programmes. The induction seems to be cell-specific. Multiple pathways may interact to form a complex system of positive feedback loops to execute cell death. The resulting morphology would be decided by the metabolic situation, intracellular protein localisation, transport inside the cells, the activation or suppression of individual subroutines or the relative speed of their execution in each cell [43,45,46,47,50]. Induction of multiple pathways may be necessary to ensure the removal of injured cells or prevent survival of unhealthy cells. It seems likely that accumulation of damage incompatible with cell survival would require disruption of several vital functions. Therefore, the progression of the death programmes and the safe disposal of the injured cell may appear as a positive feedback mechanism to remove such unwanted cells [50].

Table 1

Examples of multiple induction of cell death programmes under different insults.

Reference	Cell type	Insult	Pathway	Mediated by
Sperandio et al. [24]	293T cells, Apaf-1 null mouse embryonic fibroblast	Transfection with the human insulin-like growth factor I receptor (IGFIR)	apoptosis, paraptosis	caspase-9, Apaf-1 independent
Kanasaki et al. [51]	Rat Pituitary GH3 Cells	Bromocriptine	apoptosis	p38
Palmeri et al. [52]	Experimental rat pituitary tumours		paraptosis	p38, ERK1/2, PKCδ
Wang et al. [53]	HEK293, HeLa and 293T cells	Transfection with the TAJ/TROY (novel member of the TNFR family)	paraptosis-like	overexpression of programmed cell death 5 (PDCD5)
Samadder et al. [54]	MEFs (mouse embryonic fibroblasts)	Glycosylated anti-tumour ether lipids (GAELs)	paraptosis-like	mTOR-independent (mammalian target of rapamycin)
Li et al. [55]	HCT116 (colorectal cancer cells)	Ginsenoside RH2	apoptosis, paraptosis-like	caspase-3 activation and p53
Korsnes et al. [19]	BC3H1 myoblast cell lines	Yessotoxin	apoptosis	caspase-3 activation
Korsnes et al. [23]			paraptosis-like	caspase-9 activation, JNK/SAPK1
Asare et al. [56]	Hepa1c1c7 cells	1-Nitropyrene (1-NP)	apoptosis, paraptosis	ERK1/2, p38, JNK
Yoon et al. [57]	MDA-MB-231, MDA-MB-435S and Hs578T (breast cancer cells)	Curcumin	paraptosis-like	ERK, JNK
Zhang et al. [58]	human colon carcinoma SW620 cells	δ-tocotrienol	paraptosis-like	Suppression of the Wnt signalling pathway.

Examples of multiple induction of cell death programmes under different insults. Simultaneous activation may occur under the same insult and in the same cell population [24,55,56]. Insults here may produce synergistic effects mediated by regulators of several pathways. However, the relationships between the pathways remain to be clarified. The induction apparently depends on cell type, type of insult, exposure time, type of cellular receptors and possibly unknown factors. It has been suggested that multiple cell death programmes can be activated in the same cell population. The dominant cell death phenotype is determined by the relative speed of the available cell death programmes. Although characteristics of several cell death pathways can be displayed, only the fastest and most effective death pathway is usually evident [1,59]. However, Chi et al. [60] suggested that a cell may switch back and forth between different death signalling pathways. This may produce apparent display of characteristics from several pathways. The evolutionary advantage of activation of multiple cell death pathways may be a more efficient and selective elimination of damaged cells to protect the organism against the development of malignant diseases. This fact may have general medical interest for the development of new therapeutic applications. Sperandio et al. [24] reported that out of the 7075 differentially expressed genes evaluated in a micro-array analysis, less than 2 percent are common to apoptotic and paraptotic cell death programmes. These programmes probably overlap and share signalling pathways. It may therefore be difficult to classify and to distinguish between them. Screening for novel molecules that can trigger simultaneously programmed cell death programmes may be a current pharmacological challenge. However, the absence of model systems that can be useful for the identification of the molecular mechanisms involved in different types of programmed cell death has limited their identification.

5. Concluding Remarks

Many natural chemical compounds can at low concentrations interfere with well-conserved cell signalling pathways. This ability makes them a resource for future therapeutics. Yessotoxin is such a natural small molecule compound which can induce distinct programmed cell death mechanisms in several model cell systems. The induction seems to be concentration-dependent and cell-specific. The actual cell death modalities may involve cross-talk between several signalling pathways. This is though still not clarified [22]. Knowledge about how different cell systems respond to YTX may clarify underlying mechanisms of toxicity and help to identify novel molecular mechanisms that could be tested for therapeutic applications of medical relevance.

58 in total

Review 1. Four deaths and a funeral: from caspases to alternative mechanisms.

Authors: M Leist; M Jäättelä
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Authors: L A de la Rosa; A Alfonso; N Vilariño; M R Vieytes; L M Botana
Journal: Biochem Pharmacol Date: 2001-04-01 Impact factor: 5.858

Review 3. Evaluation of caspase activity in apoptotic cells.

Authors: Camilla Köhler; Sten Orrenius; Boris Zhivotovsky
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Authors: Mónica Suárez Korsnes; Dyveke Lem Hetland; Arild Espenes; Tore Aune
Journal: Toxicol In Vitro Date: 2006-07-20 Impact factor: 3.500

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Authors: H Kanasaki; K Fukunaga; K Takahashi; K Miyazaki; E Miyamoto
Journal: Biol Reprod Date: 2000-06 Impact factor: 4.285

7. An alternative, nonapoptotic form of programmed cell death.

Authors: S Sperandio; I de Belle; D E Bredesen
Journal: Proc Natl Acad Sci U S A Date: 2000-12-19 Impact factor: 11.205

8. Maitotoxin-induced calcium entry in human lymphocytes: modulation by yessotoxin, Ca(2+) channel blockers and kinases.

Authors: L A de la Rosa; A Alfonso; N Vilariño; M R Vieytes; T Yasumoto; L M Botana
Journal: Cell Signal Date: 2001-10 Impact factor: 4.315

9. Cathepsin B acts as a dominant execution protease in tumor cell apoptosis induced by tumor necrosis factor.

Authors: L Foghsgaard; D Wissing; D Mauch; U Lademann; L Bastholm; M Boes; F Elling; M Leist; M Jäättelä
Journal: J Cell Biol Date: 2001-05-28 Impact factor: 10.539

10. Autophagic and apoptotic types of programmed cell death exhibit different fates of cytoskeletal filaments.

Authors: W Bursch; K Hochegger; L Torok; B Marian; A Ellinger; R S Hermann
Journal: J Cell Sci Date: 2000-04 Impact factor: 5.285

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Mary E Choi; Kamalika Roy Choudhury; Norman S Chow; Charleen T Chu; Jason P Chua; John Jia En Chua; Hyewon Chung; Kin Pan Chung; Seockhoon Chung; So-Hyang Chung; Yuen-Li Chung; Valentina Cianfanelli; Iwona A Ciechomska; Mariana Cifuentes; Laura Cinque; Sebahattin Cirak; Mara Cirone; Michael J Clague; Robert Clarke; Emilio Clementi; Eliana M Coccia; Patrice Codogno; Ehud Cohen; Mickael M Cohen; Tania Colasanti; Fiorella Colasuonno; Robert A Colbert; Anna Colell; Miodrag Čolić; Nuria S Coll; Mark O Collins; María I Colombo; Daniel A Colón-Ramos; Lydie Combaret; Sergio Comincini; Márcia R Cominetti; Antonella Consiglio; Andrea Conte; Fabrizio Conti; Viorica Raluca Contu; Mark R Cookson; Kevin M Coombs; Isabelle Coppens; Maria Tiziana Corasaniti; Dale P Corkery; Nils Cordes; Katia Cortese; Maria do Carmo Costa; Sarah Costantino; Paola Costelli; Ana Coto-Montes; Peter J Crack; Jose L Crespo; Alfredo Criollo; Valeria Crippa; Riccardo Cristofani; Tamas Csizmadia; Antonio Cuadrado; Bing Cui; Jun Cui; Yixian Cui; Yong Cui; Emmanuel Culetto; Andrea C Cumino; Andrey V Cybulsky; Mark J Czaja; Stanislaw J Czuczwar; Stefania D'Adamo; Marcello D'Amelio; Daniela D'Arcangelo; Andrew C D'Lugos; Gabriella D'Orazi; James A da Silva; Hormos Salimi Dafsari; Ruben K Dagda; Yasin Dagdas; Maria Daglia; Xiaoxia Dai; Yun Dai; Yuyuan Dai; Jessica Dal Col; Paul Dalhaimer; Luisa Dalla Valle; Tobias Dallenga; Guillaume Dalmasso; Markus Damme; Ilaria Dando; Nico P Dantuma; April L Darling; Hiranmoy Das; Srinivasan Dasarathy; Santosh K Dasari; Srikanta Dash; Oliver Daumke; Adrian N Dauphinee; Jeffrey S Davies; Valeria A Dávila; Roger J Davis; Tanja Davis; Sharadha Dayalan Naidu; Francesca De Amicis; Karolien De Bosscher; Francesca De Felice; Lucia De Franceschi; Chiara De Leonibus; Mayara G de Mattos Barbosa; Guido R Y De Meyer; Angelo De Milito; Cosimo De Nunzio; Clara De Palma; Mauro De Santi; Claudio De Virgilio; Daniela De Zio; Jayanta Debnath; Brian J DeBosch; Jean-Paul Decuypere; Mark A Deehan; Gianluca Deflorian; James DeGregori; Benjamin Dehay; Gabriel Del Rio; Joe R Delaney; Lea M D Delbridge; Elizabeth Delorme-Axford; M Victoria Delpino; Francesca Demarchi; Vilma Dembitz; Nicholas D Demers; Hongbin Deng; Zhiqiang Deng; Joern Dengjel; Paul Dent; Donna Denton; Melvin L DePamphilis; Channing J Der; Vojo Deretic; Albert Descoteaux; Laura Devis; Sushil Devkota; Olivier Devuyst; Grant Dewson; Mahendiran Dharmasivam; Rohan Dhiman; Diego di Bernardo; Manlio Di Cristina; Fabio Di Domenico; Pietro Di Fazio; Alessio Di Fonzo; Giovanni Di Guardo; Gianni M Di Guglielmo; Luca Di Leo; Chiara Di Malta; Alessia Di Nardo; Martina Di Rienzo; Federica Di Sano; George Diallinas; Jiajie Diao; Guillermo Diaz-Araya; Inés Díaz-Laviada; Jared M Dickinson; Marc Diederich; Mélanie Dieudé; Ivan Dikic; Shiping Ding; Wen-Xing Ding; Luciana Dini; Jelena Dinić; Miroslav Dinic; Albena T Dinkova-Kostova; Marc S Dionne; Jörg H W Distler; Abhinav Diwan; Ian M C Dixon; Mojgan Djavaheri-Mergny; Ina Dobrinski; Oxana Dobrovinskaya; Radek Dobrowolski; Renwick C J Dobson; Jelena Đokić; Serap Dokmeci Emre; Massimo Donadelli; Bo Dong; Xiaonan Dong; Zhiwu Dong; Gerald W Dorn Ii; Volker Dotsch; Huan Dou; Juan Dou; Moataz Dowaidar; Sami Dridi; Liat Drucker; Ailian Du; Caigan Du; Guangwei Du; Hai-Ning Du; Li-Lin Du; André du Toit; Shao-Bin Duan; Xiaoqiong Duan; Sónia P Duarte; Anna Dubrovska; Elaine A Dunlop; Nicolas Dupont; Raúl V Durán; Bilikere S Dwarakanath; Sergey A Dyshlovoy; Darius Ebrahimi-Fakhari; Leopold Eckhart; Charles L Edelstein; Thomas Efferth; Eftekhar Eftekharpour; Ludwig Eichinger; Nabil Eid; Tobias Eisenberg; N Tony Eissa; Sanaa Eissa; Miriam Ejarque; Abdeljabar El Andaloussi; Nazira El-Hage; Shahenda El-Naggar; Anna Maria Eleuteri; Eman S El-Shafey; Mohamed Elgendy; Aristides G Eliopoulos; María M Elizalde; Philip M Elks; Hans-Peter Elsasser; Eslam S Elsherbiny; Brooke M Emerling; N C Tolga Emre; Christina H Eng; Nikolai Engedal; Anna-Mart Engelbrecht; Agnete S T Engelsen; Jorrit M Enserink; Ricardo Escalante; Audrey Esclatine; Mafalda Escobar-Henriques; Eeva-Liisa Eskelinen; Lucile Espert; Makandjou-Ola Eusebio; Gemma Fabrias; Cinzia Fabrizi; Antonio Facchiano; Francesco Facchiano; Bengt Fadeel; Claudio Fader; Alex C Faesen; W Douglas Fairlie; Alberto Falcó; Bjorn H Falkenburger; Daping Fan; Jie Fan; Yanbo Fan; Evandro F Fang; Yanshan Fang; Yognqi Fang; Manolis Fanto; Tamar Farfel-Becker; Mathias Faure; Gholamreza Fazeli; Anthony O Fedele; Arthur M Feldman; Du Feng; Jiachun Feng; Lifeng Feng; Yibin Feng; Yuchen Feng; Wei Feng; Thais Fenz Araujo; Thomas A Ferguson; Álvaro F Fernández; Jose C Fernandez-Checa; Sonia Fernández-Veledo; Alisdair R Fernie; Anthony W Ferrante; Alessandra Ferraresi; Merari F Ferrari; Julio C B Ferreira; Susan Ferro-Novick; Antonio Figueras; Riccardo Filadi; Nicoletta Filigheddu; Eduardo Filippi-Chiela; Giuseppe Filomeni; Gian Maria Fimia; Vittorio Fineschi; Francesca Finetti; Steven Finkbeiner; Edward A Fisher; Paul B Fisher; Flavio Flamigni; Steven J Fliesler; Trude H Flo; Ida Florance; Oliver Florey; Tullio Florio; Erika Fodor; Carlo Follo; Edward A Fon; Antonella Forlino; Francesco Fornai; Paola Fortini; Anna Fracassi; Alessandro Fraldi; Brunella Franco; Rodrigo Franco; Flavia Franconi; Lisa B Frankel; Scott L Friedman; Leopold F Fröhlich; Gema Frühbeck; Jose M Fuentes; Yukio Fujiki; Naonobu Fujita; Yuuki Fujiwara; Mitsunori Fukuda; Simone Fulda; Luc Furic; Norihiko Furuya; Carmela Fusco; Michaela U Gack; Lidia Gaffke; Sehamuddin Galadari; Alessia Galasso; Maria F Galindo; Sachith Gallolu Kankanamalage; Lorenzo Galluzzi; Vincent Galy; Noor Gammoh; Boyi Gan; Ian G Ganley; Feng Gao; Hui Gao; Minghui Gao; Ping Gao; Shou-Jiang Gao; Wentao Gao; Xiaobo Gao; Ana Garcera; Maria Noé Garcia; Verónica E Garcia; Francisco García-Del Portillo; Vega Garcia-Escudero; Aracely Garcia-Garcia; Marina Garcia-Macia; Diana García-Moreno; Carmen Garcia-Ruiz; Patricia García-Sanz; Abhishek D Garg; Ricardo Gargini; Tina Garofalo; Robert F Garry; Nils C Gassen; Damian Gatica; Liang Ge; Wanzhong Ge; Ruth Geiss-Friedlander; Cecilia Gelfi; Pascal Genschik; Ian E Gentle; Valeria Gerbino; Christoph Gerhardt; Kyla Germain; Marc Germain; David A Gewirtz; Elham Ghasemipour Afshar; Saeid Ghavami; Alessandra Ghigo; Manosij Ghosh; Georgios Giamas; Claudia Giampietri; Alexandra Giatromanolaki; Gary E Gibson; Spencer B Gibson; Vanessa Ginet; Edward Giniger; Carlotta Giorgi; Henrique Girao; Stephen E Girardin; Mridhula Giridharan; Sandy Giuliano; Cecilia Giulivi; Sylvie Giuriato; Julien Giustiniani; Alexander Gluschko; Veit Goder; Alexander Goginashvili; Jakub Golab; David C Goldstone; Anna Golebiewska; Luciana R Gomes; Rodrigo Gomez; Rubén Gómez-Sánchez; Maria Catalina Gomez-Puerto; Raquel Gomez-Sintes; Qingqiu Gong; Felix M Goni; Javier González-Gallego; Tomas Gonzalez-Hernandez; Rosa A Gonzalez-Polo; Jose A Gonzalez-Reyes; Patricia González-Rodríguez; Ing Swie Goping; Marina S Gorbatyuk; Nikolai V Gorbunov; Kıvanç Görgülü; Roxana M Gorojod; Sharon M Gorski; Sandro Goruppi; Cecilia Gotor; Roberta A Gottlieb; Illana Gozes; Devrim Gozuacik; Martin Graef; Markus H Gräler; Veronica Granatiero; Daniel Grasso; Joshua P Gray; Douglas R Green; Alexander Greenhough; Stephen L Gregory; Edward F Griffin; Mark W Grinstaff; Frederic Gros; Charles Grose; Angelina S Gross; Florian Gruber; Paolo Grumati; Tilman Grune; Xueyan Gu; Jun-Lin Guan; Carlos M Guardia; Kishore Guda; Flora Guerra; Consuelo Guerri; Prasun Guha; Carlos Guillén; Shashi Gujar; Anna Gukovskaya; Ilya Gukovsky; Jan Gunst; Andreas Günther; Anyonya R Guntur; Chuanyong Guo; Chun Guo; Hongqing Guo; Lian-Wang Guo; Ming Guo; Pawan Gupta; Shashi Kumar Gupta; Swapnil Gupta; Veer Bala Gupta; Vivek Gupta; Asa B Gustafsson; David D Gutterman; Ranjitha H B; Annakaisa Haapasalo; James E Haber; Aleksandra Hać; Shinji Hadano; Anders J Hafrén; Mansour Haidar; Belinda S Hall; Gunnel Halldén; Anne Hamacher-Brady; Andrea Hamann; Maho Hamasaki; Weidong Han; Malene Hansen; Phyllis I Hanson; Zijian Hao; Masaru Harada; Ljubica Harhaji-Trajkovic; Nirmala Hariharan; Nigil Haroon; James Harris; Takafumi Hasegawa; Noor Hasima Nagoor; Jeffrey A Haspel; Volker Haucke; Wayne D Hawkins; Bruce A Hay; Cole M Haynes; Soren B Hayrabedyan; Thomas S Hays; Congcong He; Qin He; Rong-Rong He; You-Wen He; Yu-Ying He; Yasser Heakal; Alexander M Heberle; J Fielding Hejtmancik; Gudmundur Vignir Helgason; Vanessa Henkel; Marc Herb; Alexander Hergovich; Anna Herman-Antosiewicz; Agustín Hernández; Carlos Hernandez; Sergio Hernandez-Diaz; Virginia Hernandez-Gea; Amaury Herpin; Judit Herreros; Javier H Hervás; Daniel Hesselson; Claudio Hetz; Volker T Heussler; Yujiro Higuchi; Sabine Hilfiker; Joseph A Hill; William S Hlavacek; Emmanuel A Ho; Idy H T Ho; Philip Wing-Lok Ho; Shu-Leong Ho; Wan Yun Ho; G Aaron Hobbs; Mark Hochstrasser; Peter H M Hoet; Daniel Hofius; Paul Hofman; Annika Höhn; Carina I Holmberg; Jose R Hombrebueno; Chang-Won Hong Yi-Ren Hong; Lora V Hooper; Thorsten Hoppe; Rastislav Horos; Yujin Hoshida; I-Lun Hsin; Hsin-Yun Hsu; Bing Hu; Dong Hu; Li-Fang Hu; Ming Chang Hu; Ronggui Hu; Wei Hu; Yu-Chen Hu; Zhuo-Wei Hu; Fang Hua; Jinlian Hua; Yingqi Hua; Chongmin Huan; Canhua Huang; Chuanshu Huang; Chuanxin Huang; Chunling Huang; Haishan Huang; Kun Huang; Michael L H Huang; Rui Huang; Shan Huang; Tianzhi Huang; Xing Huang; Yuxiang Jack Huang; Tobias B Huber; Virginie Hubert; Christian A Hubner; Stephanie M Hughes; William E Hughes; Magali Humbert; Gerhard Hummer; James H Hurley; Sabah Hussain; Salik Hussain; Patrick J Hussey; Martina Hutabarat; Hui-Yun Hwang; Seungmin Hwang; Antonio Ieni; Fumiyo Ikeda; Yusuke Imagawa; Yuzuru Imai; Carol Imbriano; Masaya Imoto; Denise M Inman; Ken Inoki; Juan Iovanna; Renato V Iozzo; Giuseppe Ippolito; Javier E Irazoqui; Pablo Iribarren; Mohd Ishaq; Makoto Ishikawa; Nestor Ishimwe; Ciro Isidoro; Nahed Ismail; Shohreh Issazadeh-Navikas; Eisuke Itakura; Daisuke Ito; Davor Ivankovic; Saška Ivanova; Anand Krishnan V Iyer; José M Izquierdo; Masanori Izumi; Marja Jäättelä; Majid Sakhi Jabir; William T Jackson; Nadia Jacobo-Herrera; Anne-Claire Jacomin; Elise Jacquin; Pooja Jadiya; Hartmut Jaeschke; Chinnaswamy Jagannath; Arjen J Jakobi; Johan Jakobsson; Bassam Janji; Pidder Jansen-Dürr; Patric J Jansson; Jonathan Jantsch; Sławomir Januszewski; Alagie Jassey; Steve Jean; Hélène Jeltsch-David; Pavla Jendelova; Andreas Jenny; Thomas E Jensen; Niels Jessen; Jenna L Jewell; Jing Ji; Lijun Jia; Rui Jia; Liwen Jiang; Qing Jiang; Richeng Jiang; Teng Jiang; Xuejun Jiang; Yu Jiang; Maria Jimenez-Sanchez; Eun-Jung Jin; Fengyan Jin; Hongchuan Jin; Li Jin; Luqi Jin; Meiyan Jin; Si Jin; Eun-Kyeong Jo; Carine Joffre; Terje Johansen; Gail V W Johnson; Simon A Johnston; Eija Jokitalo; Mohit Kumar Jolly; Leo A B Joosten; Joaquin Jordan; Bertrand Joseph; Dianwen Ju; Jeong-Sun Ju; Jingfang Ju; Esmeralda Juárez; Delphine Judith; Gábor Juhász; Youngsoo Jun; Chang Hwa Jung; Sung-Chul Jung; Yong Keun Jung; Heinz Jungbluth; Johannes Jungverdorben; Steffen Just; Kai Kaarniranta; Allen Kaasik; Tomohiro Kabuta; Daniel Kaganovich; Alon Kahana; Renate Kain; Shinjo Kajimura; Maria Kalamvoki; Manjula Kalia; Danuta S Kalinowski; Nina Kaludercic; Ioanna Kalvari; Joanna Kaminska; Vitaliy O Kaminskyy; Hiromitsu Kanamori; Keizo Kanasaki; Chanhee Kang; Rui Kang; Sang Sun Kang; Senthilvelrajan Kaniyappan; Tomotake Kanki; Thirumala-Devi Kanneganti; Anumantha G Kanthasamy; Arthi Kanthasamy; Marc Kantorow; Orsolya Kapuy; Michalis V Karamouzis; Md Razaul Karim; Parimal Karmakar; Rajesh G Katare; Masaru Kato; Stefan H E Kaufmann; Anu Kauppinen; Gur P Kaushal; Susmita Kaushik; Kiyoshi Kawasaki; Kemal Kazan; Po-Yuan Ke; Damien J Keating; Ursula Keber; John H Kehrl; Kate E Keller; Christian W Keller; Jongsook Kim Kemper; Candia M Kenific; Oliver Kepp; Stephanie Kermorgant; Andreas Kern; Robin Ketteler; Tom G Keulers; Boris Khalfin; Hany Khalil; Bilon Khambu; Shahid Y Khan; Vinoth Kumar Megraj Khandelwal; Rekha Khandia; Widuri Kho; Noopur V Khobrekar; Sataree Khuansuwan; Mukhran Khundadze; Samuel A Killackey; Dasol Kim; Deok Ryong Kim; Do-Hyung Kim; Dong-Eun Kim; Eun Young Kim; Eun-Kyoung Kim; Hak-Rim Kim; Hee-Sik Kim; Jeong Hun Kim; Jin Kyung Kim; Jin-Hoi Kim; Joungmok Kim; Ju Hwan Kim; Keun Il Kim; Peter K Kim; Seong-Jun Kim; Scot R Kimball; Adi Kimchi; Alec C Kimmelman; Tomonori Kimura; Matthew A King; Kerri J Kinghorn; Conan G Kinsey; Vladimir Kirkin; Lorrie A Kirshenbaum; Sergey L Kiselev; Shuji Kishi; Katsuhiko Kitamoto; Yasushi Kitaoka; Kaio Kitazato; Richard N Kitsis; Josef T Kittler; Ole Kjaerulff; Peter S Klein; Thomas Klopstock; Jochen Klucken; Helene Knævelsrud; Roland L Knorr; Ben C B Ko; Fred Ko; Jiunn-Liang Ko; Hotaka Kobayashi; Satoru Kobayashi; Ina Koch; Jan C Koch; Ulrich Koenig; Donat Kögel; Young Ho Koh; Masato Koike; Sepp D Kohlwein; Nur M Kocaturk; Masaaki Komatsu; Jeannette König; Toru Kono; Benjamin T Kopp; Tamas Korcsmaros; Gözde Korkmaz; Viktor I Korolchuk; Mónica Suárez Korsnes; Ali Koskela; Janaiah Kota; Yaichiro Kotake; Monica L Kotler; Yanjun Kou; Michael I Koukourakis; Evangelos Koustas; Attila L Kovacs; Tibor Kovács; Daisuke Koya; Tomohiro Kozako; Claudine Kraft; Dimitri Krainc; Helmut Krämer; Anna D Krasnodembskaya; Carole Kretz-Remy; Guido Kroemer; Nicholas T Ktistakis; Kazuyuki Kuchitsu; Sabine Kuenen; Lars Kuerschner; Thomas Kukar; Ajay Kumar; Ashok Kumar; Deepak Kumar; Dhiraj Kumar; Sharad Kumar; Shinji Kume; Caroline Kumsta; Chanakya N Kundu; Mondira Kundu; Ajaikumar B Kunnumakkara; Lukasz Kurgan; Tatiana G Kutateladze; Ozlem Kutlu; SeongAe Kwak; Ho Jeong Kwon; Taeg Kyu Kwon; Yong Tae Kwon; Irene Kyrmizi; Albert La Spada; Patrick Labonté; Sylvain Ladoire; Ilaria Laface; Frank Lafont; Diane C Lagace; Vikramjit Lahiri; Zhibing Lai; Angela S Laird; Aparna Lakkaraju; Trond Lamark; Sheng-Hui Lan; Ane Landajuela; Darius J R Lane; Jon D Lane; Charles H Lang; Carsten Lange; Ülo Langel; Rupert Langer; Pierre Lapaquette; Jocelyn Laporte; Nicholas F LaRusso; Isabel Lastres-Becker; Wilson Chun Yu Lau; Gordon W Laurie; Sergio Lavandero; Betty Yuen Kwan Law; Helen Ka-Wai Law; Rob Layfield; Weidong Le; Herve Le Stunff; Alexandre Y Leary; Jean-Jacques Lebrun; Lionel Y W Leck; Jean-Philippe Leduc-Gaudet; Changwook Lee; Chung-Pei Lee; Da-Hye Lee; Edward B Lee; Erinna F Lee; Gyun Min Lee; He-Jin Lee; Heung Kyu Lee; Jae Man Lee; Jason S Lee; Jin-A Lee; Joo-Yong Lee; Jun Hee Lee; Michael Lee; Min Goo Lee; Min Jae Lee; Myung-Shik Lee; Sang Yoon Lee; Seung-Jae Lee; Stella Y Lee; Sung Bae Lee; Won Hee Lee; Ying-Ray Lee; Yong-Ho Lee; Youngil Lee; Christophe Lefebvre; Renaud Legouis; Yu L Lei; Yuchen Lei; Sergey Leikin; Gerd Leitinger; Leticia Lemus; Shuilong Leng; Olivia Lenoir; Guido Lenz; Heinz Josef Lenz; Paola Lenzi; Yolanda León; Andréia M Leopoldino; Christoph Leschczyk; Stina Leskelä; Elisabeth Letellier; Chi-Ting Leung; Po Sing Leung; Jeremy S Leventhal; Beth Levine; Patrick A Lewis; Klaus Ley; Bin Li; Da-Qiang Li; Jianming Li; Jing Li; Jiong Li; Ke Li; Liwu Li; Mei Li; Min Li; Min Li; Ming Li; Mingchuan Li; Pin-Lan Li; Ming-Qing Li; Qing Li; Sheng Li; Tiangang Li; Wei Li; Wenming Li; Xue Li; Yi-Ping Li; Yuan Li; Zhiqiang Li; Zhiyong Li; Zhiyuan Li; Jiqin Lian; Chengyu Liang; Qiangrong Liang; Weicheng Liang; Yongheng Liang; YongTian Liang; Guanghong Liao; Lujian Liao; Mingzhi Liao; Yung-Feng Liao; Mariangela Librizzi; Pearl P Y Lie; Mary A Lilly; Hyunjung J Lim; Thania R R Lima; Federica Limana; Chao Lin; Chih-Wen Lin; Dar-Shong Lin; Fu-Cheng Lin; Jiandie D Lin; Kurt M Lin; Kwang-Huei Lin; Liang-Tzung Lin; Pei-Hui Lin; Qiong Lin; Shaofeng Lin; Su-Ju Lin; Wenyu Lin; Xueying Lin; Yao-Xin Lin; Yee-Shin Lin; Rafael Linden; Paula Lindner; Shuo-Chien Ling; Paul Lingor; Amelia K Linnemann; Yih-Cherng Liou; Marta M Lipinski; Saška Lipovšek; Vitor A Lira; Natalia Lisiak; Paloma B Liton; Chao Liu; Ching-Hsuan Liu; Chun-Feng Liu; Cui Hua Liu; Fang Liu; Hao Liu; Hsiao-Sheng Liu; Hua-Feng Liu; Huifang Liu; Jia Liu; Jing Liu; Julia Liu; Leyuan Liu; Longhua Liu; Meilian Liu; Qin Liu; Wei Liu; Wende Liu; Xiao-Hong Liu; Xiaodong Liu; Xingguo Liu; Xu Liu; Xuedong Liu; Yanfen Liu; Yang Liu; Yang Liu; Yueyang Liu; Yule Liu; J Andrew Livingston; Gerard Lizard; Jose M Lizcano; Senka Ljubojevic-Holzer; Matilde E LLeonart; David Llobet-Navàs; Alicia Llorente; Chih Hung Lo; Damián Lobato-Márquez; Qi Long; Yun Chau Long; Ben Loos; Julia A Loos; Manuela G López; Guillermo López-Doménech; José Antonio López-Guerrero; Ana T López-Jiménez; Óscar López-Pérez; Israel López-Valero; Magdalena J Lorenowicz; Mar Lorente; Peter Lorincz; Laura Lossi; Sophie Lotersztajn; Penny E Lovat; Jonathan F Lovell; Alenka Lovy; Péter Lőw; Guang Lu; Haocheng Lu; Jia-Hong Lu; Jin-Jian Lu; Mengji Lu; Shuyan Lu; Alessandro Luciani; John M Lucocq; Paula Ludovico; Micah A Luftig; Morten Luhr; Diego Luis-Ravelo; Julian J Lum; Liany Luna-Dulcey; Anders H Lund; Viktor K Lund; Jan D Lünemann; Patrick Lüningschrör; Honglin Luo; Rongcan Luo; Shouqing Luo; Zhi Luo; Claudio Luparello; Bernhard Lüscher; Luan Luu; Alex Lyakhovich; Konstantin G Lyamzaev; Alf Håkon Lystad; Lyubomyr Lytvynchuk; Alvin C Ma; Changle Ma; Mengxiao Ma; Ning-Fang Ma; Quan-Hong Ma; Xinliang Ma; Yueyun Ma; Zhenyi Ma; Ormond A MacDougald; Fernando Macian; Gustavo C MacIntosh; Jeffrey P MacKeigan; Kay F Macleod; Sandra Maday; Frank Madeo; Muniswamy Madesh; Tobias Madl; Julio Madrigal-Matute; Akiko Maeda; Yasuhiro Maejima; Marta Magarinos; Poornima Mahavadi; Emiliano Maiani; Kenneth Maiese; Panchanan Maiti; Maria Chiara Maiuri; Barbara Majello; Michael B Major; Elena Makareeva; Fayaz Malik; Karthik Mallilankaraman; Walter Malorni; Alina Maloyan; Najiba Mammadova; Gene Chi Wai Man; Federico Manai; Joseph D Mancias; Eva-Maria Mandelkow; Michael A Mandell; Angelo A Manfredi; Masoud H Manjili; Ravi Manjithaya; Patricio Manque; Bella B Manshian; Raquel Manzano; Claudia Manzoni; Kai Mao; Cinzia Marchese; Sandrine Marchetti; Anna Maria Marconi; Fabrizio Marcucci; Stefania Mardente; Olga A Mareninova; Marta Margeta; Muriel Mari; Sara Marinelli; Oliviero Marinelli; Guillermo Mariño; Sofia Mariotto; Richard S Marshall; Mark R Marten; 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Journal: Autophagy Date: 2021-02-08 Impact factor: 13.391

2. Different toxic effects of YTX in tumor K-562 and lymphoblastoid cell lines.

Authors: Andrea Fernández-Araujo; Jon A Sánchez; Amparo Alfonso; Mercedes R Vieytes; Luis M Botana
Journal: Front Pharmacol Date: 2015-06-17 Impact factor: 5.810

3. Combined Effects of Lipophilic Phycotoxins (Okadaic Acid, Azapsiracid-1 and Yessotoxin) on Human Intestinal Cells Models.

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Journal: Toxins (Basel) Date: 2016-02-19 Impact factor: 4.546

4. Mitotic Catastrophe in BC3H1 Cells following Yessotoxin Exposure.

Authors: Mónica Suárez Korsnes; Reinert Korsnes
Journal: Front Cell Dev Biol Date: 2017-03-31

5. Single-Cell Tracking of A549 Lung Cancer Cells Exposed to a Marine Toxin Reveals Correlations in Pedigree Tree Profiles.

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Journal: Front Oncol Date: 2018-07-04 Impact factor: 6.244

6. Exposure to Dengue Envelope Protein Domain III Induces Nlrp3 Inflammasome-Dependent Endothelial Dysfunction and Hemorrhage in Mice.

Authors: Te-Sheng Lien; Der-Shan Sun; Cheng-Yeu Wu; Hsin-Hou Chang
Journal: Front Immunol Date: 2021-02-25 Impact factor: 7.561