Literature DB >> 31290152

Interactions of nanomaterials with ion channels and related mechanisms.

Suhan Yin1,2, Jia Liu1, Yiyuan Kang1, Yuqing Lin1, Dongjian Li3, Longquan Shao1,2.   

Abstract

The pharmacological potential of nanotechnology, especially in drug delivery and bioengineering, has developed rapidly in recent decades. Ion channels, which are easily targeted by external agents, such as nanomaterials (NMs) and synthetic drugs, due to their unique structures, have attracted increasing attention in the fields of nanotechnology and pharmacology for the treatment of ion channel-related diseases. NMs have significant effects on ion channels, and these effects are manifested in many ways, including changes in ion currents, kinetic characteristics and channel distribution. Subsequently, intracellular ion homeostasis, signalling pathways, and intracellular ion stores are affected, leading to the initiation of a range of biological processes. However, the effect of the interactions of NMs with ion channels is an interesting topic that remains obscure. In this review, we have summarized the recent research progress on the direct and indirect interactions between NMs and ion channels and discussed the related molecular mechanisms, which are crucial to the further development of ion channel-related nanotechnological applications.
© 2019 The British Pharmacological Society.

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Year:  2019        PMID: 31290152      PMCID: PMC6780043          DOI: 10.1111/bph.14792

Source DB:  PubMed          Journal:  Br J Pharmacol        ISSN: 0007-1188            Impact factor:   8.739


  151 in total

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Authors:  Michael Busse; Annette Kraegeloh; David Stevens; Christian Cavelius; Jens Rettig; Eduard Arzt; Daniel J Strauss
Journal:  Annu Int Conf IEEE Eng Med Biol Soc       Date:  2010

Review 2.  Interactions of nanomaterials with ion channels and related mechanisms.

Authors:  Suhan Yin; Jia Liu; Yiyuan Kang; Yuqing Lin; Dongjian Li; Longquan Shao
Journal:  Br J Pharmacol       Date:  2019-09-04       Impact factor: 8.739

Review 3.  Ryanodine receptors: structure, expression, molecular details, and function in calcium release.

Authors:  Johanna T Lanner; Dimitra K Georgiou; Aditya D Joshi; Susan L Hamilton
Journal:  Cold Spring Harb Perspect Biol       Date:  2010-10-20       Impact factor: 10.005

4.  The inhibition of neuronal calcium ion channels by trace levels of yttrium released from carbon nanotubes.

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Journal:  Biomaterials       Date:  2009-08-20       Impact factor: 12.479

5.  Nanoparticle-induced neuronal toxicity across placental barriers is mediated by autophagy and dependent on astrocytes.

Authors:  Simon J Hawkins; Lucy A Crompton; Aman Sood; Margaret Saunders; Noreen T Boyle; Amy Buckley; Aedín M Minogue; Sarah F McComish; Natalia Jiménez-Moreno; Oscar Cordero-Llana; Petros Stathakos; Catherine E Gilmore; Stephen Kelly; Jon D Lane; C Patrick Case; Maeve A Caldwell
Journal:  Nat Nanotechnol       Date:  2018-04-02       Impact factor: 39.213

6.  Differential hERG ion channel activity of ultrasmall gold nanoparticles.

Authors:  Annika Leifert; Yu Pan; Anne Kinkeldey; Frank Schiefer; Julia Setzler; Olaf Scheel; Hera Lichtenbeld; Günter Schmid; Wolfgang Wenzel; Willi Jahnen-Dechent; Ulrich Simon
Journal:  Proc Natl Acad Sci U S A       Date:  2013-04-29       Impact factor: 11.205

7.  Pronounced induction of endoplasmic reticulum stress and tumor suppression by surfactant-free poly(lactic-co-glycolic acid) nanoparticles via modulation of the PI3K signaling pathway.

Authors:  Chia-Cheng Hou; Tsung-Lin Tsai; Wen-Pin Su; Hsing-Pang Hsieh; Chen-Sheng Yeh; Dar-Bin Shieh; Wu-Chou Su
Journal:  Int J Nanomedicine       Date:  2013-07-25

8.  CRTH2 promotes endoplasmic reticulum stress-induced cardiomyocyte apoptosis through m-calpain.

Authors:  Shengkai Zuo; Deping Kong; Chenyao Wang; Jiao Liu; Yuanyang Wang; Qiangyou Wan; Shuai Yan; Jian Zhang; Juan Tang; Qianqian Zhang; Luheng Lyu; Xin Li; Zhixin Shan; Li Qian; Yujun Shen; Ying Yu
Journal:  EMBO Mol Med       Date:  2018-03       Impact factor: 12.137

9.  ZnO nanoparticles modulate the ionic transport and voltage regulation of lysenin nanochannels.

Authors:  Sheenah L Bryant; Josh E Eixenberger; Steven Rossland; Holly Apsley; Connor Hoffmann; Nisha Shrestha; Michael McHugh; Alex Punnoose; Daniel Fologea
Journal:  J Nanobiotechnology       Date:  2017-12-16       Impact factor: 10.435

10.  Reduction of calcium flux from the extracellular region and endoplasmic reticulum by amorphous nano-silica particles owing to carboxy group addition on their surface.

Authors:  Akira Onodera; Katsutoshi Yayama; Hideto Morosawa; Yukina Ishii; Yasuo Tsutsumi; Yuichi Kawai
Journal:  Biochem Biophys Rep       Date:  2017-02-04
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  8 in total

Review 1.  Interactions of nanomaterials with ion channels and related mechanisms.

Authors:  Suhan Yin; Jia Liu; Yiyuan Kang; Yuqing Lin; Dongjian Li; Longquan Shao
Journal:  Br J Pharmacol       Date:  2019-09-04       Impact factor: 8.739

2.  Anionic nanoparticle-induced perturbation to phospholipid membranes affects ion channel function.

Authors:  Isabel U Foreman-Ortiz; Dongyue Liang; Elizabeth D Laudadio; Jorge D Calderin; Meng Wu; Puspam Keshri; Xianzhi Zhang; Michael P Schwartz; Robert J Hamers; Vincent M Rotello; Catherine J Murphy; Qiang Cui; Joel A Pedersen
Journal:  Proc Natl Acad Sci U S A       Date:  2020-10-26       Impact factor: 11.205

Review 3.  Lung Models to Evaluate Silver Nanoparticles' Toxicity and Their Impact on Human Health.

Authors:  Jesús Gabriel González-Vega; Juan Carlos García-Ramos; Rocio Alejandra Chavez-Santoscoy; Javier Emmanuel Castillo-Quiñones; María Evarista Arellano-Garcia; Yanis Toledano-Magaña
Journal:  Nanomaterials (Basel)       Date:  2022-07-05       Impact factor: 5.719

4.  Targeting Lipid-Ion Channel Interactions in Cardiovascular Disease.

Authors:  Emma C Hudgins; Adam M Bonar; Thanh Nguyen; Ibra S Fancher
Journal:  Front Cardiovasc Med       Date:  2022-05-06

Review 5.  Ventricular voltage-gated ion channels: Detection, characteristics, mechanisms, and drug safety evaluation.

Authors:  Lulan Chen; Yue He; Xiangdong Wang; Junbo Ge; Hua Li
Journal:  Clin Transl Med       Date:  2021-10

6.  Assessment of Systemic Toxicity, Genotoxicity, and Early Phase Hepatocarcinogenicity of Iron (III)-Tannic Acid Nanoparticles in Rats.

Authors:  Chi Be Hlaing; Arpamas Chariyakornkul; Chalermchai Pilapong; Charatda Punvittayagul; Somdet Srichairatanakool; Rawiwan Wongpoomchai
Journal:  Nanomaterials (Basel)       Date:  2022-03-22       Impact factor: 5.076

7.  Two-dimensional Ti3C2Tx MXene promotes electrophysiological maturation of neural circuits.

Authors:  Yige Li; Yangnan Hu; Hao Wei; Wei Cao; Yanru Qi; Shan Zhou; Panpan Zhang; Huawei Li; Geng-Lin Li; Renjie Chai
Journal:  J Nanobiotechnology       Date:  2022-08-31       Impact factor: 9.429

8.  Biostimulation and toxicity: The magnitude of the impact of nanomaterials in microorganisms and plants.

Authors:  Antonio Juárez-Maldonado; Gonzalo Tortella; Olga Rubilar; Paola Fincheira; Adalberto Benavides-Mendoza
Journal:  J Adv Res       Date:  2021-01-05       Impact factor: 10.479
  8 in total

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