Action of Natural Toxins on Cardiac Ionic Channels

This review summarizes the literature data regarding plant lectins as novel drug sources in the prevention or treatment of cancer. Moreover, such compounds have been described as natural toxins that possess different biological activities (cytotoxic, antitumor, antimutagenic and anticarcinogenic properties). This activity depends greatly on their structure and affinity. Most of the mushroom heterosides are known as β-glucans with β-(1→3)-glycosidic bonds. It is thought that their conformation, bonds, molecular size can modulate the immune response by triggering different receptors. The mechanism on normal and tumor cells of various plant and mushroom polysaccharides and lectins is briefly presented in this paper.

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Implantable neural interfaces

10.1093/oso/9780199674923.003.0050 ◽

2018 ◽

Author(s):

Stefano Vassanelli

Keyword(s):

Brain Function ◽

Large Scale ◽

Ionic Channels ◽

Patch Clamp Technique ◽

Advantages And Disadvantages ◽

Optogenetic Stimulation ◽

Physical Interfaces ◽

The Brain

Establishing direct communication with the brain through physical interfaces is a fundamental strategy to investigate brain function. Starting with the patch-clamp technique in the seventies, neuroscience has moved from detailed characterization of ionic channels to the analysis of single neurons and, more recently, microcircuits in brain neuronal networks. Development of new biohybrid probes with electrodes for recording and stimulating neurons in the living animal is a natural consequence of this trend. The recent introduction of optogenetic stimulation and advanced high-resolution large-scale electrical recording approaches demonstrates this need. Brain implants for real-time neurophysiology are also opening new avenues for neuroprosthetics to restore brain function after injury or in neurological disorders. This chapter provides an overview on existing and emergent neurophysiology technologies with particular focus on those intended to interface neuronal microcircuits in vivo. Chemical, electrical, and optogenetic-based interfaces are presented, with an analysis of advantages and disadvantages of the different technical approaches.

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Malpigmentation of Common Sole (Solea solea) during Metamorphosis Is Associated with Differential Synaptic-Related Gene Expression

Animals ◽

10.3390/ani11082273 ◽

2021 ◽

Vol 11 (8) ◽

pp. 2273

Author(s):

Menelaos Kavouras ◽

Emmanouil E. Malandrakis ◽

Ewout Blom ◽

Kyriaki Tsilika ◽

Theodoros Danis ◽

...

Keyword(s):

Gene Expression ◽

Nervous System ◽

De Novo ◽

Close Association ◽

Ionic Channels ◽

Long Term Potentiation ◽

General Term ◽

The Difference ◽

Common Sole

In farmed flatfish, such as common sole, color disturbances are common. Dyschromia is a general term that includes the color defects on the blind and ocular sides of the fish. The purpose was to examine the difference in gene expression between normal pigmented and juveniles who present ambicoloration. The analysis was carried out with next-generation sequencing techniques and de novo assembly of the transcriptome. Transcripts that showed significant differences (FDR < 0.05) in the expression between the two groups, were related to those of zebrafish (Danio rerio), functionally identified, and classified into categories of the gene ontology. The results revealed that ambicolorated juveniles exhibit a divergent function, mainly of the central nervous system at the synaptic level, as well as the ionic channels. The close association of chromophore cells with the growth of nerve cells and the nervous system was recorded. The pathway, glutamate binding–activation of AMPA and NMDA receptors–long-term stimulation of postsynaptic potential–LTP (long term potentiation)–plasticity of synapses, appears to be affected. In addition, the development of synapses also seems to be affected by the interaction of the LGI (leucine-rich glioma inactivated) protein family with the ADAM (a disintegrin and metalloprotease) ones.

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cAMP-activated Ionic Channels in the Nerve Cell Membrane

Receptors and lon Channels ◽

10.1515/9783112328446-016 ◽

1987 ◽

pp. 141-148

Keyword(s):

Cell Membrane ◽

Nerve Cell ◽

Ionic Channels ◽

Nerve Cell Membrane

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HKUST-1@IL-Li Solid-state Electrolyte with 3D Ionic Channels and Enhanced Fast Li+ Transport for Lithium Metal Batteries at High Temperature

Nanomaterials ◽

10.3390/nano11030736 ◽

2021 ◽

Vol 11 (3) ◽

pp. 736

Author(s):

Man Li ◽

Tao Chen ◽

Seunghyun Song ◽

Yang Li ◽

Joonho Bae

Keyword(s):

High Temperature ◽

Solid State ◽

Solid Electrolyte ◽

Metal Organic Framework ◽

Ionic Channels ◽

Transference Numbers ◽

Lithium Metal ◽

Lithium Metal Batteries ◽

Metal Organic ◽

Organic Framework

The challenge of safety problems in lithium batteries caused by conventional electrolytes at high temperatures is addressed in this study. A novel solid electrolyte (HKUST-1@IL-Li) was fabricated by immobilizing ionic liquid ([EMIM][TFSI]) in the nanopores of a HKUST-1 metal–organic framework. 3D angstrom-level ionic channels of the metal–organic framework (MOF) host were used to restrict electrolyte anions and acted as “highways” for fast Li+ transport. In addition, lower interfacial resistance between HKUST-1@IL-Li and electrodes was achieved by a wetted contact through open tunnels at the atomic scale. Excellent high thermal stability up to 300 °C and electrochemical properties are observed, including ionic conductivities and Li+ transference numbers of 0.68 × 10-4 S·cm-1 and 0.46, respectively, at 25 °C, and 6.85 × 10-4 S·cm-1 and 0.68, respectively, at 100 °C. A stable Li metal plating/stripping process was observed at 100 °C, suggesting an effectively suppressed growth of Li dendrites. The as-fabricated LiFePO4/HKUST-1@IL-Li/Li solid-state battery exhibits remarkable performance at high temperature with an initial discharge capacity of 144 mAh g-1 at 0.5 C and a high capacity retention of 92% after 100 cycles. Thus, the solid electrolyte in this study demonstrates promising applicability in lithium metal batteries with high performance under extreme thermal environmental conditions.

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Drug Development Using Natural Toxins

Toxins ◽

10.3390/toxins13060414 ◽

2021 ◽

Vol 13 (6) ◽

pp. 414

Author(s):

Gihyun Lee

Keyword(s):

Drug Development ◽

Natural Toxins

Natural toxins are poisonous substances produced by bacteria, insects, animals, or plants [...]

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Natural and Designed Toxins for Precise Therapy: Modern Approaches in Experimental Oncology

International Journal of Molecular Sciences ◽

10.3390/ijms22094975 ◽

2021 ◽

Vol 22 (9) ◽

pp. 4975

Author(s):

Olga Shilova ◽

Elena Shramova ◽

Galina Proshkina ◽

Sergey Deyev

Keyword(s):

Cancer Cells ◽

Targeted Delivery ◽

Combined Therapy ◽

Drug Carriers ◽

Cytotoxic Action ◽

Growth And Survival ◽

Surface Receptors ◽

Nanosized Materials ◽

Natural Toxins ◽

Protein Toxins

Cancer cells frequently overexpress specific surface receptors providing tumor growth and survival which can be used for precise therapy. Targeting cancer cell receptors with protein toxins is an attractive approach widely used in contemporary experimental oncology and preclinical studies. Methods of targeted delivery of toxins to cancer cells, different drug carriers based on nanosized materials (liposomes, nanoparticles, polymers), the most promising designed light-activated toxins, as well as mechanisms of the cytotoxic action of the main natural toxins used in modern experimental oncology, are discussed in this review. The prospects of the combined therapy of tumors based on multimodal nanostructures are also discussed.

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Brain stem – from general view to computational model based on switchboard rules of operation

Bio-Algorithms and Med-Systems ◽

10.1515/bams-2019-0059 ◽

2019 ◽

Vol 16 (1) ◽

Author(s):

Włodzisław Duch ◽

Dariusz Mikołajewski

Keyword(s):

Brain Stem ◽

Large Scale ◽

Ionic Channels ◽

General View ◽

The Central Nervous System ◽

Network States ◽

Large Scale Simulations ◽

Influence Of Noise ◽

The Brain ◽

Sufficient Precision

Abstract Despite great progress in understanding the functions and structures of the central nervous system (CNS) the brain stem remains one of the least understood systems. We know that the brain stem acts as a decision station preparing the organism to act in a specific way, but such functions are rather difficult to model with sufficient precision to replicate experimental data due to the scarcity of data and complexity of large-scale simulations of brain stem structures. The approach proposed in this article retains some ideas of previous models, and provides more precise computational realization that enables qualitative interpretation of the functions played by different network states. Simulations are aimed primarily at the investigation of general switching mechanisms which may be executed in brain stem neural networks, as far as studying how the aforementioned mechanisms depend on basic neural network features: basic ionic channels, accommodation, and the influence of noise.

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Electrodiffusion in ionic channels of biological membranes

Journal of Molecular Liquids ◽

10.1016/s0167-7322(00)00118-5 ◽

2000 ◽

Vol 87 (2-3) ◽

pp. 149-162 ◽

Cited By ~ 37

Author(s):

Wolfgang Nonner ◽

Bob Eisenberg

Keyword(s):

Biological Membranes ◽

Ionic Channels

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