细胞神经科学的创新与范式转变。

IF 4.2 3区 医学 Q2 NEUROSCIENCES Frontiers in Cellular Neuroscience Pub Date : 2024-08-21 eCollection Date: 2024-01-01 DOI:10.3389/fncel.2024.1460219
Riccardo Fesce
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引用次数: 0

摘要

很久以前,量子释放的统计很时髦:n "个可用囊泡(融合点),每个囊泡释放量子的概率为 "p"。故事并没有这么简单,这是一个值得放弃的好范例。生物物理学家用 "黑膜 "做实验,解释了尖峰诱导释放的惊人速度:钙可以通过掩盖膜的负电荷,引发脂质小泡与脂质双分子层的融合。随着NSF、SNAPs、SNARE蛋白和突触标记蛋白、Munc、RIM、复合蛋白的发现,这一想法被埋没了。电生理学曾经是少数专家的领域。后来出现了膜片钳和多电极阵列,每个人都成了电生理学家。现在,光遗传学蓬勃发展,整个领域又发生了变化。当阿尔瓦雷斯-德-托莱多(Alvarez de Toledo)证明递质的释放可以通过囊泡和等离子体膜之间孔隙的瞬时开放来实现,而不需要囊泡在膜中塌陷时,我感到非常惊喜:我的导师布鲁诺-切卡雷利(Bruno Ceccarelli)一直珍视这个想法("亲吻并逃跑"),并试图证明它达 20 年之久。最令人印象深刻的发展可能是信息技术、计算机及其所有应用;机器学习、人工智能以及大脑成像(尤其是功能成像)方面真正令人惊叹的创新,已经将认知神经科学转变为一个新的多产领域,当然也让我们想象,我们最终可能会了解我们大脑中发生了什么。另一方面,虽然广大公众对科学界在神经元功能的细胞方面所获得的大量信息知之甚少,但细胞神经科学确实可以帮助我们最终了解大脑工作的机制细节。但这已不再是过去,而是未来。
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Old innovations and shifted paradigms in cellular neuroscience.

Once upon a time the statistics of quantal release were fashionable: "n" available vesicles (fusion sites), each with probability "p" of releasing a quantum. The story was not so simple, a nice paradigm to be abandoned. Biophysicists, experimenting with "black films," explained the astonishing rapidity of spike-induced release: calcium can trigger the fusion of lipidic vesicles with a lipid bilayer, by masking the negative charges of the membranes. The idea passed away, buried by the discovery of NSF, SNAPs, SNARE proteins and synaptotagmin, Munc, RIM, complexin. Electrophysiology used to be a field for few adepts. Then came patch clamp, and multielectrode arrays and everybody became electrophysiologists. Now, optogenetics have blossomed, and the whole field has changed again. Nice surprise for me, when Alvarez de Toledo demonstrated that release of transmitters could occur through the transient opening of a pore between the vesicle and the plasma-membrane, no collapse of the vesicle in the membrane needed: my mentor Bruno Ceccarelli had cherished this idea ("kiss and run") and tried to prove it for 20 years. The most impressive developments have probably regarded IT, computers and all their applications; machine learning, AI, and the truly spectacular innovations in brain imaging, especially functional ones, have transformed cognitive neurosciences into a new extraordinarily prolific field, and certainly let us imagine that we may finally understand what is going on in our brains. Cellular neuroscience, on the other hand, though the large public has been much less aware of the incredible amount of information the scientific community has acquired on the cellular aspects of neuronal function, may indeed help us to eventually understand the mechanistic detail of how the brain work. But this is no more in the past, this is the future.

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来源期刊
CiteScore
7.90
自引率
3.80%
发文量
627
审稿时长
6-12 weeks
期刊介绍: Frontiers in Cellular Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the cellular mechanisms underlying cell function in the nervous system across all species. Specialty Chief Editors Egidio D‘Angelo at the University of Pavia and Christian Hansel at the University of Chicago are supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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Transcriptome analyses reveal molecular mechanisms of novel compound heterozygous ACO2 variants causing infantile cerebellar retinal degeneration. Editorial: Role of ion channels and metabotropic receptors in oligodendrogliogenesis: novel targets for demyelinating pathologies. Does age protect against loss of tonotopy after acute deafness in adulthood? Panaroma of microglia in traumatic brain injury: a bibliometric analysis and visualization study during 2000-2023. Upregulated miR-10b-5p as a potential miRNA signature in amyotrophic lateral sclerosis patients.
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