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《科学》:不能搔的痒

已有 2567 次阅读 2017-8-30 02:41 |个人分类:CNS和NMT|系统分类:科研笔记| Cell, biology, cancer, cells, NMT

新!"CNSNMT" 博客系列

New! Introducing "CNS and NMT" Blog series

201708EJS01-002

声明:当今每天甚至每一分钟,新的研究成果会在数以千计的期刊上发表。在这里,我将从CNS杂志(《细胞》,《自然》和《科学》)中挑选一些精品,在进行简述之后,会尽力揭示非损伤微测技术(NMT)与这些优秀科研成果之间的潜在联系,同时与大家分享NMT在该科学领域未来研究中的可能应用


***精力所限,恕不能奉献正文中文翻译版本。


《科学》:不能搔的痒

Science: The itch that can not be scratched

Feeling an itch on your skin is usually nothing to worry about, but some conditions like shingles/chicken pox cause constant itching that cannot be satisfied, causing people to scratch themselves to a point of injury. This week, scientists explored the neural pathways that cause this chronic itch, and in this post, I will explore the many different indicators NMT could measure to further this research.


The Paper


A study published in Science this week by Di Mu and Yan-Gang Sun’s laboratory at the Chinese Academy of Sciences explored the neural network of itching and scratching. They wanted to know what neurons were responsible for processing itching, from the spinal cord to the brain.


Using mouse subjects, the scientists found that the spinoparabrachial pathway was activated during itch processing. In this pathway, spinal neurons are connected to the parabrachial nucleus in the brain via glutamate-producing neurons. They found that blocking the synaptic output of glutamate in these neurons suppressed scratching behavior in the mice.


Discovering which neurons are involved in the itch pathway is a big step towards understanding why people get chronic itch. More research on this subject could lead to a real treatment for people who suffer from this condition.


NMT Connection


It is known that ions such as Na+, K+, Cl-, and Ca2+, are necessary for neurons to fire. NMT has been used to study all of these ions, such as in Measuring Ca2+ influxes of TRPC1-dependent Ca2+ channels... (World J Gastroentero, 2009) in which researchers used NMT to measure calcium flux in liver cells. Perhaps a future study could use NMT to measure the flux of any of these ions in the parabrachial nucleus, and the change in flux could reveal information about reactions to itch stimuli.


In addition, creative researchers may be interested to know that NMT has also successfully measured glutamate, which we now know is a crucial neurotransmitter in the itch signaling pathway. In “A self-referencing glutamate biosensor…” (J Neurosci Methods, 2010), researchers used NMT to measure glutamate flux in neurons. While glutamate sensors are not yet fully commercialized, YoungerUSA would be happy to work with the most ambitious scientists to measure glutamate flux for researching this exciting new itch processing pathway.


It seems we are always discovering new things about the human body and how it works, and new technology helps to keep up with our interests. Learning more about the spinoparabrachial pathway and the ions and molecules involved will lead us to new and better understanding of itch processing, and will hopefully lead to treatments.


For more NMT connections, see NMT Publications: http://youngerusa.com/index.php/publications


References:


D Mu, J Deng, et al. A central neural circuit for itch sensation.

Science 2017 Vol. 357, I. 6352, 695-699


Zhang Z. Y., Wang W. J., Pan L. J., Xu Y. & Zhang Z. M. Measuring Ca2+ influxes of TRPC1-dependent Ca2+ channels in HL-7702 cells with Non-invasive Micro-test Technique. World J. Gastroentero. 2009. 15, 4150–4155


McLamore ES, et al. A self-referencing glutamate biosensor for measuring real time neuronal glutamate flux. Journal of Neuroscience Methods. 2010;189:14–22.




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