ATP Causes Contraction of Denervated Skeletal Muscles

IF 1.1 Q4 CELL BIOLOGY Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology Pub Date : 2024-01-17 DOI:10.1134/S1990747823060065

A. E. Khairullin, A. Y. Teplov, S. N. Grishin, A. U. Ziganshin

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Abstract

The ability of humoral agonists (and their persistent analogues) to induce contractions of denervated m. soleus and m. extensor digitorum longus of mice was investigated. Earlier, we found a change in the effectiveness of the ATP modulating effect under some non-physiological factors in the neuromuscular synapses of rodents. The aim of this study was to evaluate the effect of ATP on the contractility of isolated skeletal muscles of a mouse after traumatic denervation. It has been shown that 28-day denervation led to an increase in the strength of contractions of m. soleus and m. extensor digitorum longus caused by an acetylcholine analog. ATP application induced a contraction of denervated muscles, but not of intact ones. In the presence of a non-selective P2 receptor antagonist suramin, the effect of ATP ceased. We suggest that activation of postsynaptic P2X receptors of denervated muscles could cause their contraction. Apparently, this effect was caused by an increase in the expression of postsynaptic receptors in response to a violation of neurotrophic control and the conductive ability of the nerve fiber.

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ATP 能使失去神经支配的骨骼肌收缩

摘要研究了体液激动剂（及其持久性类似物）诱导去神经支配的小鼠比目鱼肌和伸肌收缩的能力。早些时候，我们发现在啮齿动物神经肌肉突触的一些非生理因素作用下，ATP 调节效应的有效性发生了变化。本研究旨在评估 ATP 对创伤性去神经支配后小鼠离体骨骼肌收缩力的影响。研究表明，28 天的去神经支配会导致比目鱼肌和伸拇肌在乙酰胆碱类似物作用下的收缩强度增加。应用 ATP 可诱导去神经肌肉收缩，但不能诱导完整肌肉收缩。在非选择性 P2 受体拮抗剂苏拉明的作用下，ATP 的效果消失。我们认为，激活脱神经肌肉突触后的 P2X 受体可引起肌肉收缩。显然，这种效应是由于神经营养控制和神经纤维传导能力受到破坏时突触后受体的表达增加所致。

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Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology CELL BIOLOGY-

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1.40

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期刊介绍： Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.

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