Reactive Changes in Elements of Stromal-Vascular Differons of Dysferlin-Deficient Skeletal Muscles after Procaine Injection

C-protein is a 150 kDa protein found within the A bands of all vertebrate cross-striated muscles. By immunoelectron microscopy, it has been demonstrated that C-protein is distributed along a series of 7-9 transverse stripes in the medial, cross-bridge bearing zone of each A band. This zone is now termed the C-zone of the sarcomere. Interest in this protein has been sparked by its striking distribution in the sarcomere: the transverse repeat between C-protein stripes is 43 nm, almost exactly 3 times the 14.3 nm axial repeat of myosin cross-bridges along the thick filaments. The precise packing of C-protein in the thick filament is still unknown. It is the only sarcomeric protein which binds to both myosin and actin, and the actin-binding is Ca-sensitive. In cardiac and slow, but not fast, skeletal muscles C-protein is phosphorylated. Amino acid composition suggests a protein of little or no αhelical content. Variant forms (isoforms) of C-protein have been identified in cardiac, slow and embryonic muscles.

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The effect of ionophore A23178 on the α-actinin crosslinks in the z-band of frog skeletal muscle: An EM study

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100142396 ◽

1986 ◽

Vol 44 ◽

pp. 154-155

Author(s):

F.T. Llados ◽

V. Krlho ◽

G.D. Pappas

Keyword(s):

Muscle Damage ◽

Transmitter Release ◽

Skeletal Muscles ◽

Calcium Uptake ◽

Muscle Membrane ◽

Frog Skeletal Muscle ◽

Ach Release ◽

Sustained Action ◽

Calcium Deposits ◽

Intense Stimulation

It Is known that Ca++ enters the muscle fiber at the junctional area during the action of the neurotransmitter, acetylcholine (ACh). Pappas and Rose demonstrated that following Intense stimulation, calcium deposits are found In the postsynaptic muscle membrane, Indicating the existence of calcium uptake In the postsynaptic area following ACh release. In addition to this calcium uptake, when mammal Ian skeletal muscles are exposed to a sustained action of the neurotransmitter, muscle damage develops. These same effects, l.e., Increased transmitter release, calcium uptake and finally muscle damage, can be obtained by Incubating the muscle with lonophore A23178.

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Functional condition of skeletal muscles and prognosis after myocardial infarction in elderly patients without revascularization

Kreativnaya kardiologiya ◽

10.15275/kreatkard.2016.01.02 ◽

2016 ◽

Vol 1 (1) ◽

pp. 13-24

Author(s):

Andrej Bezdenezhnykh ◽

◽

Aleksej Sumin

Keyword(s):

Myocardial Infarction ◽

Elderly Patients ◽

Skeletal Muscles ◽

Functional Condition

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Comparative Morphology of Skeletal Muscles in Man and Macaque

The Showa University Journal of Medical Sciences ◽

10.15369/sujms1989.5.137 ◽

1993 ◽

Vol 5 (2) ◽

pp. 137-146

Author(s):

Seiichiro INOKUCHI ◽

Tadanao KIMURA ◽

Masataka SUZUKI ◽

Junji ITO ◽

Hiroo KUMAKURA

Keyword(s):

Skeletal Muscles ◽

Comparative Morphology

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Modulation of Dexamethasone-Induced Effects on the Rat Skeletal Muscles by Testosterone

International Journal of Physiology and Pathophysiology ◽

10.1615/intjphyspathophys.v4.i4.20 ◽

2013 ◽

Vol 4 (4) ◽

pp. 285-295

Author(s):

Vera V. Trush ◽

Valery I. Sobolev

Keyword(s):

Skeletal Muscles

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2482-PUB: Circadian Clock Regulates Fuel Metabolism in Skeletal Muscles

Diabetes ◽

10.2337/db19-2482-pub ◽

2019 ◽

Vol 68 (Supplement 1) ◽

pp. 2482-PUB

Author(s):

JIDONG LIU ◽

ZHENG SUN

Keyword(s):

Circadian Clock ◽

Skeletal Muscles ◽

Fuel Metabolism

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Diabetes decreases Na+-K+ pump concentration in skeletal muscles, heart ventricular muscle, and peripheral nerves of rat

Diabetes ◽

10.2337/diabetes.36.7.842 ◽

1987 ◽

Vol 36 (7) ◽

pp. 842-848 ◽

Cited By ~ 30

Author(s):

K. Kjeldsen ◽

H. Braendgaard ◽

P. Sidenius ◽

J. S. Larsen ◽

A. Norgaard

Keyword(s):

Peripheral Nerves ◽

Skeletal Muscles ◽

Ventricular Muscle

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The influence of insulin on the activity of lipase in the skeletal muscles of cattle in ontogenesis

Annales UMCS Pharmacia ◽

10.2478/v10080-008-0113-y ◽

2008 ◽

Vol 21 (2) ◽

pp. 195-197

Author(s):

Victor Haljas ◽

Halina Haljas

Keyword(s):

Skeletal Muscles

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Testosterone-dependent changes in neurons of hypothalamic arcuate nucleus and reversibility of these changes by modeled male hypogonadism

ZHurnal «Patologicheskaia fiziologiia i eksperimental`naia terapiia» ◽

10.25557/igpp.2017.4.8519 ◽

2017 ◽

pp. 21-30

Author(s):

А.В. Дробленков ◽

Л.Г. Прошина ◽

Ю.Н. Юхлина ◽

А.А. Байрамов ◽

П.Д. Шабанов ◽

...

Keyword(s):

Replacement Therapy ◽

Nerve Cell ◽

Arcuate Nucleus ◽

Degenerative Changes ◽

Control Group ◽

Male Hypogonadism ◽

Nissl Staining ◽

Neuron Body ◽

Androgen Synthesis ◽

Reactive Changes

Актуальность. Значение недостаточности тестостерона для структурного гомеостазиса нейронов, регулирующих выработку гонадотропин-рилизинг гормона (ГнРГ) и синтезирующих данный гормон, мало изучены. Цель. Установить реактивные изменения, количество рецепторов к андрогенам (АР) и особенности их распределения в нейронах медиального аркуатного ядра гипоталамуса (МАЯ) при экспериментальном гипогонадизме, а также обратимость этих изменений после восстановительной терапии тестостероном. Методы. У самцов крыс Вистар (16 особей) моделировали гипогонадизм путем удаления одной гонады на 2-3 день постнатальной жизни и исследовали гистологические срезы каудальной части МАЯ у молодых животных (4 мес.) при отсутствии и осуществлении заместительной терапии. Контрольную группу составляли интактные самцы аналогичного возраста (8 особей). В середине левосторонней части МАЯ на площади 0,01 мм определяли реактивные изменения клеток и площадь тел малоизмененных нейронов (после окрашивания срезов методом Ниссля), а также число и долю тел нервных клеток, различавшихся по степени экспрессии АР. Результаты. Установлено, что нейроны МАЯ содержат большое количество АР, распределенных в различных частях их тела. При гипогонадизме происходит перераспределение АР и снижение степени их экспрессии (количества). Сгущение АР в области оболочки ядра и плазмолеммы, образование конгломератов в ядре и цитоплазме было характерно для нейронов с умеренной экспрессией. В цитоплазме и в области плазматической мембраны рецепторы отсутствовали у клеток со слабой и очень низкой экспрессией. Снижение степени экспрессии АР при гипогонадизме сопряжено с уменьшением площади тела и гибелью части нейронов. Заключение. Выявленные дегенеративные тестостерон-зависимые изменения нейронов МАЯ, которые синтезируют ГнРГ или пептиды, влияющие на его выработку, могут обусловить уменьшение высвобождения гонадолиберина, вторичное снижение синтеза андрогенов и реализацию морфофункциональных проявлений его вторичного дефицита. Заместительная терапия частично компенсирует дегенеративные изменения нейронов, восстанавливает интенсивность экспрессии АР, однако не влияет на процесс гибели нервных клеток. Background. Importance of testosterone deficiency for structural homeostasis of the neurons regulating production of gonadotropin-releasing hormone (GnRH) and synthesizing this hormone is insufficiently understood. Aim. To determine reactive changes, quantity of androgens receptors (AR), and features of their distribution in neurons of hypothalamic medial arcuate nucleus (MAN) in experimental hypogonadism and reversibility of these changes by restorative therapy with testosterone. Methods. Hypogonadism was modeled in 16 Wistar rats by removing one gonad on postnatal days 2-3, and histological sections of caudal MAN were examined in young, 4-month old animals with and without a replacement therapy. The control group consisted of 8 age-matched intact males. Cell reactive changes, areas of slightly changed neuron bodies (Nissl staining of sections), and the number and proportion of nerve cell bodies differing in the degree of AR expression were determined in the middle left-sided part of MAN, on an area of 0.01 mm. Results. MAN neurons contained a large quantity of AR distributed in different parts of the neuron body. In hypogonadism, AR redistributed and their expression (quantity) decreased. Condensation of AR in the region of nucleo- and plasmolemma and formation of conglomerates in the nucleus and cytoplasm were characteristic of neurons with moderate expression. In the regions of cytoplasm and plasma membrane, the receptors were absent in cells with low and very low expression. The reduced AR expression in hypogonadism was associated with a decreased neuron body area and death of a part of neurons. Conclusions. The identified degenerative changes in the testosterone-dependent neuronal MAN that synthesize GnRH or peptides affecting the GnRH production may decrease the release of GnRH, cause a secondary decrease in the androgen synthesis, and mediate morphological and functional manifestations of GnRH secondary deficit. The replacement therapy partially compensated for degenerative changes in neurons and restored the intensity of AR expression, however, it did not influence the process of nerve cell death.

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