Tubular Aggregates Induced by Anoxia in Isolated Rat Skeletal Muscle

Overview

Journal Lab Invest

Specialty Pathology

Date 1977 Sep 1

PMID 895065

Citations 17

Authors

S Schiaffino

E Severin

M Cantini

S Sartore

Affiliations

Soon will be listed here.

Abstract

The fast-twitch extensor digitorum longus and the slow-twitch soleus muscles of the rat were incubated for 1 to 6 hours in vitro in oxygen-free medium or a medium containing potassium cyanide. Within 3 hours of incubation, characteristic structural alterations of the sarcoplasmic reticulum were observed in extensor digitorum longus muscle fibers. Concomitant with the disruption of the normal sarcotubular organization there was a selective clustering of sarcoplasmic reticulum elements with formation of tubular aggregates similar to those observed in human muscle under various pathologic conditions. The aggregates increased in size by apposition of new tubules at the periphery and acquired a regular hexagonal arrangement. Double-walled tubules, apparently derived from folding of sarcoplasmic reticulum tubules, were also contained in the aggregates. Electron-opaque material was seen connecting adjacent tubules. It is proposed that this material derives from the Z-bands which appeared largely extracted since early stages of anoxic injury. Tubular aggregates were not seen in the soleum muscle fibers incubated under the same conditions in vitro. The results indicate that tubular aggregates can be formed by simple rearrangement of the sarcoplasmic reticulum without proliferation of new sarcotubular elements.

Citing Articles

Chronic inhibition of the mitochondrial ATP synthase in skeletal muscle triggers sarcoplasmic reticulum distress and tubular aggregates.

Sanchez-Gonzalez C, Herrero Martin J, Salegi Ansa B, Nunez de Arenas C, Stancic B, Pereira M Cell Death Dis. 2022; 13(6):561.

PMID: 35732639 PMC: 9217934. DOI: 10.1038/s41419-022-05016-z.

Improper Remodeling of Organelles Deputed to Ca Handling and Aerobic ATP Production Underlies Muscle Dysfunction in Ageing.

Protasi F, Pietrangelo L, Boncompagni S Int J Mol Sci. 2021; 22(12).

PMID: 34201319 PMC: 8228829. DOI: 10.3390/ijms22126195.

Long-Term Exercise Reduces Formation of Tubular Aggregates and Promotes Maintenance of Ca Entry Units in Aged Muscle.

Boncompagni S, Pecorai C, Michelucci A, Pietrangelo L, Protasi F Front Physiol. 2021; 11:601057.

PMID: 33469430 PMC: 7813885. DOI: 10.3389/fphys.2020.601057.

Role of STIM1/ORAI1-mediated store-operated Ca entry in skeletal muscle physiology and disease.

Michelucci A, Garcia-Castaneda M, Boncompagni S, Dirksen R Cell Calcium. 2018; 76:101-115.

PMID: 30414508 PMC: 6290926. DOI: 10.1016/j.ceca.2018.10.004.

Comparative proteomic profiling reveals a role for Cisd2 in skeletal muscle aging.

Huang Y, Shen Z, Wu C, Teng Y, Liao C, Kao C Aging Cell. 2017; 17(1).

PMID: 29168286 PMC: 5770874. DOI: 10.1111/acel.12705.