BACKGROUND: Perilipin2 (Plin2) belongs to a family of five highly conserved proteins, known for their role in lipid storage. Recent data indicate that Plin2 has an important function in cell metabolism and is involved in several human pathologies, including liver steatosis and Type II diabetes. An association between Plin2 and lower muscle mass and strength has been found in elderly and inactive people, but its function in skeletal muscle is still unclear. Here, we addressed the role of Plin2 in adult muscle by gain and loss of function experiments. METHODS: By mean of in vivo Plin2 down-regulation (shPlin2) and overexpression (overPlin2) in murine tibialis anterior muscle, we analysed the effects of Plin2 genetic manipulations on myofiber size and lipid composition. An analysis of skeletal muscle lipid composition was also performed in vastus lateralis samples from young and old patients undergoing hip surgery. RESULTS: We found that Plin2 down-regulation was sufficient to induce a 30% increase of myofiber cross-sectional area, independently of mTOR pathway. Alterations of lipid content and modulation of genes involved in lipid synthesis occurred in hypertrophic muscles. In particular, we showed a decrease of triglycerides, ceramides, and phosphatidylcoline:phosphatidylethanolamine ratio, a condition known to impact negatively on muscle function. Plin2 overexpression did not change fibre size; however, lipid composition was strongly affected in a way that is similar to that observed in human samples from old patients. CONCLUSIONS: Altogether these data indicate that Plin2 is a critical mediator for the control of muscle mass, likely, but maybe not exclusively, through its critical role in the regulation of intracellular lipid content and composition.

Conte M, A.A. (2019). Muscle-specific Perilipin2 down-regulation affects lipid metabolism and induces myofiber hypertrophy. JOURNAL OF CACHEXIA, SARCOPENIA AND MUSCLE, 10(1), 95-110 [10.1002/jcsm.12355].

Muscle-specific Perilipin2 down-regulation affects lipid metabolism and induces myofiber hypertrophy.

Conte M
;
Franceschi C;Salvioli S
2019

Abstract

BACKGROUND: Perilipin2 (Plin2) belongs to a family of five highly conserved proteins, known for their role in lipid storage. Recent data indicate that Plin2 has an important function in cell metabolism and is involved in several human pathologies, including liver steatosis and Type II diabetes. An association between Plin2 and lower muscle mass and strength has been found in elderly and inactive people, but its function in skeletal muscle is still unclear. Here, we addressed the role of Plin2 in adult muscle by gain and loss of function experiments. METHODS: By mean of in vivo Plin2 down-regulation (shPlin2) and overexpression (overPlin2) in murine tibialis anterior muscle, we analysed the effects of Plin2 genetic manipulations on myofiber size and lipid composition. An analysis of skeletal muscle lipid composition was also performed in vastus lateralis samples from young and old patients undergoing hip surgery. RESULTS: We found that Plin2 down-regulation was sufficient to induce a 30% increase of myofiber cross-sectional area, independently of mTOR pathway. Alterations of lipid content and modulation of genes involved in lipid synthesis occurred in hypertrophic muscles. In particular, we showed a decrease of triglycerides, ceramides, and phosphatidylcoline:phosphatidylethanolamine ratio, a condition known to impact negatively on muscle function. Plin2 overexpression did not change fibre size; however, lipid composition was strongly affected in a way that is similar to that observed in human samples from old patients. CONCLUSIONS: Altogether these data indicate that Plin2 is a critical mediator for the control of muscle mass, likely, but maybe not exclusively, through its critical role in the regulation of intracellular lipid content and composition.
2019
Conte M, A.A. (2019). Muscle-specific Perilipin2 down-regulation affects lipid metabolism and induces myofiber hypertrophy. JOURNAL OF CACHEXIA, SARCOPENIA AND MUSCLE, 10(1), 95-110 [10.1002/jcsm.12355].
Conte M, Armani A, Conte G, Serra A, Franceschi C, Mele M, Sandri M, Salvioli S
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Descrizione: Fig. 1 Representative immunoblot showing the specificity of Plin2 downregulation by in vivo RNAi technique in adult Tibialis anterior (TA) muscle fibers. TA muscles were transfected with vectors expressing two different short harpin RNAs (shRNAs) specific for Plin2. The expression of Plin3 and Plin5 (two Plins present in skeletal muscle fibers) in the same samples resulted unchanged, confirming the specificity of shRNA only for Plin2.
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Descrizione: Fig 2Cross Sectional Area (CSA) of TA muscles upon knockdown of Plin2 expression. A: CSA of adult TA muscle fibers transfected with either shPlin2 or scramble. Left columns: *p = 0.001; right columns: the same, plus treatment with rapamycin: *p = 0.02. B: CSA of adult TA muscle fibers transfected with shPlin2 or scramble and undergone denervation; muscles were collected after 7 days from transfection; NO‐shPlin2 indicates fibers that remained untransfected, GFP‐shPlin2 indicates fibers transfected with the shPlin2; *p < 0.001. C‐D: CSA of TA muscles upon overexpression of Plin2 expression. C: CSA of adult TA muscle fibers transfected with either overPlin2 or control. D: CSA of adult TA muscle fibers transfected with overPlin2 and undergone denervation; muscles were collected after 7 days from transfection. In all cases, transfected fibers from 6 mice for each group were identified by GFP fluorescence, and CSA was measured after 7 days from transfection. Data are expressed as mean ± SEM. p values refer to two‐tailed Student's t test
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Descrizione: Figure S3. A: Representative images of succinate dehydrogenase (SDH) from Tibials anterior (TA) transversal sections isolated from scramble and shPlin2 mice analyzed by SDH staining. B: Fluorescence microscope images (in 5x magnification) of a whole TA section of mouse transfected with shPlin2, and the SDH respectively staining
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Descrizione: Figure S4. A: Western blot analysis showing the reduction in S6 phosphorylation, demonstrating the corrected mTORC1 inhibition by rapamycin treatment; CMC: carboxymethylcellulose. B: Schematic representation of Plin2 downregulation and denervation experiments performed in the same mouse.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/664422
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