Perilipin 2 Improves Insulin Sensitivity in Skeletal Muscle Despite Elevated Intramuscular Lipid Levels

Bosma, Madeleen; Hesselink, Matthijs K. C.; Sparks, Lauren M.; Timmers, Silvie; Ferraz, Maria J.; Mattijssen, Frits; Beurden, Denis van; Schaart, Gert; Baets, Marc H. De; Verheyen, Fons; Kersten, Sander; Schrauwen, Patrick

doi:10.2337/db11-1402

Cited by 123 publications

(164 citation statements)

References 49 publications

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“…These relationships support our previous findings that highlight the role of PGC1a in the regulation of intramuscular lipid droplet programming in mice and humans (23). Finally, we focused on expression levels of the lipid droplet coat proteins PLIN5, PLIN3, and PLIN2 as well as the lipolytic protein ATGL in both muscle tissue and myotubes because we have previously shown in animal studies that overexpressing PLIN2 or PLIN5 increases TAG storage capacity and results in the prevention of high-fat-induced insulin resistance (40,46). In the current study, we found that PLIN5 was elevated in the muscle tissue of the T2D individuals but not in their myotubes.…”

Section: Discussionsupporting

confidence: 65%

“…IMCL content inversely correlates with peripheral insulin sensitivity (34-37), suggesting that fat accumulation (38,39). Other studies have even suggested that increasing the TAG storage capacity, specifically in skeletal muscle, may be beneficial (40)(41)(42). Although these studies used different methods (i.e., genetic manipulations, exercise), they clearly demonstrated a beneficial effect of increased TAG storage on skeletal muscle insulin sensitivity.…”

Section: Discussionmentioning

confidence: 91%

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Reduced Incorporation of Fatty Acids Into Triacylglycerol in Myotubes From Obese Individuals With Type 2 Diabetes

et al. 2014

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Altered skeletal muscle lipid metabolism is a hallmark feature of type 2 diabetes (T2D). We investigated muscle lipid turnover in T2D versus BMI-matched control subjects (controls) and examined whether putative in vivo differences would be preserved in the myotubes. Male obese T2D individuals (n = 6) and BMI-matched controls (n = 6) underwent a hyperinsulinemic-euglycemic clamp, VO 2 max test, dual-energy X-ray absorptiometry scan, underwater weighing, and muscle biopsy of the vastus lateralis.14 C-palmitate and 14 C-oleate oxidation rates and incorporation into lipids were measured in muscle tissue as well as in primary myotubes. Palmitate oxidation (controls: 0.99 6 0.17 nmol/mg protein; T2D: 0.53 6 0.07 nmol/mg protein; P = 0.03) and incorporation of fatty acids (FAs) into triacylglycerol (TAG) (controls: 0.45 6 0.13 nmol/mg protein; T2D: 0.11 6 0.02 nmol/mg protein; P = 0.047) were significantly reduced in muscle homogenates of T2D. These reductions were not retained for palmitate oxidation in primary myotubes (P = 0.38); however, incorporation of FAs into TAG was lower in T2D (P = 0.03 for oleate and P = 0.11 for palmitate), with a strong correlation of TAG incorporation between muscle tissue and primary myotubes (r = 0.848, P = 0.008). The data indicate that the ability to incorporate FAs into TAG is an intrinsic feature of human muscle cells that is reduced in individuals with T2D.

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Section: Discussionsupporting

confidence: 65%

Section: Discussionmentioning

confidence: 91%

Reduced Incorporation of Fatty Acids Into Triacylglycerol in Myotubes From Obese Individuals With Type 2 Diabetes

et al. 2014

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“…Os fatores NRF1 e 2 são requeridos para a biogênese mitocondrial e os receptores nucleares alfa relacionados ao estrogênio (EERα) induzem a expressão de genes que regulam a fosforilação oxidativa, biogênese mitocondrial e a síntese de ATP. Ambos, fatores NRF1, NRF2 e receptores EERα, mostraram-se elevados no tecido muscular em resposta a oxidação de ácidos graxos 49 54 . A proteína PLIN2 é essencial para o estoque de triglicérides intramusculares e inibição da lipólise 54 .…”

Section: Regulação Molecular Do Músculo Esquelético Ao Exercício Aeróunclassified

“…Ambos, fatores NRF1, NRF2 e receptores EERα, mostraram-se elevados no tecido muscular em resposta a oxidação de ácidos graxos 49 54 . A proteína PLIN2 é essencial para o estoque de triglicérides intramusculares e inibição da lipólise 54 . Sendo, portanto, a expressão das proteínas PLIN2 e PLIN5 altamente reguladas no exercício aeróbico.…”

Section: Regulação Molecular Do Músculo Esquelético Ao Exercício Aeróunclassified

“…Sendo, portanto, a expressão das proteínas PLIN2 e PLIN5 altamente reguladas no exercício aeróbico. Foi demonstrado que indivíduos idosos exercitados tiveram maior expressão de PLIN5 em comparação com sedentários 51 e que jovens atletas possuíam elevada expressão de PLIN2 e PLIN5 quando comparados aos controles 54 . Mais recentemente, o músculo esquelético tem ganhado o status de órgão endócrino, acumulando evidências de que durante o exercício, este tecido tem produzido e secretado citocinas e peptídeos ativos (miocinas) na circulação 55 .…”

Section: Regulação Molecular Do Músculo Esquelético Ao Exercício Aeróunclassified

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Adaptação Do Músculo Esquelético Ao Exercício Físico: Considerações Moleculares E Energéticas

Abreu

Leal-Cardoso

Ceccatto

2017

Rev Bras Med Esporte

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Artigo de revisãoReview ARticle ARtículo de Revisión RESUMOOs benefícios para a saúde e as adaptações fisiológicas ao exercício regular são amplamente conhecidos e, com o advento das ciências ômicas e moleculares, revelou-se uma complexa rede de vias de sinalização e moléculas reguladoras que coordenam a resposta adaptativa do músculo esquelético ao exercício. As mudanças orgânicas transientes, porém, são cumulativas no pós-exercício. Elas incluem, de forma principal, a transcrição de genes relacionados aos fatores regulatórios da miogênese, ao metabolismo de carboidratos, à mobilização de gorduras, ao transporte e oxidação de substratos, ao metabolismo mitocondrial através da fosforilação oxidativa e, por fim, à regulação transcricional de genes envolvidos na biogênese mitocondrial. Tendo em vista o grande impacto científico, resumiram-se neste trabalho, além de algumas das principais respostas moleculares sofridas pelo músculo esquelético com o exercício físico, fatores que coordenam a plasticidade muscular para o ganho de desempenho. Foram citadas dezenas de biomarcadores ligados a alguns aspectos moleculares das adaptações do músculo esquelético ao exercício físico, algumas principais vias sinalizadoras e o papel mitocondrial, revelando alguns novos paradigmas para o entendimento desta área científica.Descritores: exercício; músculo esquelético; biomarcadores; metabolismo energético. ABSTRACT

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Molecular mechanisms of perilipin protein function in lipid droplet metabolism

Griseti,

Bello,

Bieth

et al. 2024

FEBS Letters

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Perilipins are abundant lipid droplet (LD) proteins present in all metazoans and also in Amoebozoa and fungi. Humans express five perilipins, which share a similar domain organization: an amino‐terminal PAT domain and an 11‐mer repeat region, which can fold into amphipathic helices that interact with LDs, followed by a structured carboxy‐terminal domain. Variations of this organization that arose during vertebrate evolution allow for functional specialization between perilipins in relation to the metabolic needs of different tissues. We discuss how different features of perilipins influence their interaction with LDs and their cellular targeting. PLIN1 and PLIN5 play a direct role in lipolysis by regulating the recruitment of lipases to LDs and LD interaction with mitochondria. Other perilipins, particularly PLIN2, appear to protect LDs from lipolysis, but the molecular mechanism is not clear. PLIN4 stands out with its long repetitive region, whereas PLIN3 is most widely expressed and is used as a nascent LD marker. Finally, we discuss the genetic variability in perilipins in connection with metabolic disease, prominent for PLIN1 and PLIN4, underlying the importance of understanding the molecular function of perilipins.

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Perilipin 2 Improves Insulin Sensitivity in Skeletal Muscle Despite Elevated Intramuscular Lipid Levels

Cited by 123 publications

References 49 publications

Reduced Incorporation of Fatty Acids Into Triacylglycerol in Myotubes From Obese Individuals With Type 2 Diabetes

Reduced Incorporation of Fatty Acids Into Triacylglycerol in Myotubes From Obese Individuals With Type 2 Diabetes

Adaptação Do Músculo Esquelético Ao Exercício Físico: Considerações Moleculares E Energéticas

Molecular mechanisms of perilipin protein function in lipid droplet metabolism

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