Deletion of Cavin/PTRF Causes Global Loss of Caveolae, Dyslipidemia, and Glucose Intolerance

Libin Liu; Dennis Brown; Mary McKee; Nathan K. LeBrasseur; Dan Yang; Kenneth H. Albrecht; Katya Ravid; Paul F. Pilch

doi:10.1016/j.cmet.2008.07.008

Deletion of Cavin/PTRF Causes Global Loss of Caveolae, Dyslipidemia, and Glucose Intolerance

Libin Liu, Dennis Brown, Mary McKee, Nathan K. LeBrasseur, Dan Yang, Kenneth H. Albrecht, Katya Ravid, Paul F. Pilch

Physical Medicine and Rehabilitation

Research output: Contribution to journal › Article › peer-review

249 Scopus citations

Abstract

Caveolae are specialized invaginations of the plasma membrane found in numerous cell types. They have been implicated as playing a role in a variety of physiological processes and are typically characterized by their association with the caveolin family of proteins. We show here by means of targeted gene disruption in mice that a distinct caveolae-associated protein, Cavin/PTRF, is an essential component of caveolae. Animals lacking Cavin have no morphologically detectable caveolae in any cell type examined and have markedly diminished protein expression of all three caveolin isoforms while retaining normal or above normal caveolin mRNA expression. Cavin-knockout mice are viable and of normal weight but have higher circulating triglyceride levels, significantly reduced adipose tissue mass, glucose intolerance, and hyperinsulinemia-characteristics that constitute a lipodystrophic phenotype. Our results underscore the multiorgan role of caveolae in metabolic regulation and the obligate presence of Cavin for caveolae formation.

Original language	English (US)
Pages (from-to)	310-317
Number of pages	8
Journal	Cell Metabolism
Volume	8
Issue number	4
DOIs	https://doi.org/10.1016/j.cmet.2008.07.008
State	Published - Oct 8 2008

Keywords

HUMDISEASE
SIGNALING

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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10.1016/j.cmet.2008.07.008

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title = "Deletion of Cavin/PTRF Causes Global Loss of Caveolae, Dyslipidemia, and Glucose Intolerance",

abstract = "Caveolae are specialized invaginations of the plasma membrane found in numerous cell types. They have been implicated as playing a role in a variety of physiological processes and are typically characterized by their association with the caveolin family of proteins. We show here by means of targeted gene disruption in mice that a distinct caveolae-associated protein, Cavin/PTRF, is an essential component of caveolae. Animals lacking Cavin have no morphologically detectable caveolae in any cell type examined and have markedly diminished protein expression of all three caveolin isoforms while retaining normal or above normal caveolin mRNA expression. Cavin-knockout mice are viable and of normal weight but have higher circulating triglyceride levels, significantly reduced adipose tissue mass, glucose intolerance, and hyperinsulinemia-characteristics that constitute a lipodystrophic phenotype. Our results underscore the multiorgan role of caveolae in metabolic regulation and the obligate presence of Cavin for caveolae formation.",

keywords = "HUMDISEASE, SIGNALING",

author = "Libin Liu and Dennis Brown and Mary McKee and LeBrasseur, {Nathan K.} and Dan Yang and Albrecht, {Kenneth H.} and Katya Ravid and Pilch, {Paul F.}",

note = "Funding Information: We thank Greg Martin from the Boston University School of Medicine Transgenic Core, Michelle Ganno from the Metabolic Phenotypic Core, and Maria Makitalo for assistance in producing targeted ES cells. Mouse BAC clones were kindly provided by The Wellcome Trust Sanger Institute (Cambridge, UK). This work was supported by National Institutes of Health grants DK38452 and DK42596 to D.B., AG031154 to N.K.L., NH13262 to K.R., HD42779 to K.H.A., and DK30425 and DK56935 to P.F.P. D.B. is also supported by the Microscopy Core Facility of the MGH Program in Membrane Biology and by the Boston Area Diabetes and Endocrinology Research Center grant, DK 57521. ",

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AU - Liu, Libin

AU - Brown, Dennis

AU - McKee, Mary

AU - LeBrasseur, Nathan K.

AU - Yang, Dan

AU - Albrecht, Kenneth H.

AU - Ravid, Katya

AU - Pilch, Paul F.

N1 - Funding Information: We thank Greg Martin from the Boston University School of Medicine Transgenic Core, Michelle Ganno from the Metabolic Phenotypic Core, and Maria Makitalo for assistance in producing targeted ES cells. Mouse BAC clones were kindly provided by The Wellcome Trust Sanger Institute (Cambridge, UK). This work was supported by National Institutes of Health grants DK38452 and DK42596 to D.B., AG031154 to N.K.L., NH13262 to K.R., HD42779 to K.H.A., and DK30425 and DK56935 to P.F.P. D.B. is also supported by the Microscopy Core Facility of the MGH Program in Membrane Biology and by the Boston Area Diabetes and Endocrinology Research Center grant, DK 57521.

PY - 2008/10/8

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N2 - Caveolae are specialized invaginations of the plasma membrane found in numerous cell types. They have been implicated as playing a role in a variety of physiological processes and are typically characterized by their association with the caveolin family of proteins. We show here by means of targeted gene disruption in mice that a distinct caveolae-associated protein, Cavin/PTRF, is an essential component of caveolae. Animals lacking Cavin have no morphologically detectable caveolae in any cell type examined and have markedly diminished protein expression of all three caveolin isoforms while retaining normal or above normal caveolin mRNA expression. Cavin-knockout mice are viable and of normal weight but have higher circulating triglyceride levels, significantly reduced adipose tissue mass, glucose intolerance, and hyperinsulinemia-characteristics that constitute a lipodystrophic phenotype. Our results underscore the multiorgan role of caveolae in metabolic regulation and the obligate presence of Cavin for caveolae formation.

AB - Caveolae are specialized invaginations of the plasma membrane found in numerous cell types. They have been implicated as playing a role in a variety of physiological processes and are typically characterized by their association with the caveolin family of proteins. We show here by means of targeted gene disruption in mice that a distinct caveolae-associated protein, Cavin/PTRF, is an essential component of caveolae. Animals lacking Cavin have no morphologically detectable caveolae in any cell type examined and have markedly diminished protein expression of all three caveolin isoforms while retaining normal or above normal caveolin mRNA expression. Cavin-knockout mice are viable and of normal weight but have higher circulating triglyceride levels, significantly reduced adipose tissue mass, glucose intolerance, and hyperinsulinemia-characteristics that constitute a lipodystrophic phenotype. Our results underscore the multiorgan role of caveolae in metabolic regulation and the obligate presence of Cavin for caveolae formation.

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KW - SIGNALING

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Deletion of Cavin/PTRF Causes Global Loss of Caveolae, Dyslipidemia, and Glucose Intolerance

Abstract

Keywords

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