Caveolin-1, cellular senescence and age-related diseases

doi:10.1016/j.mad.2011.11.001

Review

. 2011 Nov-Dec;132(11-12):533-42.

doi: 10.1016/j.mad.2011.11.001. Epub 2011 Nov 12.

Caveolin-1, cellular senescence and age-related diseases

Huafei Zou¹, Elena Stoppani, Daniela Volonte, Ferruccio Galbiati

Affiliations

PMID: 22100852
PMCID: PMC3243775
DOI: 10.1016/j.mad.2011.11.001

Review

Caveolin-1, cellular senescence and age-related diseases

Huafei Zou et al. Mech Ageing Dev. 2011 Nov-Dec.

. 2011 Nov-Dec;132(11-12):533-42.

doi: 10.1016/j.mad.2011.11.001. Epub 2011 Nov 12.

Authors

Huafei Zou¹, Elena Stoppani, Daniela Volonte, Ferruccio Galbiati

Affiliation

¹ Department of Pharmacology & Chemical Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261, USA.

PMID: 22100852
PMCID: PMC3243775
DOI: 10.1016/j.mad.2011.11.001

Abstract

According to the "free radical theory" of aging, normal aging occurs as the result of tissue damages inflicted by reactive oxygen species (ROS) when ROS production exceeds the antioxidant capacity of the cell. ROS induce cellular dysfunctions such as stress-induced premature senescence (SIPS), which is believed to contribute to normal organismal aging and play a role in age-related diseases. Consistent with this hypothesis, increased oxidative damage of DNA, proteins, and lipids have been reported in aged animals and senescent cells accumulate in vivo with advancing age. Caveolin-1 acts as a scaffolding protein that concentrates and functionally regulates signaling molecules. Recently, great progress has been made toward understanding of the role of caveolin-1 in stress-induced premature senescence. Data show that caveolin-mediated signaling may contribute to explain, at the molecular level, how oxidative stress promotes the deleterious effects of cellular senescence such as aging and age-related diseases. In this review, we discuss the cellular mechanisms and functions of caveolin-1 in the context of SIPS and their relevance to the biology of aging.

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Figures

**Figure 1. Caveolin-1 and age-related diseases**
*In vivo* studies have shown a critical role of caveolin-1 in SIPS and age-related pathologies, such as cigarette smoking-induced pulmonary emphysema, atherosclerosis, osteoarthritis, microbial infections, human intervertebral disc degeneration, wound healing and fibrosis.

**Figure 2. Caveolin-1, a pivotal regulator of cellular senescence**
After oxidative stress, the caveolin-1 gene promoter is activated through p38 MAPK-Sp1-dependent and NF-κB-dependent pathways. COX2 and PC-PLC also regulates caveolin-1 expression. Upregulation of caveolin-1 promotes cellular senescence by activating the p53/p21^Waf1/Cip1, focal adhesion kinase (FAK), and small GTPases pathways and by inhibiting the EGFR/ERK-1/2 pathway. Activation of p53 by caveolin-1 occurs through different mechanisms: 1) interaction of caveolin-1 with Mdm2 prevents the Mdm2-dependent degradation of p53; 2) inhibition of TrxR1 through direct interaction with caveolin-1 activates p53; 3) sequestration of PP2A-C into caveolar membranes activates ATM, which in turns phosphorylates and activates p53. Activation of p53 leads to upregulation of p21^Waf1/Cip1 and induction of cellular senescence.

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References

1. Bakkenist CJ, Kastan MB. DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation. Nature. 2003;421:499–506. - PubMed
1. Bartholomew JN, Volonte D, Galbiati F. Caveolin-1 regulates the antagonistic pleiotropic properties of cellular senescence through a novel Mdm2/p53-mediated pathway. Cancer Res. 2009;69:2878–86. - PMC - PubMed
1. Behne D, Kyriakopoulos A. Mammalian selenium-containing proteins. Annu Rev Nutr. 2001;21:453–73. - PubMed
1. Bissell MJ, Radisky D. Putting tumours in context. Nat Rev Cancer. 2001;1:46–54. - PMC - PubMed
1. Black EJ, Clark W, Gillespie DA. Transient deactivation of ERK signalling is sufficient for stable entry into G0 in primary avian fibroblasts. Curr Biol. 2000;10:1119–22. - PubMed

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[1] Bakkenist CJ, Kastan MB. DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation. Nature. 2003;421:499–506. - PubMed

[2] Bakkenist CJ, Kastan MB. DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation. Nature. 2003;421:499–506. - PubMed

[3] Bartholomew JN, Volonte D, Galbiati F. Caveolin-1 regulates the antagonistic pleiotropic properties of cellular senescence through a novel Mdm2/p53-mediated pathway. Cancer Res. 2009;69:2878–86. - PMC - PubMed

[4] Bartholomew JN, Volonte D, Galbiati F. Caveolin-1 regulates the antagonistic pleiotropic properties of cellular senescence through a novel Mdm2/p53-mediated pathway. Cancer Res. 2009;69:2878–86. - PMC - PubMed

[5] Behne D, Kyriakopoulos A. Mammalian selenium-containing proteins. Annu Rev Nutr. 2001;21:453–73. - PubMed

[6] Behne D, Kyriakopoulos A. Mammalian selenium-containing proteins. Annu Rev Nutr. 2001;21:453–73. - PubMed

[7] Bissell MJ, Radisky D. Putting tumours in context. Nat Rev Cancer. 2001;1:46–54. - PMC - PubMed

[8] Bissell MJ, Radisky D. Putting tumours in context. Nat Rev Cancer. 2001;1:46–54. - PMC - PubMed

[9] Black EJ, Clark W, Gillespie DA. Transient deactivation of ERK signalling is sufficient for stable entry into G0 in primary avian fibroblasts. Curr Biol. 2000;10:1119–22. - PubMed

[10] Black EJ, Clark W, Gillespie DA. Transient deactivation of ERK signalling is sufficient for stable entry into G0 in primary avian fibroblasts. Curr Biol. 2000;10:1119–22. - PubMed

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Caveolin-1, cellular senescence and age-related diseases

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