Richard G. Vernon scite author profile

Adipocyte lipolysis was compared with hormone-sensitive lipase (HSL)/perilipin subcellular distribution and perilipin phosphorylation using Western blot analysis. Under basal conditions, HSL resided predominantly in the cytosol and unphosphorylated perilipin upon the lipid droplet. Upon lipolytic stimulation of adipocytes isolated from young rats with the ␤-adrenergic agonist, isoproterenol, HSL translocated from the cytosol to the lipid droplet, but there was no movement of perilipin from the droplet to the cytosol; however, perilipin phosphorylation was observed. By contrast, upon lipolytic stimulation and perilipin phosphorylation in cells from more mature rats, there was no HSL translocation but a significant movement of perilipin away from the lipid droplet. Adipocytes from younger rats had markedly greater rates of lipolysis than those from the older rats. Thus high rates of lipolysis require translocation of HSL to the lipid droplet and translocation of HSL and perilipin can occur independently of each other. A loss of the ability to translocate HSL to the lipid droplet probably contributes to the diminished lipolytic response to catecholamines with age.The molecular basis of the acute hormonal regulation of lipolysis in adipocytes remains unclear. Although the ratelimiting step of lipolysis appears to be catalyzed by hormonesensitive lipase (HSL), 1 an enzyme that is acutely regulated by hormones that elevate cAMP and activate cAMP-dependent protein kinase (reviewed in Refs. 1 and 2), the activation of purified HSL by phosphorylation in vitro (3) is insufficient to account for the stimulation of lipolysis in vivo (4), suggesting the involvement of additional mechanisms.It has now been shown that upon lipolytic stimulation of the fat cell, HSL protein translocates from a cytoplasmic compartment to the lipid droplet (5), and subsequent immunofluorescence studies using anti-HSL antibodies in 3T3-L1 adipocytes have demonstrated that HSL is distributed throughout the cytoplasm of unstimulated cells, but moves to the surface of lipid droplets in these cells upon lipolytic stimulation (6). In addition to the well established mechanism of cAMP-dependent activation of HSL, Okuda et al. (7,8) proposed the so-called "hormone-sensitive substrate theory" of lipolysis in which the hormone did not act on the lipase, but on the endogenous lipid substrate. Wise and Jungas (9) went on to propose a dual mechanism of lipolytic activation by catecholamines involving "substrate activation," suggesting that some factor at the surface of intact lipid droplets may be necessary for the hormonal stimulation of lipolysis. More recent work would predict that this factor would be expected to facilitate the translocation of HSL, presumably by some alteration in the lipid droplet surface, and may involve the formation of smaller lipid droplets observed in 3T3-L1 adipocytes and Leydig cells (10,11).Recent studies have demonstrated that differences in patterns of lipid droplet protein expression are partly responsible for the differing l...

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Lipid metabolism in the adipose tissue of ruminant animals

Vernon

1980

Progress in Lipid Research

255

149

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Effects of Exogenous Bovine Somatotropin on Lactation

Bauman

Vernon²

1993

Annu. Rev. Nutr.

239

137

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Lipid Metabolism in the Adipose Tissue of Ruminant Animals

Vernon

1981

120

117

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Richard G. Vernon

Lipid metabolism in the lactating mammary gland

Translocation of Hormone-sensitive Lipase and Perilipin upon Lipolytic Stimulation of Rat Adipocytes

Lipid metabolism in the adipose tissue of ruminant animals

Effects of Exogenous Bovine Somatotropin on Lactation

Lipid Metabolism in the Adipose Tissue of Ruminant Animals

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