Malcolm Moos scite author profile

We isolated a Xenopus homolog of Frzb, a newly described protein containing an amino-terminal Frizzled motif. It dorsalized Xenopus embryos and was expressed in the Spemann organizer during early gastrulation. Unlike Frizzled proteins, endogenous Frzb was soluble. Frzb was secretable and could act across cell boundaries. In several functional assays, Frzb antagonized Xwnt-8, a proposed ventralizing factor with an expression pattern complementary to that of Frzb. Furthermore, Frzb blocked induction of MyoD, an action reported recently for a dominant-negative Xwnt-8. Frzb coimmunoprecipitated with Wnt proteins, providing direct biochemical evidence for Frzb-Wnt interactions. These observations implicate Frzb in axial patterning and support the concept that Frzb binds and inactivates Xwnt-8 during gastrulation, preventing inappropriate ventral signaling in developing dorsal tissues.

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Mechanism of hormone-stimulated lipolysis in adipocytes: translocation of hormone-sensitive lipase to the lipid storage droplet.

Egan

Greenberg

Chang

et al. 1992

Proc. Natl. Acad. Sci. U.S.A.

382

257

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Hormone-sensitive lipase activity (HSL), which is found in the supernatant of centrifuged homogenates of lipolytically quiet isolated rat adipocytes, was greatly reduced in or absent from the supernatant of lipolytically stimulated cells. The lipase was purified 100-to 250-fold from the supernatant of lipolytically quiet cells to 10-20% purity by a single passage over phenyl-Sepharose resin with high (>70%) activity yields. Western blotting of adipocyte homogenate fractions with polyclonal antiserum raised against HSL showed that the enzyme shifted quantitatively from the supernatant of control cells to the floating "fat cake" of lipolytically stimulated cells. A similar shift to the fat cake was observed when cells were disrupted by hypotonic lysis and centrifugation rather than by homogenization. We propose that upon lipolytic activation of adipocytes and phosphorylation ofHSL by cAMPdependent protein kinase, the critical event is not an increase in catalytic activity (i.e., turnover number) but a translocation of the lipase to its substrate at the surface of the lipid storage droplet.

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Isolation of cDNAs for perilipins A and B: sequence and expression of lipid droplet-associated proteins of adipocytes.

Greenberg

Egan

Wek

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

227

207

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The major cAMP-dependent protein kinase (A-kinase) substrate in adipocytes is perilipin, a protein found exclusively at the surface of the lipid storage droplets. Using anti-perilipin serum, we have isolated two related classes of funl-length coding cDNAs, designated perilipin A and B, from a rat adipocyte cDNA expression library. The two cDNAs derive from two mRNA species that arise by differential splicing. The mRNAs are predicted to encode perilipins A and B, proteins of 517 aa (56,870 Da) and 422 aa (46,420 Da), respectively, which share a common 406-aa N-terminal sequence. The predicted perilipin A contains peptides present in proteolytic digests ofthe purified 62-kDa form ofperilipin from rat adipocytes, as well as the requisite consensus A-kinase phosphorylation sites. Like perilipin A, the B form is expressed in adipocytes and is associated with lipid storage droplets. Modeling of predicted secondary structures fails to reveal an underlying basis for the tenacious association of perilipins with lipid droplets. These proteins exhibit a sicant sequence relationship (=65% similarity through 105 aa) with only one other known protein, the adipocyte differentiation-related protein (ADRP). Like the perilipins, ADRP appears to be adipocyte-specific, which suggests that they interact in a related intracellular pathway. The molecular probes for perilipins A and B described here will permit detailed analyses of their functional role(s) in lipid metabolism.The major reservoir of stored energy in animals is the triacylglycerol pool in lipid storage droplets of adipose cells. As reviewed briefly (1)

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Malcolm Moos

Frzb, a Secreted Protein Expressed in the Spemann Organizer, Binds and Inhibits Wnt-8

Mechanism of hormone-stimulated lipolysis in adipocytes: translocation of hormone-sensitive lipase to the lipid storage droplet.

Isolation of cDNAs for perilipins A and B: sequence and expression of lipid droplet-associated proteins of adipocytes.

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