Stacy A. Hazen scite author profile

Stacy A. Hazen

3Publications

185Citation Statements Received

84Citation Statements Given

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308

180

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Affiliations

Lebanon Valley College, Pennsylvania State University, Penn State Milton S. Hershey Medical Center

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Role of hepatic carbonic anhydrase in de novo lipogenesis

Lynch

Fox

Hazen

et al. 1995

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The role of carbonic anhydrase in de novo lipid synthesis was examined by measuring [1-14C]acetate incorporation into total lipids, fatty acids and non-saponifiable lipids in freshly isolated rat hepatocytes. Two carbonic anhydrase inhibitors, trifluoromethylsulphonamide (TFMS) and ethoxozolamide (ETZ) decreased incorporation of 14C into total lipids. Both fatty acid and non-saponifiable lipid components of the total lipid were inhibited to approximately the same extent by 100 microM TFMS (29 +/- 0.3% and 35 +/- 0.3% of control respectively in replicate studies). However, neither drug significantly affected ATP concentrations or the transport activity of Na+/K(+)-ATPase, two measures of cell viability. To establish the site of this inhibition, water-soluble 14C-labelled metabolites from perchloric acid extracts of the radiolabelled cells were separated by ion-exchange chromatography. TFMS inhibited 14C incorporation into citrate, malate, alpha-oxoglutarate and fumarate, but had no effect on incorporation of 14C into acetoacetate. Since ATP citrate-lyase, the cytosolic enzyme that catalyses the conversion of citrate into acetyl-CoA, catalyses an early rate-limiting step in fatty acid synthesis, levels of cytosolic citrate may be rate controlling for de novo fatty acid and sterol synthesis. Indeed citrate concentrations were significantly reduced to 37 +/- 6% of control in hepatocytes incubated with 100 microM TFMS for 30 min. TFMS also inhibited the incorporation of 14C from [1-14C]pyruvate into malate, citrate and glutamate, but not into lactate. This supports the hypothesis that TFMS inhibits pyruvate carboxylation, i.e. since all of the 14C from [1-14C]pyruvate converted into citric acid cycle intermediates must come via pyruvate carboxylase (i.e. rather than pyruvate dehydrogenase). Our findings indicate a role for carbonic anhydrase in hepatic de novo lipogenesis at the level of pyruvate carboxylation.

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Differentiation‐dependent expression of CA V and the role of carbonic anhydrase isozymes in pyruvate carboxylation in adipocytes

et al. 1996

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The incorporation of radioactivity from 14C-labeled compounds into metabolic intermediates and total lipids was examined in 3T3 adipocytes. The heterocyclic sulfonamide carbonic anhydrase inhibitor (SCAI) 6-ethoxyzolamide (ETZ) caused a decrease (42+/-7% of control, IC50 = 2.2+/-1.1 x 10(-7) M) in the incorporation of [14C] bicarbonate into several Krebs cycle intermediates in 3T3-F442A adipocytes. This decrease in pyruvate carboxylase-mediated [14C] carbon fixation was associated with a reduction in fluorometrically determined [citrate] and [malate]. The ability of ETZ to decrease both the incorporation of radioactivity into and the concentrations of Krebs cycle intermediates was not of sufficient magnitude to lower [ATP], but was associated with a decrease in de novo lipogenesis from [14C]glucose. De novo lipogenesis was also inhibited to a similar extent by trifluormethanesulfonamide, an aliphatic SCAI, which suggests that the effects are mediated by carbonic anhydrase. ETZ did not inhibit de novo lipogenesis from [14C]glutamine (12.38+/-1.068 nmol/mg protein, ETZ; 12.5+/-0.846 nmol/mg protein, DMSO). This suggests that ETZ inhibition of lipogenesis involves an inhibitory effect on pyruvate carboxylase as opposed to acetyl CoA carboxylase, because the incorporation of glutamine into lipids does not involve pyruvate carboxylase. Decreased de novo lipogenesis was also observed by incubating cultures in media that contained 1 mM bicarbonate (atmosphere:100% humidified air) rather than 25 mM bicarbonate (atmosphere: 95% humidified air/5% CO2). This suggests that exogenous CO2/bicarbonate may be required to sustain maximal rates of de novo lipogenesis. Because these results implied that CA V, the mitochondrial isoform of carbonic anhydrase, might be present in adipocytes, CA V levels were measured by immunoblotting. Mitochondrial preparations of adipocytes and liver were found to contain similar concentrations of CA V. Unlike adipocyte CA III, CA V concentrations were not significantly different in lean and obese Zucker rats. However, CA V levels were ninefold higher in differentiated 3T3-F442A adipocytes compared to undifferentiated adipoblasts. Our data indicate that CA V is relatively abundant in adipocyte mitochondria and exhibits differentiation-dependent expression like pyruvate carboxylase and the cytosolic isozymes CA II and CA III. The possible roles of CA II and CA V in pyruvate carboxylation are discussed.

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Role of the matrixin MMP-2 in multicellular organization of adipocytes cultured in basement membrane components

Brown

Fox

Hazen

et al. 1997

American Journal of Physiology-Cell Physiology

136

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Primary rat adipocytes cultured in basement membrane component gels migrated and organized into large, three-dimensional, multicellular clusters. Gross morphological changes seen during this reorganization are described. The rate of cluster formation decreased with age of the rats and was stimulated by insulin in older, but not in younger rats. Echistatin, a disintegrin, partially inhibited the formation of multicellular clusters in a concentration-dependent fashion (50% inhibitory concentration approximately 10 nM). The original extracellular matrix was initially remodeled and eventually destroyed by the time large multicellular clusters were observed. This implied that one or more matrix-degrading protease(s) were being secreted. Adipocyte-conditioned medium was found to contain a divalent cation-sensitive gelatinase activity at approximately 72 and/or approximately 62 kDa. The elution profile of this activity from gelatin-Sepharose 4B was similar to matrix metalloproteinase 2 (MMP-2, a 72-kDa matrixin with a 62-kDa mature form), and the dimethyl sulfoxide eluant from these columns contained MMP-2 immunoreactivity. MMP-2 concentration and activity were greater in conditioned medium from young than from older animals; however, insulin did not affect the amount of MMP-2 in adipocyte-conditioned media. The matrixin inhibitor 1,10-phenanthroline not only blocked gelatinase activity in zymograms but also prevented extracellular matrix remodeling and destruction, as well as adipocyte migration and the formation of cell-cell contacts in adipocyte cultures. These observations are consistent with the hypothesis that the matrixin MMP-2 is secreted by adipocytes. Whereas matrixin activity alone may not be sufficient for the formation of multicellular clusters, the data indicate that it may have a requisite role in this process.

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Stacy A. Hazen

Role of hepatic carbonic anhydrase in de novo lipogenesis

Differentiation‐dependent expression of CA V and the role of carbonic anhydrase isozymes in pyruvate carboxylation in adipocytes

Role of the matrixin MMP-2 in multicellular organization of adipocytes cultured in basement membrane components

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