Sarah Eimerl scite author profile

Here we describe a protein product of the human septin H5/PNUTL2/CDCrel2b gene, which we call ARTS (for apoptosis-related protein in the TGF-beta signalling pathway). ARTS is expressed in many cells and acts to enhance cell death induced by TGF-beta or, to a lesser extent, by other apoptotic agents. Unlike related septin gene products, ARTS is localized to mitochondria and translocates to the nucleus when apoptosis occurs. Mutation of the P-loop of ARTS abrogates its competence to activate caspase 3 and to induce apoptosis. Taken together, these observations expand the functional attributes of septins previously described as having roles in cytokinesis and cellular morphogenesis.

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CCAAT Enhancer-binding Protein β and GATA-4 Binding Regions within the Promoter of the Steroidogenic Acute Regulatory Protein (StAR) Gene Are Required for Transcription in Rat Ovarian Cells

Silverman

Eimerl

Orly

1999

Journal of Biological Chemistry

173

127

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Steroidogenic acute regulatory protein (StAR) is a vital accessory protein required for biosynthesis of steroid hormones from cholesterol. The present study shows that in primary granulosa cells from prepubertal rat ovary, StAR transcript and protein are acutely induced by gonadotropin (FSH). To determine the sequence elements required for hormone inducibility of the StAR promoter, truncated regions of the ؊1002/؉6 sequence of the mouse gene were ligated to pCAT-Basic plasmid and transfected by electroporation to freshly prepared cells. FSH inducibility determined over a 6-h incubation was 10 -40-fold above basal levels of chloramphenicol acetyltransferase activity. These functional studies, supported by electrophoretic mobility shift assays indicated that two sites were sufficient for transcription of the StAR promoter constructs: a non-consensus binding sequence (؊81/؊72) for CCAAT enhancer-binding protein ␤ (C/EBP␤) and a consensus motif for GATA-4 binding (؊61/؊66). Western analyses showed that GATA-4 is constitutively expressed in the granulosa cells, while all isoforms of C/EBP␤ were markedly inducible by FSH. Site-directed mutations of both binding sequences practically ablated both basal and hormone-driven chloramphenicol acetyltransferase activities to less than 5% of the parental ؊96/؉6 construct. Unlike earlier notions, elimination of potential binding sites for steroidogenic factor-1, a well known tissue-specific transcription factor, did not impair StAR transcription. Consequently, we propose that C/EBP␤ and GATA-4 represent a novel combination of transcription factors capable of conferring an acute response to hormones upon their concomitant binding to the StAR promoter.

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Turnover of Mitochondrial Steroidogenic Acute Regulatory (StAR) Protein by Lon Protease: The Unexpected Effect of Proteasome Inhibitors

et al. 2007

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Steroidogenic acute regulatory protein (StAR) is a vital mitochondrial protein promoting transfer of cholesterol into steroid making mitochondria in specialized cells of the adrenal cortex and gonads. Our previous work has demonstrated that StAR is rapidly degraded upon import into the mitochondrial matrix. To identify the protease(s) responsible for this rapid turnover, murine StAR was expressed in wild-type Escherichia coli or in mutant strains lacking one of the four ATP-dependent proteolytic systems, three of which are conserved in mammalian mitochondria-ClpP, FtsH, and Lon. StAR was rapidly degraded in wild-type bacteria and stabilized only in lon (-)mutants; in such cells, StAR turnover was fully restored upon coexpression of human mitochondrial Lon. In mammalian cells, the rate of StAR turnover was proportional to the cell content of Lon protease after expression of a Lon-targeted small interfering RNA, or overexpression of the protein. In vitro assays using purified proteins showed that Lon-mediated degradation of StAR was ATP-dependent and blocked by the proteasome inhibitors MG132 (IC(50) = 20 microm) and clasto-lactacystin beta-lactone (cLbetaL, IC(50) = 3 microm); by contrast, epoxomicin, representing a different class of proteasome inhibitors, had no effect. Such inhibition is consistent with results in cultured rat ovarian granulosa cells demonstrating that degradation of StAR in the mitochondrial matrix is blocked by MG132 and cLbetaL but not by epoxomicin. Both inhibitors also blocked Lon-mediated cleavage of the model substrate fluorescein isothiocyanate-casein. Taken together, our former studies and the present results suggest that Lon is the primary ATP-dependent protease responsible for StAR turnover in mitochondria of steroidogenic cells.

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Cyclooxygenase-2 Regulation of the Age-Related Decline in Testosterone Biosynthesis

Wang¹,

Shen²,

Dyson³

et al. 2005

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The age-related decline in testosterone biosynthesis in testicular Leydig cells has been well documented, but the mechanisms involved in the decline are not clear. Recent studies have described a cyclooxygenase-2 (COX2)-dependent tonic inhibition of Leydig cell steroidogenesis and expression of the steroidogenic acute regulatory protein (StAR). The present study was conducted to determine whether COX2 protein increases with age in rat Leydig cells and whether COX2 plays a role in the age-related decline in testosterone biosynthesis. Our results indicate that from 3 months of age to 30 months, COX2 protein in aged rat Leydig cells increased by 346% over that of young Leydig cells, StAR protein decreased to 33%, and blood testosterone concentration and testosterone biosynthesis in Leydig cells decreased to 41 and 33%, respectively. Further experiments demonstrated that overexpressing COX2 in MA-10 mouse Leydig cells inhibited StAR gene expression and steroidogenesis and that the inhibitory effects of COX2 could be reversed by blocking COX2 activity. Notably, incubation of aged Leydig cells with the COX2 inhibitor NS398 enhanced their testosterone biosynthesis. Blood testosterone concentrations in aged rats fed the COX2 inhibitor DFU, at doses of 5, 10, 15, and 20 mg/kg body weight per day were increased by 15, 23, 56, and 120%, respectively, over the levels in the rats receiving no DFU. The present study suggests a novel mechanism in male aging involving COX2 and a potential application of the mechanism to delay the age-related decline in testosterone biosynthesis.

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Serum and depolarizing agents cause acute neurotoxicity in cultured cerebellar granule cells: role of the glutamate receptor responsive to N-methyl-D-aspartate.

Schramm

Eimerl

Costa

1990

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

147

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The life span of neonatal rat cerebellar granule cells, grown in basal minimal Eagle's medium containing 10% (vol/vol) fetal calf serum, was extended to 21-30 days by weekly supplementation with glucose. Addition of 1% fetal calf serum to the culture at 14 days killed 85% of the cells within 1 hr. This lethal effect could be prevented by the Nmethyl-D-aspartate (NMDA) receptor antagonists dibenzocyclohepteneimine (MK-801) and 3-(2-carboxypiperazin-4-yl)propyl-1-phosphonate (CPP). These findings suggested that the glutamate in the serum caused the dramatic neuronal death through action on the NMDA receptor. Indeed, a 5-min incubation in a Locke physiological salt solution containing 20 pM glutamate and 5 pM glycine killed 55-90% of the cells.This acute toxicity could be prevented by a lyso-GM1 ganglioside with N-acetylated sphingosine. The relatively low glutamate content of the sera analyzed suggests that factors in addition to glycine potentiate serum neurotoxicity. The above noted antagonists of the NMDA receptor also greatly reduced the lethal effect of depolarization by 90 mM KCl or 10 FaM veratridine. Therefore, it is likely that the toxicity of the depolarizing agents is mediated by glutamate released from the cells. It is concluded that survival of cerebellar neurons in primary culture may be strongly affected by unsuspected neurotoxic phenomena elicited by brief action of a rather low glutamate concentration.The possibility that primary cultures of brain neurons might be damaged by toxic actions of glutamate has apparently received little attention other than by those specifically studying excitotoxicity (1-5). However, as will be shown, rapid death of neurones may occur under conventional experimental manipulations of neuronal cultures. Similar events may affect neurons in brain slices (6, 7) and could have important implications for pathological processes in the intact brain (1-5).Excitotoxicity mediated by glutamate and its analogs has been ascribed in many instances to excessive activation of the N-methyl-D-aspartate (NMDA) receptor. Two types of processes have been distinguished: (i) an acute reaction apparently requiring action of glutamate at high concentration, which leads to swelling by influx of Na+, Cl-, and water, terminating in lysis within 1-2 hr (8-10); and (ii) a delayed toxicity extending over approximately 20 hr. Though the excitotoxicity is initiated by glutamate, it soon becomes insensitive to glutamate receptor blockers and proceeds even after glutamate removal (11). It requires extracellular Ca2l and is dependent on prolonged elevation of free cytosolic Ca2+ (10)(11)(12)(13)(14)(15)(16) (19,20). The cell concentration was 1.6 x 106 cells per ml, and the medium was not changed throughout the cultivation period. Experiments were conducted on cells grown in a 24-well multiwell dish (Nunc) with 0.5 ml of medium per well and in 35-mm dishes (Nunc) with 2 ml per dish. The life span of the cells was extended up to 31 days in vitro by addition of 1 mg ofglucose (in 40 ,ul) per ml of...

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Sarah Eimerl

A novel mitochondrial septin-like protein, ARTS, mediates apoptosis dependent on its P-loop motif

CCAAT Enhancer-binding Protein β and GATA-4 Binding Regions within the Promoter of the Steroidogenic Acute Regulatory Protein (StAR) Gene Are Required for Transcription in Rat Ovarian Cells

Turnover of Mitochondrial Steroidogenic Acute Regulatory (StAR) Protein by Lon Protease: The Unexpected Effect of Proteasome Inhibitors

Cyclooxygenase-2 Regulation of the Age-Related Decline in Testosterone Biosynthesis

Serum and depolarizing agents cause acute neurotoxicity in cultured cerebellar granule cells: role of the glutamate receptor responsive to N-methyl-D-aspartate.

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