Clifford R. Vines scite author profile

Clifford R. Vines

4Publications

10Citation Statements Received

73Citation Statements Given

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108

Affiliations

University of Alabama at Birmingham, University of Montevallo

Publications

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Identification of SP3 as a Negative Regulatory Transcription Factor in the Monocyte Expression of Growth Hormone*

Vines

Weigent

2000

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A number of studies from different laboratories clearly show that cells of the immune system produce a GH molecule indistinguishable from that produced in the pituitary. A more recent finding from our studies suggests that monocytes use the same first exon and promoter sequence for the expression of lymphocyte GH as that reported for the expression of pituitary GH. In this report we have extended these results by determining that two members of the SP family of transcription factors, SP1 and SP3, bind to the region at -138/-133 bp containing a GGGAGG motif. Confirmation that this region of the monocyte GH promoter-bound SP1 and SP3 was accomplished using electrophoretic mobility shift assays with SP1 consensus and mutant probes as well as specific antibodies to SP1 and SP3. Selective mutation of the SP1/SP3 site increased basal transcription by 73%, indicating that this site is important in transcriptional inhibition. Overexpression of SP1 had no demonstrable effect on the GH promoter, whereas overexpression of SP3 caused inhibition of expression in P-388 monocyte cells. Cotransfection of P-388 cells with overexpression vectors for both SP1 and SP3 transcription factors also resulted in inhibition of basal expression. Transfection experiments in Drosophila SL-2 cells overexpressing SP1 and/or SP3 suggest that both factors repress the basal expression of GH promoter luciferase constructs and that the effect together was additive. Taken together, the results demonstrate that basal expression of monocyte GH may be negatively regulated by SP3.

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Identification of SP3 as a Negative Regulatory Transcription Factor in the Monocyte Expression of Growth Hormone

Vines

2000

Endocrinology

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Characterization of the Promoter-Directing Expression of Growth Hormone in a Monocyte Cell Line

Weigent

Vines

Long

et al. 2000

Neuroimmunomodulation

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Previous work from our laboratory has shown that cells of the immune system produce a growth hormone (GH) molecule similar to that produced by the pituitary. In the present study, using Southern analysis of RT-PCR products and sequencing of cloned cDNA molecules, we demonstrate that lymphoid cell lines utilize the same promoter and first exon as the pituitary somatotrope. To identify the cis-elements involved in transcriptional regulation of immune cell-derived GH, we have coupled rat GH promoter fragments to a luciferase reporter gene and transfected a monocyte cell line (P-388) by electroporation. The results suggest the presence of both positive (–299/–193 bp) and negative (–193/–107 bp) regulatory elements. The same constructs transfected in the pituitary cell line, GH3, in contrast to the monocyte cell line, showed a gradual decrease in luciferase expression. The overexpression of GHF-1 or GHF-2 resulted in a modest but significant reduction in rat GH promoter activity in the P-388 cell line. Taken together, the data suggest that immune cells utilize the same first exon and promoter sequence for the expression of monocyte GH as that reported for the expression of pituitary GH. Further, it appears that sequences between –299 and –107 bp are important in the regulation of the promoter where different transcription factors may be recruited to promote GH expression in a monocyte cell line.

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A Collapsible Cage Design for Aquatic Culture

Vines

1996

Journal of Applied Aquaculture

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Clifford R. Vines

Identification of SP3 as a Negative Regulatory Transcription Factor in the Monocyte Expression of Growth Hormone*

Identification of SP3 as a Negative Regulatory Transcription Factor in the Monocyte Expression of Growth Hormone

Characterization of the Promoter-Directing Expression of Growth Hormone in a Monocyte Cell Line

A Collapsible Cage Design for Aquatic Culture

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