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Expression of the Hepatic Specific V1 Messenger Ribonucleic Acid of the Human Growth Hormone Receptor Gene Is Regulated by Hepatic Nuclear Factor (HNF)-42 and HNF-48

Departments of Experimental Medicine and Pediatrics (C.G.G.), McGill University, and Endocrine Research Laboratory (C.G.G., Z.R., H.Z.), McGill University Health Centre-Montreal Children’s Hospital Research Institute, Montreal, Quebec, Canada H3Z 2Z3

Address all correspondence and requests for reprints to: Cynthia Gates Goodyer, Ph.D., McGill University Health Centre-Montreal Children’s Hospital Research Institute, 4060 St Catherine West, Room 415/1, Montreal, Quebec, Canada H3Z 2Z3. E-mail: cindy.goodyer{at}muhc.mcgill.ca.

Human (h) GH plays an essential role in growth and metabolism, and its effectiveness is modulated by the availability of its specific receptor [hGH receptor (hGHR)] on target cells. The hGHR gene has a complex 5'-regulatory region containing multiple first exons. Seven are clustered within two small regions: V2,V3,V9 (module A) and V1,V4,V7,V8 (module B). Module A-derived mRNAs are ubiquitously expressed whereas those from module B are only found in postnatal liver, suggesting developmental- and liver-specific regulation of module B hGHR gene expression. To characterize the elements regulating module B activity, we studied a 1.8-kb promoter of the highest expressing exon in liver, V1. This promoter was repressed in transfection assays; however, either 5'- or 3'-deletions relieved this, suggesting the presence of multiple negative regulatory elements. Six putative hepatic nuclear factor 4 (HNF-4) response elements were identified. We determined that HNF-4 is developmentally regulated in the human liver: HNF-42 and HNF-48 are expressed in fetal hepatocytes but only HNF-42 is expressed in postnatal liver. Transient transfection assays demonstrated that HNF-42 and HNF-48 have a similar dual effect on V1 transcription: activation via site 1 in the proximal promoter and repression through site 6, approximately 1.7 kb upstream. EMSA/electrophoretic mobility supershift assays and chromatin immunoprecipitation analyses confirmed these two sites are bound by HNF-4. Based on these data, we speculate there are multiple regions working together to repress the expression of V1 hGHR transcripts in tissues other than the normal postnatal liver, and that HNF-4 is a good candidate for regulating V1 hGHR expression in the human hepatocyte.

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Nuclear Receptors:   HNF4α