Tm. Dixon et al., CCAAT/enhancer-binding protein alpha is required for transcription of the beta(3)-adrenergic receptor gene during adipogenesis, J BIOL CHEM, 276(1), 2001, pp. 722-728
The beta (3)-adrenergic receptor (beta (3)AR) is expressed predominantly in
adipocytes, and it plays a major role in regulating lipolysis and adaptive
thermogenesis, Its expression in a variety of adipocyte cell models is pre
ceded by the appearance of CCAAT/enhancer-binding protein alpha (C/EBP alph
a), which has been shown to regulate a number of other adipocyte-specific g
enes. Importantly, it has been demonstrated that several adipocyte cell lin
es that fail to express C/EBP alpha exhibit reduced insulin sensitivity, de
spite an apparent adipogenic phenotype, Here we show that transcription and
function of the beta (3)AR correlates with C/EBP alpha expression in these
adipocyte models. A 5.13-kilobase pair fragment of the mouse beta (3)AR pr
omoter was isolated and sequenced. This fragment conferred a 50-fold increa
se in luciferase reporter gene expression in adipocytes, Two putative C/EBP
binding sites exist at -3306 to -3298 and at -1462 to -1454, but only the
more distal site is functional. Oligo nucleotides corresponding to both the
wild-type and mutated -3306 element were inserted upstream of a thymidine
kinase luciferase construct. When cotransfected in fibroblasts with a C/EBP
alpha expression vector, reporter gene expression increased 3-fold only in
the wild-type constructs, The same mutation, when placed into the intact 5
.13-kilobase pair promoter, reduced promoter activity in adipocytes from 50
-fold to <10-fold. Electrophoretic mobility shift analysis demonstrated tha
t the site at -3306 generated a specific protein-oligonucleotide complex th
at was supershifted by C/EBP<alpha> antibody, while a probe corresponding t
o a putative site at -1462 did not. These results define C/EBP alpha as a k
ey transcriptional regulator of the mouse beta (3)AR gene during adipogenes
is.