Homologous and heterologous enhancers modulate spatial expression but not cell-type specificity of the murine gamma F-crystallin promoter.

Previous studies have shown that mouse gamma F-crystallin sequences -759 to +45, which include the core promoter and two upstream enhancer elements, contain sufficient information for directing gene expression to terminally differentiated fiber cells of the ocular lens. To investigate the role that proximal sequences of the mouse gamma F-crystallin promoter play in the developmental regulation of gene expression, we generated transgenic mice containing the lacZ gene driven by either mouse gamma F-crystallin sequences -171 to +45, which lack functional enhancers, or a hybrid hamster alpha A-/mouse gamma F-crystallin promoter, which contains the hamster alpha A-crystallin enhancer instead of operational gamma F-crystallin enhancers. In situ analysis of lacZ expression in these mice revealed that the mouse gamma F-crystallin promoter segment -171 to +45, which shows low activity in vitro, is able to direct gene expression to the fiber cells in the nucleus of the lens. However, animals expressing gamma 171-lacZ show both a lower level of expression of the lacZ gene and a narrower pattern of staining in the lens nucleus than mice expressing gamma 759-lacZ, which contains the two enhancer elements located between -392 and -278 and -226 to -123.(ABSTRACT TRUNCATED AT 250 WORDS)