Vascular atrial natriuretic factor receptor subtypes are not independently regulated by atrial peptides.

The regulation of the atrial natriuretic factor (ANF) receptor system in cultured rat vascular smooth muscle cells (RVSMC) was examined following long term pretreatment of these cells with rANF99-126 or with any one of a series of truncated and ring-deleted analogs. The latter analogs are reported to bind selectively the ANF-C or clearance receptor. Initial competition binding studies revealed that all analogs examined showed comparable apparent receptor binding affinities (Ki values did not differ by more than 10-fold). In contrast, the extent of interaction of the ANF analogs with the receptor pool coupled to particulate guanylate cyclase (the ANF-B receptor) was much more variable, with some ligands failing to stimulate cGMP production or particulate guanylate cyclase over the concentrations tested. Pretreatment of cells for 24 h with rANF99-126 or any of the truncated analogs that interact with the ANF-B receptor caused a dose- and time-dependent decrease in the number of ANF binding sites (99% of which are uncoupled in RVSMC) without any change in affinity. Examination of the binding activity following pretreatment of the cells with ANF suggested that the observed reduction in 125I-rANF99-126 binding capacity was not because of the retention of the peptide on its receptor. Furthermore, this down-regulation was associated with desensitization of particulate guanylate cyclase resulting in a decreased responsiveness of intracellular cGMP accumulation to ANF. In contrast, however, analogs selective for the ANF-C receptor pool failed to cause down-regulation or desensitization. These findings suggest that ANF-C receptors in RVSMC are not independently down-regulated by selective ligands but that nonselective analogs that down-regulate and desensitize the ANF-B receptor system can by some cooperative mechanism reduce the size of the predominant ANF-C receptor pool in these cells.