SYNTHETIC AND PARTIALLY-PURIFIED ADENYLATE CYCLASE-STIMULATING PROTEINS FROM TUMORS ASSOCIATED WITH HUMORAL HYPERCALCEMIA OF MALIGNANCY INHIBIT PHOSPHATE TRANSPORT IN A PTH-RESPONSIVE RENAL CELL LINE

Abstract

Hypophosphatemia and hyperphosphaturia characteristically occur in patients with humoral hypercalcemia of malignancy (HHM). To determine if a tumor product causes these abnormalities in phosphate metabolism, rather than, for example, hypercalcemia, we investigated the effect of partially-purified adenylate cyclase-stimulating activity (ACSA) from human and animal HHM-associated tumors on sodium-dependent phosphate transport (NaPiT) in a PTH-responsive renal epithelial cell line. Thirty minute exposure to 7 × l0⁻¹⁰ M bPTH (1–34) equivalents of ACSA from the human and animal tumors, reduced NaPiT by 20% and 14%, respectively. We also recently isolated an adenylate cyclase-stimulating protein (hACSP) from two human tumors associated with HHM and identified a cDNA clone for this protein which encodes a 141 amino-acid peptide. Based on the deduced amino-acid sequence, we synthesized tyr³⁶ (1–36) hACSP. This synthetic peptide induced a 22% decrease in the initial rate of NaPiT by the epithelial monolayer. Its inhibitory activity was roughly equipotent to that of bPTH (1–34). We conclude that the ACSP derived from HHM-associated tumors decreases phosphate transport in renal epithelial cells. This peptide appears to play a key role in mediating the changes in phosphate metabolism in this syndrome.