The cDNA-predicted amino acid sequence of parathyroid hormone-related protein (PTHrP) contains multiple basic amino acid motifs, suggesting that PTHrP undergoes extensive post-translational processing prior to secretion. The secretory forms of the peptide are currently unknown. To identify these secretory forms, medium was harvested from three cell types: human renal carcinoma (SKRC-1) cells, human keratinocytes, and rat insulinoma cells stably transfected with the cDNA for PTHrP(1-141) (RIN-141 cells). Amino-terminal species were immunopurified using an anti-PTHrP(1-36) column, and mid-region species using an anti-PTHrP(37-74) column. PTHrP peptides in medium and in cell extracts were further resolved by reverse phase high performance liquid chromatography (RP-HPLC) and identified using region-specific immunoassays. SKRC-1 and RIN-141 cells secreted three distinct amino-terminal species and a novel, non-amino-terminal, mid-region fragment. Sequence and sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis indicated that the RIN-141 cell mid-region fragment begins at amino acid 38 of the cDNA-predicted sequence and is approximately 70 amino acids in length. Comparison of RP-HPLC elution patterns suggests that SKRC-1 cells and keratinocytes secrete a similar or identical mid-region fragment. Immunofluorescence studies revealed a Golgi pattern for the amino-terminal species and a secretory granule pattern for the mid-region fragment. These studies indicate that 1) multiple PTHrP species are secreted, including a novel mid-region fragment; 2) Arg37 serves as a cleavage site in at least three cell types; 3) PTHrP(1-36) is likely to be an authentic secretory form of PTHrP; and 4) the mid-region fragment appears to be packaged into secretory granules. The marked interspecies conservation of this mid-region PTHrP suggests that it will have important biological functions.