Metabolism of mouse growth hormone-releasing factor, mGRF(1-42)OH, and selected analogs from the bovine GRF series in mouse and bovine plasma in vitro.

The presence of Val2 in mGRF(1-42)OH is unique and, as shown in this study, renders this GRF resistant to plasma DPP-IV, the main enzyme responsible for rapid hydrolysis and inactivation of Ala2-containing GRFs from other species via cleavages between Ala2-Asp3. The presence of DPP-IV activity in mouse serum, and mouse and bovine plasma has been demonstrated with Gly-Pro-p-nitroanilide and/or with two DPP-IV-sensitive bGRF analogs, [Leu27]bGRF(1-29)NH2 and [Ala15,Leu27]bGRF(1-29)NH2, which were effectively converted to their respective (3-29) fragments. During incubations of mGRF(1-42)OH in mouse serum or plasma, as well as in bovine plasma in vitro, no major fragments were detectable, except for small amounts of metabolites with HPLC retention times corresponding to those of mGRF(12-42)OH and mGRF(21-42)OH, indicative of possible trypsin-like cleavages between Arg11-Lys12 and Arg20-Lys21. Both mGRF(1-42)OH (t1/2 52-78.5 min) and [Val2,Ala15,Leu27]-bGRF(1-29)NH2 (t1/2 78.5 min) disappeared 5 to 7 times faster in mouse than in bovine plasma, indicating much higher activity of various degrading enzymes in mouse plasma. In summary, our data provide evidence that mGRF(1-42)OH, despite its resistance to plasma DPP-IV, is degraded relatively fast in mouse plasma or serum because of trypsin-like and other, non-DPP-IV-related, proteolytic cleavages.