Inhibitor Report for: Z-Gly-Pro-CHN2

We have previously shown that the naturally occurring polyamines, spermidine and spermine, reverse effectively the in vitro inhibition of prolyl oligopeptidase (POPase) by its endogenous inhibitor by forming a kinetically significant complex (Soeda et al., J. Neurochem. (1986) 46, 1304-1307). In this study, we examined changes in the activities of POPase and its endogenous inhibitor and in the concentrations of polyamines during the regeneration of rat liver. POPase activity in the liver cytosol peaked 2 days after partial hepatectomy and then decreased near to control activity by 9 days, without its altered synthetic levels. Total polyamine concentrations also peaked at 2 days and remained elevated by 9 days, while cytosolic POPase inhibitor activity was minimal (56% of control) at 2 days. Treatment of the animals with a synthetic POPase inhibitor, Z-Gly-Pro-CHN2 (4 mg/kg), resulted in an obvious suppression of the liver regeneration. These results imply that the activity of POPase involved in nonlysosomal proteolytic pathway is exquisitely regulated by changes not only in its endogenous inhibitor levels but also in intracellular cationic potentials such as polyamines, and that POPase plays a crucial role for the growth and differentiation of liver cell.

Thyrotropin-Releasing hormone (TRH)-degrading pyroglutamyl peptidase I (PGP I) and prolylendopeptidase (PE) activities have been demonstrated in rat insulinoma RINm 5F cell line. These two enzymes catalyze the conversion of TRH to Histydyl-Proline-Diketopiperazine and to acid TRH respectively. After cell fractionation, we found all the PGP I and PE activities in the cytosolic fraction. The membrane-bound PGP II activity is not detectable in the RINm 5F cells. Further investigations on these two cytosolic enzymes show that pyroglutamyl- and proline-containing peptides are inhibitors of each TRH-degrading enzyme. Gel filtration chromatography on Sephadex G100 shows that PGP I and PE activity have an apparent molecular mass of about 18 kDa and 57 kDa, respectively. Kinetic analysis with TRH as substrate, gives a Km of 44 microM and 235 microM, and a Vmax of 1.49 and 8.80 pmol/min/micrograms protein for PGP I and PE, respectively. Immunoreactive TRH, His-Pro-Diketopiperazine and acid TRH levels in the cell line extracts are 2.2 +/- 0.9, 22.5 +/- 11.1 and 28.7 +/- 14.6 pg/1O6 cells, respectively. When cells have been incubated for 2 to 72 hours with a P.E. inhibitor (Z-Gly-Pro-CHN2) at 5 x 10(-7) M, both cell PGP I and PE activities are inhibited. No change in the cellular content of immunoreactive TRH, His-Pro-Diketopiperazine and acid TRH have been observed in treated cells.(ABSTRACT TRUNCATED AT 250 WORDS)

N-Benzyloxycarbonyl-Gly-Pro-diazomethyl ketone (Z-Gly-Pro-CHN2) was synthesized and tested as inhibitor of the post proline cleaving enzyme from bovine brain. The compound was found to inactivate the enzyme completely and irreversibly at low concentrations (0.3 microM) without affecting other proteolytic enzymes such as post proline dipeptidyl aminopeptidase, pyroglutamate aminopeptidase or trypsin. Substrates of post proline cleaving enzymes such as luliberin (LH-RH; pyroGlu-His-Trp-Ser-Tyr-Gly-Leu-Arg-Pro-Gly-NH2) and Benzyloxycarbonyl-Gly-Pro-Ala protected the enzyme from the reaction with Z-Gly-Pro-CHN2. Thus, Z-Gly-Pro-CHN2 seems to be an active site directed, specific inhibitor of post proline cleaving enzyme. When administered intraperitoneally to rats, this inhibitor (8 mg/kg) completely inactivated the post proline cleaving enzyme in all tissues studied including brain. Therefore, Z-Gly-Pro-CHN2 should be a valuable tool for studies on the physiological function of this enzyme within the metabolism of neuropeptides.

We have previously shown that the naturally occurring polyamines, spermidine and spermine, reverse effectively the in vitro inhibition of prolyl oligopeptidase (POPase) by its endogenous inhibitor by forming a kinetically significant complex (Soeda et al., J. Neurochem. (1986) 46, 1304-1307). In this study, we examined changes in the activities of POPase and its endogenous inhibitor and in the concentrations of polyamines during the regeneration of rat liver. POPase activity in the liver cytosol peaked 2 days after partial hepatectomy and then decreased near to control activity by 9 days, without its altered synthetic levels. Total polyamine concentrations also peaked at 2 days and remained elevated by 9 days, while cytosolic POPase inhibitor activity was minimal (56% of control) at 2 days. Treatment of the animals with a synthetic POPase inhibitor, Z-Gly-Pro-CHN2 (4 mg/kg), resulted in an obvious suppression of the liver regeneration. These results imply that the activity of POPase involved in nonlysosomal proteolytic pathway is exquisitely regulated by changes not only in its endogenous inhibitor levels but also in intracellular cationic potentials such as polyamines, and that POPase plays a crucial role for the growth and differentiation of liver cell.

Thyrotropin-Releasing hormone (TRH)-degrading pyroglutamyl peptidase I (PGP I) and prolylendopeptidase (PE) activities have been demonstrated in rat insulinoma RINm 5F cell line. These two enzymes catalyze the conversion of TRH to Histydyl-Proline-Diketopiperazine and to acid TRH respectively. After cell fractionation, we found all the PGP I and PE activities in the cytosolic fraction. The membrane-bound PGP II activity is not detectable in the RINm 5F cells. Further investigations on these two cytosolic enzymes show that pyroglutamyl- and proline-containing peptides are inhibitors of each TRH-degrading enzyme. Gel filtration chromatography on Sephadex G100 shows that PGP I and PE activity have an apparent molecular mass of about 18 kDa and 57 kDa, respectively. Kinetic analysis with TRH as substrate, gives a Km of 44 microM and 235 microM, and a Vmax of 1.49 and 8.80 pmol/min/micrograms protein for PGP I and PE, respectively. Immunoreactive TRH, His-Pro-Diketopiperazine and acid TRH levels in the cell line extracts are 2.2 +/- 0.9, 22.5 +/- 11.1 and 28.7 +/- 14.6 pg/1O6 cells, respectively. When cells have been incubated for 2 to 72 hours with a P.E. inhibitor (Z-Gly-Pro-CHN2) at 5 x 10(-7) M, both cell PGP I and PE activities are inhibited. No change in the cellular content of immunoreactive TRH, His-Pro-Diketopiperazine and acid TRH have been observed in treated cells.(ABSTRACT TRUNCATED AT 250 WORDS)

In the present work, we have looked for the presence of two tissular neuropeptide degrading activities, the pyroglutamate aminopeptidase (PAP) and the post-proline cleaving enzyme (PPCE), in dissociated brain cell cultures. These two activities are present in extracts of cells grown in serum-free medium and are detected at a very low level in incubation media. Depolarization of hypothalamic neurons by 60 mM K+ does not specifically increase the level of PAP and PPCE in the medium. We have also used an inhibitor of PPCE: Z-Gly-ProCHN2. This compound can be left in contact with living cells without any toxicity, and in certain conditions of incubation blocks totally and irreversibly both PAP and PPCE. This blockade results in increased levels of TRH, intracellular as well as released into the medium, spontaneously and upon K+ depolarization. These results evidence the role of degradation processes in the mechanisms regulating peptide turn-over.

N-Benzyloxycarbonyl-Gly-Pro-diazomethyl ketone (Z-Gly-Pro-CHN2) was synthesized and tested as inhibitor of the post proline cleaving enzyme from bovine brain. The compound was found to inactivate the enzyme completely and irreversibly at low concentrations (0.3 microM) without affecting other proteolytic enzymes such as post proline dipeptidyl aminopeptidase, pyroglutamate aminopeptidase or trypsin. Substrates of post proline cleaving enzymes such as luliberin (LH-RH; pyroGlu-His-Trp-Ser-Tyr-Gly-Leu-Arg-Pro-Gly-NH2) and Benzyloxycarbonyl-Gly-Pro-Ala protected the enzyme from the reaction with Z-Gly-Pro-CHN2. Thus, Z-Gly-Pro-CHN2 seems to be an active site directed, specific inhibitor of post proline cleaving enzyme. When administered intraperitoneally to rats, this inhibitor (8 mg/kg) completely inactivated the post proline cleaving enzyme in all tissues studied including brain. Therefore, Z-Gly-Pro-CHN2 should be a valuable tool for studies on the physiological function of this enzyme within the metabolism of neuropeptides.