• The Korean Journal of Zoology
• /
• v.39 no.2
• /
• pp.215-222
• /
• 1996

In the previous studies, we have demonstrated that prorenin converting enzyme (PRECE) was identical to the epidermal grouch factor-binding protein (EGF-BP) type B, which was a member of the mouse glandular kallikrein family, To examine whether or not EGF-BP type A and C are involved in the processing of prorenin, we have cloned the CDNAS of the EGF-BP type h and C from a library of male ICR mouse submandibular gland (SMGI. And then CHO cells were transfected with the EGF-BP expression plasmids. and stable cell lines expressing a high level of the EGF-BPS precursor were obtained. The conditioned medium was then treated with trypsin, which has been knotvn to effectively convert the EGF-BP type A and C precursor to the active forms. 수ubsequentlv, the prorenin converting activity of the trypsin-treated or untreated medium was examined. PRECE converted exactly prorenin to renin, but the prorenin converting activities of EGF-BP type A and C were not detected. From these results, it seems that only type B of these EGF-BPs is involved in processing Ren 2 prorenin in mouse SMG.

• Animal cells and systems
• /
• v.1 no.3
• /
• pp.463-466
• /
• 1997

We have recently demonstrated, by protein and cDNA sequence analysis, that prorenin converting enzyme (PRECE) in the mouse submandibular gland is identical to the epidermal growth factor-binding protein (EGF-BP)type B. However, type A and C did not show prorenin converting activity. To demonstrate whether r-NGF is involved in prorenin processing, we have cloned cDNA of r-NGF and examined prorenin converting activity using the CHO cell expression system, Trypsin converted the 33 kDa r-NGF precursor produced in CHO cells to a two-chain form, 9.4 and 16.4 kDa polypeptide chains, which has been known as an active form of r-NGF in mouse SMG (Server and Shooter, 1976). However, the two chain forms of r-NGF did not reveal prorenin-processing activity. Thus, only PRECE is involved in prorenin processing in mouse SMG. This result shows that their substrate specificities appear to be very strict, although some kallikreins share a high degree of amino acid sequence identity.

• BMB Reports
• /
• v.30 no.5
• /
• pp.356-361
• /
• 1997

We cloned a cDNA (pPRC-1) which was comprised of 841 nucleotides from the cDNA library of a male ICR mouse submandibular gland ($SMG^+$). The nucleotide sequences of pPRC-1 were identical to those of exons 2 and 3 of the mGK-21 gene, a potentially functional glandular kallikrein identified in a Balb/c mouse, except for one nucleotide residue. Although this substitution changes Ile (ATT) in pPRC-1 to Val (GTT) in mGK-21, this difference has been explained by strain polymorphism. From the amino acid sequences predicted from its cDNA, we speculated that mGK-21 gene products/pGK21 consist of 261 amino acids including the $NH_2$-terminal signal peptide (residues 1~17), the short propeptide (residues 17~24), and the active peptide (residues 25~261). Although we did not demonstrate the enzyme activity of pGK21, it was assumed that pGK 21 was involved in the maturation of certain bioactive polypeptide(s) in mouse SMG for the following reasons : (a) mGK-21 gene was apparently expressed in a male ICR mouse SMG: (b) the proposed active site $His^{65}$, $Asp^{120}$, and $Ser^{213}$ residues were completely conserved in pGK21 just like other glandular kallikreins; (c) the cloned cDNA was translated to a predicted 27 kDa polypeptide chain in vitro: (d) the 27 kDa polypeptide chain produced by CHO cells was produced to a putative active form by trypsin.