Kallikrein-related peptidases are activators of the CC chemokine CCL14.

Chemokine CCL14 is inactive in its proform. Here, we show that inflammation- and cancer-associated kallikrein-related peptidases KLK5 and KLK8 remove the N-terminal eight amino acids from the proform thereby converting CCL14 to its active state. Activity of the chemokine is demonstrated by migration of myeloid cells expressing relevant receptors.

Endogenous vasoactive peptides and the human vagina--a molecular biology and functional study.

INTRODUCTION: Endogenous peptides, such as vasoactive intestinal polypeptide (VIP), C-type natriuretic peptide (CNP), and bradykinin (BK), have been proposed to play a role in the female sexual arousal response by exerting relaxation of clitoral, labial, and vaginal smooth muscle. While the effects of endogenous peptides on the human male erectile tissue have already been described, only very few studies have been conducted to investigate the peptidergic control of female genital tissues, including the vagina. AIMS: To elucidate the expression of mRNA specifically encoding for peptide receptors in the human vagina and the effects of VIP, CNP, and BK on the tension induced by endothelin-1 (ET-1) of isolated human vaginal wall smooth muscle. The production of cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP) in response to exposure of the tissue to the peptides was also measured. METHODS: The expression of mRNA encoding for receptor proteins specific for VIP, CNP, and BK were investigated by means of molecular biology (reverse transcriptase polymerase chain reaction [RT-PCR] analysis). Using the organ bath technique, the effects of VIP, CNP, and BK (0.1 nM to 1 µM) on the tension induced by 0.1 µM ET-1 of human vaginal strips were investigated. The tissue was also exposed to three different concentrations of VIP, CNP, and BK (0.01 µM, 0.1 µM, 1 µM) and the production of cAMP and cGMP determined by means of radioimmunoassays. MAIN OUTCOME MEASURES: Characterize the expression of peptide receptors in the human vagina and measure the relaxation exerted by BK, CNP, and VIP on the contraction induced by ET-1 of isolated human vaginal tissue. In addition, the effects of the peptides on the production of cAMP and cGMP were also elucidated. RESULTS: RT-PCR analysis revealed the expression of mRNA transcripts encoding for the VIP receptors VIP1R/vasoactive intestinal polypeptide receptor type 1 (VPAC1) and VIP2R/VPAC2, CNP receptors natriuretic peptide receptor type A (NPRA), natriuretic peptide receptor type B (NPRB) and natriuretic peptide receptor type C (NPRC), and BK receptor B2R. The tension induced by ET-1 was reversed by the peptides with the following rank order of efficacy: BK (21.7%) > VIP (20.9%) > CNP (13.3%). The relaxing effects of VIP and BK were paralleled by a 4.8-fold and fivefold increase in cAMP, while the production of cGMP was stimulated 38-fold and 119-fold in the presence of CNP or BK, respectively. CONCLUSION: Our results are in support of the hypothesis that endogenous peptides may contribute to the control of human vaginal smooth muscle tone through the involvement of the cyclic nucleotide-dependent pathways.

Crystal structure of human epidermal kallikrein 7 (hK7) synthesized directly in its native state in E. coli: insights into the atomic basis of its inhibition by LEKTI domain 6 (LD6).

Human kallikrein 7, a major protease of human skin, has been synthesized directly in its native conformation in Escherichia coli by forcing the secretion of the newly synthesized polypeptide into the bacterial periplasm. The procedure yields a stable kallikrein 7 with highly specific activity that is inhibited efficiently by its specific inhibitor LEKTI domain 6. The protein was crystallized, and its three-dimensional structure was solved in the absence of protease inhibitors. The structure obtained agrees with that reported recently for human tissue kallikrein 7 crystallized in the presence of protease inhibitors from a preparation obtained in a baculovirus protein expression system. A model of the interaction between the protease and its inhibitor is proposed on the basis of both the three-dimensional structure of human tissue kallikrein 7 reported here and that of the LEKTI domain 6 solved previously by NMR.

Serine proteinase inhibitors in the skin: role in homeostasis and disease.

Serine proteinases fulfill and facilitate a broad spectrum of biological processes. They are held in check by different specific inhibitors. This delicate balance can be disturbed by genetic defects or exogenous influences and has been shown as the underlying or promoting cause for a large number of different diseases. For instance, proteinases are under investigation as drug targets for cancer, infections, neurodegenerative diseases, osteoporosis, inflammatory disorders and many more. Dermatological research has contributed greatly to the appreciation of the complex regulatory network between serine proteinases and serine proteinase inhibitors. In addition, proteolytically trimmed proteinase-activated receptors (PARs) trigger keratinocyte proliferation and differentiation as well as leukocyte attraction and activation. New insights have been gained particularly concerning the progression of inflammatory disorders of the skin. This review summarizes the role of serine proteinase inhibitors in physiology and pathophysiology of the skin.

Recombinant production, purification and biochemical characterization of domain 6 of LEKTI: a temporary Kazal-type-related serine proteinase inhibitor.

Lympho-epithelial Kazal-type-related inhibitor (LEKTI) is a 15-domain serine proteinase inhibitor which is of pathophysiological relevance for skin diseases and atopy. Domains 2 and 15 of LEKTI contain six cysteine residues and match the Kazal-type inhibitor motif almost exactly. The other 13 domains seem to be Kazal-type derived but lack the cysteines in positions 3 and 6 usually conserved within this family of inhibitors. Here, we report the recombinant production and comprehensive biochemical characterization of the 7.7 kDa LEKTI domain 6 (LD-6). Testing a selected number of different serine proteinases, we show that both native and recombinant LD-6 exhibit a significant but temporary inhibitory activity on trypsin. Furthermore, the relation of LEKTI domain 6 to Kazal-type inhibitors is confirmed by determining its disulfide bond pattern (1-4/2-3) and its P(1) site located after the second Cys residue of LD-6. The established strategy for the recombinant production of LEKTI domain 6 will enable further investigation of its mode of action and its physiological role.

Expression of guanylyl cyclase B in the human corpus cavernosum penis and the possible involvement of its ligand C-type natriuretic polypeptide in the induction of penile erection.

PURPOSE: The induction of penile erection depends on the depletion of free intracellular Ca2+ from the cytosol into the sarcoplasmic reticulum of smooth muscle cells of the corpus cavernosum. This process is regulated by a complex system of signal transduction pathways. In this context guanylyl and adenylyl cyclases as well as cyclic nucleotide monophosphate degrading phosphodiesterases have essential roles and represent important target molecules for the development of drugs for erectile dysfunction. Sildenafil, which is an inhibitor of phosphodiesterase 5, is frequently used for this application but, unfortunately, it has undesirable side effects. Therefore, we investigated the suitability of membrane bound guanylyl cyclases as alternative target proteins. MATERIALS AND METHODS: We determined mRNA transcripts specific for guanylyl cyclase B, a receptor of the peptide hormone C-type natriuretic polypeptide, in human corpus cavernosum. We performed immunohistochemistry to evaluate the presence of guanylyl cyclase B in corpus cavernosum and helical artery smooth muscle cells. We further investigated whether C-type natriuretic polypeptide increases intracellular cyclic guanosine monophosphate and performed organ bath studies using corpus cavernosum muscle strips and C-type natriuretic polypeptide at concentrations of 1 to 1 microM. RESULTS: mRNA transcripts were detected encoding for guanylyl cyclase-B, a receptor of the peptide hormone C-type natriuretic polypeptide, in human corpus cavernosum. This finding was verified at the protein level by immunohistochemistry that demonstrated guanylyl cyclase B in corpus cavernosum and helical artery smooth muscle cells. We further noted that C-type natriuretic polypeptide increased intracellular cyclic guanosine monophosphate. In organ bath studies with corpus cavernosum muscle strips C-type natriuretic polypeptide at concentrations of 1 to 1 microM. led to smooth muscle relaxation from 5% to 40%. CONCLUSIONS: The results indicate a role for C-type natriuretic polypeptide and its receptor in the induction of penile erection and its possible future therapeutic use for erectile dysfunction.

LEKTI: a multidomain serine proteinase inhibitor with pathophysiological relevance.

Proteinase inhibitors are important negative regulators of proteinase action in vivo and are thus involved in several pathophysiological processes. Starting with the isolation of two new peptides from human blood filtrate, we succeeded in cloning a cDNA encoding the precursor protein for a novel 15-domain Kazal-type-related serine proteinase inhibitor. Two of the 15 domains almost exactly match the Kazal-type pattern, whereas the other 13 domains exhibit only four instead of six cysteine residues. Since the corresponding gene is expressed in several lympho-epithelial tissues, we termed this inhibitor lympho-epithelial Kazal-type-related inhibitor (LEKTI). For three of the 15 LEKTI domains, we demonstrated a significant trypsin-inhibiting activity. Recent results of another group show a relation between mutations within the LEKTI gene and the severe congenital disorder Netherton syndrome. In this review article, we give an overview of the already known data on the structure, processing, gene expression, and pathophysiological role of LEKTI.

The 15-domain serine proteinase inhibitor LEKTI: biochemical properties, genomic organization, and pathophysiological role.

Proteinases are involved in specific and non-specific proteolytic reactions, and participate in many pathophysiological processes. Normally, they are regulated by endogenously produced proteinase inhibitors which, thus, represent lead structures for the development of therapeutics. We succeeded in partially isolating and cloning a novel human serine proteinase inhibitor which, according to its structure and the expression pattern of the corresponding gene, was termed lympho-epithelial Kazal-type-related inhibitor (LEKTI). This inhibitor is of special interest because it exhibits an extraordinarily large number of 15 potentially inhibitory domains and is of pathophysiological importance for the severe congenital disease Netherton syndrome. Here, we review the as yet known data on protein structure, biochemical properties, genomic organization and gene expression. Furthermore, the relevance of LEKTI for several disorders pointing out its possible future therapeutic value, is discussed.

Human milk provides peptides highly stimulating the growth of bifidobacteria.

The large intestine of breast-fed infants is colonized predominantly by bifidobacteria, which have a protective effect against acute diarrhea. In this study we report for the first time the identification of human milk peptides that selectively stimulate the growth of bifidobacteria. Several bifidogenic peptides were purified chromatographically from pepsin-treated human milk and identified as proteolytically generated fragments from the secretory component of the soluble polyimmunoglobulin receptor and lactoferrin; both of these proteins exhibit antimicrobial effects. Hydrolysis of the identified peptides with the gastrointestinal proteases pepsin, trypsin and chymotrypsin did not lead to the loss of bifidogenic activity, indicating their potential function in vivo. Sequential comparison revealed a similar structural motif within the identified peptides. A correspondingly designed small peptide (prebiotic lactoferrin-derived peptide-I, PRELP-I) was found to stimulate the growth of bifidobacteria as effectively as the native peptides. The combination of antimicrobial and bifidobacterial growth stimulatory activity in human milk proteins leads to highly specific compounds capable of regulating the microbial composition of infants' large intestine.