Kallikrein-related peptidase 14 is the second KLK protease targeted by the serpin vaspin

Ulbricht, David, Tindall, Catherine A., Oertwig, Kathrin, Hanke, Stefanie, Sträter, Norbert, Heiker, John T.

27 January 2020

Kallikrein-related peptidases KLK5, KLK7 and KLK14 are important proteases in skin desquamation and aberrant KLK activity is associated with inflammatory skin diseases such as Netherton syndrome but also with various serious forms of cancer. Previously, we have identified KLK7 as the first protease target of vaspin (Serpin A12). Here, we report KLK14 as a second KLK protease to be inhibited by vaspin. In conclusion, vaspin represents a multispecific serpin targeting the kallikrein proteases KLK7 and KLK14, with distinct exosites regulating recognition of these target proteases and opposing effects of heparin binding on the inhibition reaction.

info:eu-repo/classification/ddc/572

ddc:572

Vzájemné interakce mezi nádorovým mikroprostředím a kalikreinovými proteázami v myším modelu karcinomu mléčné žlázy / The tumor immune microenvironment and its crosstalk with kallikrein-related peptidases in mammary carcinoma of a mouse model

Šlaufová, Marta

January 2021

Breast cancer is the most common cancer type with a high annual death rate. Finding meaningful tissue-related or body-fluid-accessible biomarkers is necessary to characterize cancer subtype, predict tumor behavior, choose the most effective therapy, predict severe treatment-related toxicities, and also the opportunity to personalize treatments for each patient. There is increasing evidence that various kallikrein-related peptidases (Klk) gene family members can modulate the immune response and are differentially regulated in breast cancer, and therefore are proposed to be potential prognostic biomarkers. This work established and validated an experimental setup to study the roles of selected kallikrein-related peptidases (KLK5, KLK7, KLK14) in breast cancer in vivo using gene-deficient mouse models previously generated in our laboratory. We used the CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats) editing system to generate several E0771 cell line-based reporter and gene-deficient cell lines. These allowed enhanced monitoring of cancer progression in vivo and studying KLKs roles in tumor immune microenvironment of C57Bl/6N mice. Finally, we present the analysis of the initial in vivo experiments using these tools combined with established Klk-deficient mouse models. Our...

Angiotensin-(1-7)/Mas Axis Compensates Absent Bradykinin in <i>Bdkrb2^-/-</i> and <i>Klkb1^-/-</i> Mice to Regulate Thrombosis Risk

Fang, Chao

21 February 2014

No description available.

Biomedical Research

Pathology

Physiology

kallikrein-kinin system KKS

renin-angiotensin system RAS

contact activation

Mas

thrombosis

prekallikrein

bradykinin B2 receptor

prostacyclin

platelets

Basic Residues of β-Sheet A Contribute to Heparin Binding and Activation of Vaspin (Serpin A12)

Ulbricht, David, Oertwig, Kathrin, Arnsburg, Kristin, Saalbach, Anja, Pippel, Jan, Sträter, Norbert, Heiker, John T.

06 March 2019

Many members of the serine protease inhibitor (serpin) family are activated by glycosaminoglycans (GAGs). Visceral adipose tissue-derived serpin (vaspin), serpin A12 of the serpin family, and its target protease kallikrein 7 (KLK7) are heparin-binding proteins, and inhibition of KLK7 by vaspin is accelerated by heparin. However, the nature of GAG binding to vaspin is not known. Here, we measured vaspin binding of various glycosaminoglycans and low molecular weight heparins by microscale thermophoresis and analyzed acceleration of protease inhibition by these molecules. In addition, basic residues contributing to heparin binding and heparin activation were identified by a selective labeling approach. Together, these data show that vaspin binds heparin with high affinity (KD = 21 ± 2 nm) and that binding takes place at a basic patch on top of β-sheet A and is different from other heparin-binding serpins. Mutation of basic residues decreased heparin binding and activation of vaspin. Similarly, reactive center loop insertion into sheet A decreased heparin binding because it disturbs the basic cluster. Finally, using vaspin-overexpressing keratinocyte cells, we show that a significant part of secreted vaspin is bound in the extracellular matrix on the cell surface. Together, basic residues of central β-sheet A contribute to heparin binding and activation of vaspin. Thus, binding to GAGs in the extracellular matrix can direct and regulate vaspin interaction with target proteases or other proteins and may play an important role in the various beneficial functions of vaspin in different tissues.

info:eu-repo/classification/ddc/572

ddc:572

Kallikrein Gene Regulation in Hormone-Dependent Cancer Cell Lines

Myers, Stephen Anthony

January 2003

Hormone-dependent cancers (HDCs), such as those of the prostate, ovary, breast and endometrium, share characteristics that indicate similar underlying mechanisms of carcinogenesis. Through steroid hormone signalling on "down-stream" target genes, the growth, development and progression of HDCs are regulated. One such family of target genes, highly expressed in HDCs and regulated by steroid hormones, are the tissue kallikreins (KLKs). The KLKs are a multigene family of serine proteases involved in physiological processes such as blood pressure regulation, inflammation, and tumour development and progression via the hydrolysis of specific substrates. Although the KLK gene family is clearly implicated in tumourigenesis, the precise roles played by these genes are largely unknown. Additionally, except for the androgen-responsive genes, KLK2 and KLK3, the mechanisms underlying their hormonal regulation in HDCs are yet to be identified. The initial focus of this thesis was to examine the regulation of the kallikreins, KLK1 and KLK4, by estradiol and progesterone in endometrial and breast cancer cell lines. From these studies, progesterone clearly regulated KLK4 expression in T47D cells and therefore, the focus of the remaining studies was to further examine this regulation at the transcriptional level. An overview of the results obtained is detailed below. Human K1 and hK4 protein levels were increased by 10 nmol/L estradiol benzoate, progesterone, or a combination of the two, over 48 hours in the endometrial cancer cell line, KLE. However, these same treatments resulted in no change in KLK1 gene or hK1 protein levels in the endometrial cancer cell lines, HEC1A or HEC1B (only hK1 analysed). Progesterone treatment (0-100 nmol/L) over 24 hours resulted in a clear increase in KLK4 mRNA at the 10 nmol/L dose in the breast cancer cell line, T47D. Additionally, treatment of T47D cells with 10 nmol/L progesterone over 0-48 hr, resulted in the rapid expression of the hK4 protein at 2 hr which was sustained for 24 hr. Further analysis of this latter progesterone regulation with the antiprogesterone, RU486, over 24 hours, resulted in an observable decrease in hK4 levels at 1 µmol/L RU486. Although the estrogen and progesterone regulation of the hK1 protein was not further analysed, the data obtained for hK4 regulation in T47D cell lines, supported the premise that this gene was progesterone-responsive. The rapid expression of hK4 protein by progesterone at two hours suggests that KLK4 transcription is directly coupled to progesterone regulation, perhaps through progesterone receptor (PR) binding to progesterone-responsive regions within the KLK4 promoter or far "up-stream" regions. Thus, the following further studies were performed. To test this hypothesis, the transcription initiation site (TIS) and 5' flanking regions of the KLK4 gene in T47D cells were interrogated. Primer extension and 5' RACE identified the TIS 78 bp 5' of the putative ATG site for translation as identified by Korkmaz et al. (2001). This KLK4 gene transcript consists of only four exons, and thus excludes the pre/pro signal peptide. Although a TATA-box is not present within -25 to -30 bp 5' of the identified TIS, a number of consensus binding motifs for Sp1 and estrogen receptor half-sites were identified. It is possible that the Sp1 sites are involved in the basal levels of transcription for this gene. Additionally, a putative progesterone response element (PRE) was identified in the far "up-stream" regions of the KLK4 gene. Basal levels of transcription were observed within the KLK4 proximal promoter region when coupled to a luciferase reporter gene and transfected into T47D cell lines. Additionally, the KLK4 proximal promoter region did not induce the luciferase reporter gene expression when progesterone was added to the system, however, estradiol was inhibitory for luciferase gene expression. This suggests that the proximal promoter region of the KLK4 gene could contain functional EREs but not PREs. In keeping with this hypothesis, some ER half-sites were identified, but PR sites were not obvious within this region. The identified PRE in the far "up-stream" region of the KLK4 gene assembled the progesterone receptor in vitro, and in vivo, as assessed by electromobility shift assays and chromatin immunoprecipitation assays (EMSAs and ChIPs), respectively. The binding of the PR to the KLK4 PRE was successfully competed out by a PR antibody and not by an androgen receptor antibody, and thus confirms the specificity of the KLK4 PRE-PR complex. Additionally, the PR was recruited and assembled onto and off the progesterone-responsive KLK4 region in a cyclic fashion. Thus, these data strongly suggest that the PR represents one of the core components of a transcription complex for the KLK4 gene, and presumably also contributes to the expression of this gene. Moreover, these data suggest a functional coordination between the PR and the KLK4 progesterone-responsive region in T47D cells, and thus, provide a model system to further study these events in vivo.

Kallikreins (KLKs)

Kallikrein 1 and 4 genes (KLK1

KLK4)

Human Kallikrein 1 and 4 protein (hK1

hK4)

Hormonal Regulation

Estrogen

Progesterone

Progesterone Receptor (PR)

Promoter

Transcription Initiation Site (TIS)

Hormone Response Elements (HREs)

Progesterone Response Elements (PREs)

Reporter Gene Assays

Electromobility Shift Assay (EMSA)

Μελέτη του μηχανισμού φαρμακολογικής ρύθμισης του γονίδιου της καλλικρεϊνης 6 και ανάλυση της μεθυλίωσης DNA για ανάπτυξη διαγνωστικών / Μechanisms of pharmacological modulation of human kallikrein 6 gene expression and analysis of DNA methylation for diagnostic applications/development of diagnostics

Παμπαλάκης, Γιώργος

22 June 2007

Στην παρούσα διδακτορική διατριβή δείχθηκε ότι το γονίδιο της ανθρώπινης καλλικρεΐνης 6 μπορεί να ενεργοποιηθεί φαρμακολογικά σε καρκινικές κυτταρικές σειρές μαστού και μελετήθηκε ο μοριακός μηχανισμός της ενεργοποίησης. Το cDNA της ανθρώπινης καλλικρεΐνης 6 αρχικά κλωνοποιήθηκε με την τεχνική της διαφορικής παράθεσης των mRNAs βάσει της υπερέκφρασης σε πρωτοπαθή όγκο μαστού σε σχέση με την πλήρη αποσιώπηση στην μετάστασή του στον πνεύμονα, καθώς και στις περισσότερες μεταστατικές καρκινικές σειρές μαστού και δείγματα ιστών. Λόγω της καταστολής της έκφρασής της σε μεταστατικούς όγκους του μαστού, θεωρήθηκε ότι η κωδικοποιούμενη πρωτεΐνη (hK6)-μια νέα σερινοπρωτεάση- θα μπορούσε να έχει ογκοκατασταλτική δράση. Πρόσφατα δεδομένα δείχθουν ότι η hK6 αντιπροσωπεύει έναν νέο μοριακό δείκτη του καρκίνου, αφού αυξημένες συγκεντρώσεις της στον ορό είναι διαγνωστικές για τον καρκίνο των ωοθηκών και μπορούν να χρησιμοποιηθούν για την παρακολούθηση της θεραπευτικής αγωγής. Οι φυσιολογικές λειτουργίες της hK6 δεν έχουν βρεθεί. Πρόσφατα, αλλαγές στην έκφραση του γονιδίου KLK6 έχουν συσχετιστεί με την παθογένεση των πιο κοινών νευροεκφυλιστικών νόσων, όπως Alzheimer’s και Parkinson’s. Σημαντικό, είναι το γεγονός της αποικοδόμησης της μυελίνης από την hK6, που πιστοποιεί την συμμετοχή της στην σκλήρυνση κατά πλάκας. Για τους παραπάνω λόγους η hK6, καθώς και το γονίδιο KLK6 αποτελούν ένα σημαντικό θεραπευτικό στόχο. Στην παρούσα εργασία, δείχθηκε ότι οι μηχανισμοί που ρυθμίζουν την μεταγραφή καθώς και την ιστο-εξειδικευμένη έκφραση του γονιδίου KLK6 περιλαμβάνουν την δραστικότητα δύο υποκινητών. Επίσης κλωνοποιήθηκαν νέες ισομορφές του γονιδίου που προκύπτουν από εναλλακτικό μάτισμα και αντιστοιχούν στο 10-20% των KLK6 mRNAs. Προηγούμενη έρευνα δεν είχε παρατηρήσει εκτεταμένες γονιδιωματικές αλλαγές σε καρκινικούς όγκους στην γενετικό τόπο 19q13.4 που εδρεύει το γονίδιο KLK6, και σε συνδυασμό με την πιθανή ογκοκατασταλτική δράση της hK6, διερευνήθηκε η συμμετοχή επιγενετικών μηχανισμών στην αποσιώπηση της έκφρασης του γονιδίου KLK6. Κατεργασία των καρκινικών κυτταρικών σειρών μαστού T47D και MDA-MB-231 με το απομεθυλιωτικό αντιδραστήριο 5-αζα-2΄-δεοξυκυτιδίνη επανενεργοποίησε την έκφραση του γονιδίου KLK6. Η τριχοστατίνη Α, αναστολέας των αποακετυλασών των ιστονών, επανενεργοποίησε την έκφραση KLK6 μόνο στα MDA-MB-231 κύτταρα. Επίσης, βρήκαμε ότι η καταστολή της έκφρασης KLK6 στις καρκινικές κυτταρικές σειρές μαστού συνδέεται με την μεθυλίωση συγκεκριμένων δινουκλεοτιδικών αλληλουχιών CpGs που βρίσκονται στον εγγύς υποκινητή του γονιδίου και σε θέσεις πρόσδεσης του μεταγραφικού παράγοντα Sp1. Η αποσιώπηση της έκφρασης λαμβάνει χώρα με την πρόσδεση του εξαρτώμενου από μεθυλίωση μεταγραφικού καταστολέα MeCP2 και την δημιουργία ετεροχρωματινικής δομής λόγω αποακετυλίωσης των ιστονών. Επειδή η επιγενετική αποσιώπηση του γονιδίου KLK6 υποδηλώνει ογκοκατασταλτικό ρόλο στον καρκίνο του μαστού, διαμολύνθηκε σταθερά το KLK6 cDNA στην μεταστική σειρά MDA-MB-231 με σκοπό τη διαπίστωση του πιθανού αυτού ρόλου. Τα σταθερά διαμολυσμένα κύτταρα που προέκυψαν, είχαν μικρότερο ρυθμό πολλαπλασιασμού, ενώ δεν μπορούσαν να σχηματίσουν αποικίες σε μαλακό άγαρ. Συμπερασματικά στην παρούσα διατριβή δείχθηκε ότι το γονίδιο KLK6 αποτελεί πιθανό ογκοκατασταλτικό γονίδιο, που αποσιωπάται σε καρκινικές σειρές μαστού μέσω μεθυλίωσης του γονιδιωματικού DNA, καθώς και δημιουργίας ετεροχρωματινικής δομής στον εγγύς υποκινητή του. Η φαρμακολογική ενεργοποίηση της έκφρασης του γονιδίου KLK6 μέσω επιγενετικών φαρμάκων, είναι πιθανό να ανοίξει νέους δρόμους για την αντιμετώπιση του καρκίνου του μαστού. / In the present thesis it was shown that the human kallikrein 6 gene is pharmacologically modulated in breast cancer cell lines and the molecular mechanism accounting for the modulation was analyzed. The cDNA encoding human kallikrein 6 (protease M) was originally cloned by mRNA differential display as being over expressed in a primary breast tumor but completely inactivated in its lung metastasis, and in the majority of metastatic breast cancer cell lines and tissue specimens. Based on this expression pattern, it was suggested that the encoded protein (hK6)-a novel serine protease-could play a suppressor role in cancer progression. Recent evidence suggests that hK6 represents a novel cancer biomarker, since elevated serum concentrations of hK6 are diagnostic of ovarian cancer and can be exploited for monitoring therapeutic response to treatment. The physiological function(s) of hK6 have not been elucidated. Recently, aberrant expression of the KLK6 gene has been implicated in the pathogenesis of most common neurodegenerative disorders, such as Alzheimer’s and Parkinson’s disease. In addition, hK6 is involved in enhanced proteolysis of myelin basic protein associated with multiple sclerosis. Therefore, hK6 and KLK6 gene, represent potential therapeutic targets for pharmacological intervention. In the present study, we have shown that the mechanisms regulating KLK6 transcription and tissue-specific expression involve the action of two different promoters. Also, new KLK6 splice variants were cloned, and shown to account for 10-20% of all KLK6 mRNA species. Previous study had shown no gross genomic alterations in tumor speciments in the KLK6 genomic locus 19q13.4, and in accordance with putative tumor suppressor activity the involvement of epigenetic mechanisms in KLK6 gene silencing in breast cancer was studied. Treatment of KLK6-negative T47D and MDA-MB-231 human breast cancer cell lines with the demethylating agent 5-aza-2\\\\\\\\

Μεθυλίωση DNA

Δομή χρωματίνης

Επιγενετική ρύθμιση

Επιγενετικά φάρμακα

Καρκίνος μαστού

572.8

human kallikrein 6 (KLK6)

DNA methylation

Chromatin structure

Epigenetic regulation

Breast cancer

Epigenetic drugs

Functional analyses of polymorphisms in the promoters of the KLK3 and KLK4 genes in prostate cancer

Lai, John

January 2006

This PhD aimed to elucidate the mechanisms by which polymorphisms may alter androgen-induced transactivation of androgen receptor (AR) target genes which may be important in prostate cancer aetiology. The second aspect of this PhD focused on identifying and characterising functional polymorphisms that may have utility as predictive risk indicators for prostate cancer and which may aid in earlier therapeutic intervention and better disease management. Analyses were carried out on the kallikrein-related peptidase 3 (KLK3), also known as the prostate specific antigen (PSA), gene and the kallikrein-related peptidase 4 (KLK4) gene. The PSA and KLK4 genes are part of the serine protease family that have trypsin or chymotrypsin like activity and are thought to play a role in the development of hormone-dependent cancers in tissues such as those in the prostate, breast, endometrium and ovaries. In the prostate, PSA is regulated by androgens and three androgen response elements (AREs) have been described in the promoter and upstream enhancer region. The PSA ARE I harbours a polymorphism at -158 bp from the transcription initiation site (TIS) that results in a G to A transition (G-158A). This PhD investigated the functional significance of the PSA G-158A polymorphism which has been reported to be associated with prostate cancer risk. Electromobility shift assays (EMSAs) investigating the interaction of ARE I variants with the AR DNA binding domain (AR-DBD) demonstrated that the A allele had a two-fold increased binding affinity for the AR-DBD when compared with the G allele. This was confirmed with endogenous AR in limited proteolysis-EMSA experiments. The limited proteolysis-EMSA experiments also demonstrated differential sensitivities of PSA ARE I alleles to trypsin digestion, which suggests that the G-158A polymorphism has an allosteric effect on the AR that alters AR/ARE I complex stability. Furthermore, Chromatin Immunoprecipitation (ChIP) assays suggest that the A allele more readily recruited the AR in vivo when compared with the G allele and is consistent with the in vitro binding data. Luciferase reporter assays carried out in both LNCaP and 22Rv1 prostate cancer cells, and using the natural (dihydrotestosterone; DHT) ligand demonstrated that the A allele was more responsive to androgens in LNCaP cells. Hence, this study has elucidated the potential mechanisms by which the G-158A polymorphism may differentially regulate PSA expression (of which up-regulation of PSA is thought to be important in prostate cancer development and progression). KLK4 has similar tissue-restricted expression as PSA and is up-regulated by steroid hormones in many endocrine cells including those in the prostate. A putative ARE (KLK4-pARE) located at -1,005 to -1019 relative to the more predominantly used transcription initiation site, TIS3, was initially found in supershift assays using AR antibodies to interact with endogenous AR. However, subsequent EMSA analysis using purified AR-DBD suggest that KLK4-pARE may be interacting with the AR indirectly. To investigate this hypothesis, a tandem construct of KLK4-pARE was cloned into the pGL3-Promoter vector for hormone-induced reporter assays. However, reporter assays did not demonstrate any responsiveness of KLK4-pARE to androgens, estradiol or progestins. Consequently, Real-Time PCR was carried out to reassess the hormonal regulation of KLK4 at the mRNA level. Consistent with the literature, data from this study suggests that KLK4 may be up-regulated by androgens, progestins and estradiol in a cyclical manner. Hormone-induced luciferase reporter assays were then carried out on seven promoter constructs that span 2.8 kb of the KLK4 promoter from TIS3. However, none of the seven promoter constructs demonstrated any significant responsiveness to androgens, estradiol or progestins. This study suggests that hormone response elements (HREs) that may drive the hormonal regulation of KLK4 in prostate cancer may be located further upstream from the promoter region investigated in this PhD, or alternatively, may lie 3' of TIS3. The characterisation of KLK4 promoter polymorphisms and their flanking sequences were also carried out in parallel to the functional work with the intent to assess the functional significance of any polymorphisms that may be located within HREs. In total 19 polymorphisms were identified from the public databases and from direct sequencing within 2.8 kb of the KLK4 promoter from TIS3. However, the functional and clinical significance of these 19 polymorphisms were not further pursued given the negative findings from the functional work. The PSA AR enhancer region was also assessed for potential polymorphisms that may be associated with prostate cancer risk. A total of 12 polymorphisms were identified in the PSA enhancer of which two (A-4643G and T-5412C) have been reported to alter functionality of the enhancer region and thus, prioritised for further analysis. Association analysis for prostate cancer risk was then carried out on these PSA enhancer polymorphisms as none of the KLK4 promoter polymorphisms were found in functional HREs. No significant association for either the A-4643G or T-5412C polymorphism with prostate cancer risk was found at the P = 0.05 level. However, under an age-adjusted dominant model a 1.22- (95% CI = 1.16-1.26) and 1.23-fold (95% CI = 1.17-1.29) increased risk for prostate cancer was found for the A-4643G or T-5412C polymorphisms, respectively. Both polymorphisms were also assessed for association with tumour grade and stage and PSA levels. Genotypes were significantly different for the A-4643G and T-5412C polymorphisms with tumour stage and PSA levels, respectively. However, these results are likely to be biased by the case population which consist primarily of men who presented with incidental (pT1) and organ-confined (pT2) tumours. To summarise, the A-4643G and T-5412C polymorphisms are unlikely to be associated with prostate cancer risk, PSA levels or stage/grade of disease. However, further analyses in a larger cohort is warranted given that these polymorphisms alter androgen responsiveness of the PSA enhancer and that elevated PSA levels are indicative of men with prostate cancer. To summarise, this PhD has elucidated the functional significance of the PSA G-158A polymorphism in prostate cancer and which may be important in prostate cancer patho-physiology. This PhD has also furthered the understanding of the hormonal regulation of KLK4 in prostate cancer cells. Finally, this PhD has carried out a pilot study on two functional PSA enhancer polymorphisms (A-4643G and T-5412C) with prostate cancer risk.

prostate cancer

single nucleotide polymorphism (SNP)

kallikreins (KLKs)

kallikrein 4 (KLK4)

prostate specific antigen (PSA)

androgens

hormones

androgen receptor (AR)

androgen response element (ARE)

electromobility shift assay (EMSA)

luciferase reporter assay

Rôle et mécanisme d’action du récepteur B1 des kinines dans la rétinopathie diabétique et la dégénérescence maculaire liée à l’âge

Othman, Rahmeh

04 1900

Le système kallicréine-kinines est un système peptidergique complexe impliqué dans les processus inflammatoires, le contrôle du tonus et de la perméabilité vasculaire. Les effets biologiques des kinines sont accomplis par l’intermédiaire de deux types de récepteurs couplés aux protéines G, soit le récepteur B1 (B1R) et le récepteur B2 (B2R). Alors que le B2R est un récepteur constitutif, le B1R est faiblement exprimé en situation physiologique; il est induit par le stress oxydatif, les cytokines pro-inflammatoires (interleukine-1β (IL-1β) et le facteur de nécrose tumorale-α (TNF-α)) ou par des endotoxines bactériennes à la fois au niveau systémique et local, notamment dans la rétine. Des études récentes de notre laboratoire ont montré l’implication du B1R dans la pathogenèse et la progression de la rétinopathie diabétique et de la dégénérescence maculaire liée à l’âge (DMLA). Les objectifs des travaux présentés dans cette thèse consistent à déterminer : 1) le mécanisme par lequel le B1R est impliqué dans la rétinopathie diabétique chez le rat; 2) l’implication de la iNOS en aval dans la cascade inflammatoire activée par le B1R; 3) l’expression et la localisation cellulaire du B1R dans les rétines humaines atteintes de DMLA exsudative et atrophique. Nos résultats ont permis de démontrer une implication du B1R dans la rétinopathie diabétique via l’activation de l’enzyme de synthèse du monoxyde d’azote inductible (iNOS) dans un modèle de diabète de type 1 induit par la streptozotocine (STZ) chez le rat. En plus de sa localisation généralisée dans toute la rétine, le B1R est exprimé dans la couche de l’épithélium pigmentaire qui forme la barrière hémato-rétinienne externe. Les taux d’expression (protéique et ARNm) du B1R, de la iNOS, de la carboxypeptidase M (impliquée dans la biosynthèse des agonistes B1R), de l'IL-1β, du TNF-α, du facteur de croissance de l'endothélium vasculaire A (VEGF-A) et de son récepteur, le VEGF-R2, ainsi que des protéines nitrosylées augmentent à deux semaines dans la rétine diabétique. Ces augmentations ainsi que l’hyperperméabilité vasculaire rétinienne induite par le diabète et par l’injection intravitréenne d’un agoniste du B1R (R-838) sont bloquées par un inhibiteur de la iNOS (1400W) appliqué topiquement à la surface de l’œil pendant 1 semaine (premier article). Les résultats du deuxième article montrent une augmentation significative de l'immunoréactivité du B1R dans les rétines humaines prélevées de patients atteints de DMLA exsudative. Toutefois, les changements d’immunoexpression du B1R ne sont pas significatifs dans les rétines des patients atteints de DMLA atrophique. La réactivité des cellules gliales est plus marquée dans la forme exsudative que dans la forme atrophique de DMLA. Une colocalisation du B1R est observée avec des marqueurs des cellules de Müller, des astrocytes, de la microglie, de la iNOS et de la fibrose, suggérant une implication du B1R dans le processus inflammatoire et la formation de fibrose dans la DMLA exsudative. En revanche, l’expression du B2R demeure stable dans les rétines de DMLA exsudative et atrophique par rapport aux rétines témoins; ce résultat ne supporte pas la possibilité que ce récepteur puisse être impliqué dans la DMLA chez l’humain. / The kallikrein-kinins system is a peptidergic system involved in inflammatory processes, the control of the vascular tone and permeability. These effects are mediated by two G proteincoupled receptors, the Bradykinin type 1 (B1R) and type 2 (B2R) receptors. While the B2R is a constitutive receptor, B1R is almost undetectable in physiological condition; it is, however, induced by oxidative stress, pro-inflammatory cytokines (interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α)) or by bacterial endotoxins at both systemic and local levels, notably in the retina. Recent studies from our laboratory supported an implication of B1R in the pathogenesis and progression of diabetic retinopathy and age-related macular degeneration (AMD). This thesis aims at unraveling: 1) the mechanism by which B1R is involved in diabetic retinopathy in rats; 2) the involvement of iNOS in the inflammatory cascade downstream to the B1R; and, 3) the expression and cellular localization of B1R in human retinae with exudative and atrophic AMD. Our results have shown the implication of B1R in diabetic retinopathy via the activation of the inducible nitric oxide synthase (iNOS) in a type 1 model of diabetes induced by streptozotocin (STZ) in rats. In addition to its generalized localization throughout the retina, B1R is expressed in the retinal pigment epithelium which forms the outer blood-retinal barrier. The protein and transcript expression of inflammatory markers; iNOS, carboxypeptidase M, IL-1β, TNF-α, vascular endothelium growth factor A (VEGF-A) and its receptor, VEGF-R2, including B1R as well as nitrosylated proteins are increased in the retina of diabetic rats at 2 weeks post-STZ. These upregulations, as well as the retinal vascular hyperpermeability induced by diabetes and by the intravitreal injection of an B1R agonist (R-838) are blocked by a topical one-week treatment by eye-drop with the selective iNOS inhibitor (1400W) (first manuscript). The results of the second manuscript show significant increases in the immunoreactivity of B1R in exudative AMD retinae. Despite a slight increase, B1R immunostaining does not reach statistical significance in the retina of donors with atrophic AMD. The reactivity of glial cells is more impressive in the exudative than in the atrophic form of AMD. B1R is co-expressed with markers of Müller cells, astrocytes, microglia, iNOS and fibrosis, suggesting an involvement of B1R in the inflammatory events and the formation of fibrosis in exudative AMD. On the other hand, the expression of B2R remains stable in the retinae of exudative and atrophic AMD, supporting a secondary role of this receptor in AMD in humans.

Système kallicréine-kinines

Récepteur B1 des kinines

Rétinopathie diabétique

Kallikrein-kinins system

Bradykinin type 1 receptor

Inducible nitric oxide synthase

Diabetic retinopathy

Age-related macular degeneration

Charakterizace role SPINK 6 v epidermis za použití transgenních modelů / Characterization of the role of SPINK 6 in the epidermis using transgenic models

Buryová, Halka

January 2011

Epidermal homeostasis, including proper turnover of keratinocytes, plays important role in the barrier function and serine proteases and their inhibitors are the key players. Activated proteases cleave desmosomes in uppermost layer and thus shed the cells from the epidermal surface. Therefore the serine protease inhibitors are secreted in lower epidermal layers to prevent premature activation of proteases and consequent disruption of epidermal barrier. The most studied inhibitors in epidermis belong to Serine proteases inhibitors Kazal-type family (SPINK). This diploma thesis is aimed to investigate function of murine SPINK6 in epidermal compartment in vivo. To achieve this, the transgenic mice overexpressing mSPINK6 under modified human involucrin promoter was generated. Two of five transgenic lines exhibited higher expression of mSPINK6 at mRNA and protein levels. The mSPINK6 transgenic mice are viable with no apparent phenotype. The small but in most cases not significant differences were observed on microscopic level among mSPINK6 transgenic and wild type animals In conclusion, this work showed that mSPINK6 does not play major role in skin homeostasis but gains significant importance under specific challenges of epidermal barrier. Therefore mSPINK6 transgenic mice, in combination with other deletion or...

A unique serpin P1′ glutamate and a conserved β-sheet C arginine are key residues for activity, protease recognition and stability of serpinA12 (vaspin)

Ulbricht, David, Pippel, Jan, Schultz, Stephan, Meier, René, Sträter, Norbert, Heiker, John T.

06 March 2019

SerpinA12 (vaspin) is thought to be mainly expressed in adipose tissue and has multiple beneficial effects on metabolic, inflammatory and atherogenic processes related to obesity. KLK7 (kallikrein 7) is the only known protease target of vaspin to date and is inhibited with a moderate inhibition rate. In the crystal structure, the cleavage site (P1-P1′) of the vaspin reactive centre loop is fairly rigid compared with the flexible residues before P2, possibly supported by an ionic interaction of P1′ glutamate (Glu379) with an arginine residue (Arg302) of the β-sheet C. A P1′ glutamate seems highly unusual and unfavourable for the protease KLK7. We characterized vaspin mutants to investigate the roles of these two residues in protease inhibition and recognition by vaspin. Reactive centre loop mutations changing the P1′ residue or altering the reactive centre loop conformation significantly increased inhibition parameters, whereas removal of the positive charge within β-sheet C impeded the serpin–protease interaction. Arg302 is a crucial contact to enable vaspin recognition by KLK7 and it supports moderate inhibition of the serpin despite the presence of the detrimental P1′ Glu379, which clearly represents a major limiting factor for vaspin-inhibitory activity. We also show that the vaspin-inhibition rate for KLK7 can be modestly increased by heparin and demonstrate that vaspin is a heparin-binding serpin. Noteworthily, we observed vaspin as a remarkably thermostable serpin and found that Glu379 and Arg302 influence heat-induced polymerization. These structural and functional results reveal the mechanistic basis of how reactive centre loop sequence and exosite interaction in vaspin enable KLK7 recognition and regulate protease inhibition as well as stability of this adipose tissue-derived serpin.

info:eu-repo/classification/ddc/572

ddc:572