Rôle du système kallicréine-kinine(s) dans les complications du diabète / Kallikrein-kinin(s) system and diabetic complications

Desposito, Dorinne

04 September 2015

Le système kallicréine-kinine(s) (SKK) est un système peptidique vasomoteur avec des effets multiples et complexes qui dépendent principalement du tissu et des pathologies étudiés. Les kinines activent deux types de récepteurs : le récepteur B1 (RB1) et le récepteur B2 (RB2). L’objectif de mon travail de thèse a été d’étudier les effets de nouveaux agonistes spécifiques des RB1 ou des RB2 dans certaines complications associées au diabète chez la souris. Dans une première partie, nous avons pu montrer que l’administration chronique d’un agoniste spécifique des RB1 ou des RB2 corrige entièrement le défaut de néovascularisation post-ischémique observé chez la souris diabétique notamment en augmentant l’inflammation. Dans un deuxième modèle, nous avons pu montrer que l’activation des RB2 entraîne une désorganisation des couches cutanées et un retard important de cicatrisation chez la souris. En revanche, l’administration d’un antagoniste des RB2 accélère de façon significative la cicatrisation dans deux modèles de diabète. La dernière partie de ce travail a permis de montrer que l’administration chronique des RB2 augmente la mortalité des animaux ayant subit une ischémie cérébrale. Chez la souris diabétique, l’activation des RB1 a des effets neuroprotecteurs puisqu’elle réduit la taille de l'infarctus et les déficits neurologiques après une ischémie cérébrale transitoire. Pour conclure, nous avons pu montrer au cours de ces travaux que l’activation du SKK a des effets contradictoires en fonction des organes étudiés. Ainsi, l’étude de ces nouveaux agonistes des récepteurs des kinines ouvre des nouvelles voies thérapeutiques dans les complications du diabète. / The kallikrein-kinin(s) system (KKS) is a peptide system with various pathophysiological effects. Kinins exert their actions through activation of two different receptor subtypes: B1 receptor (B1R) and B2 receptor (B2R). The aim of my thesis was to study the role of this system in diabetic complications in mice. We used pharmacological approaches using new specific agonists of B1R or B2R, or a specific antagonist of B2R. In the first part, we showed that selective pharmacological activation of B1R or B2R overcomes the effect of diabetes on post-ischemic neovascularization and restores tissue perfusion through inflammation. In a second model, we showed that B2R agonist impairs wound repair in mice, inducing skin disorganization and epidermis thickening. Interestingly, B2R blockade improves skin wound healing in two mouse models of diabetes. In a last part, we showed that B2R activation increases mortality after transient cerebral ischemia. In diabetic mice, B1R activation has neuroprotective effects. Indeed, B1R agonist treatment decreases infarct size and improves neurological deficit at day 2 after transient cerebral ischemia. To conclude, KKS activation has contradictory effects depending on the organs studied. The study of new B1 or B2 kinin receptor agonists opens new therapeutic options in diabetic complications.

Système kallicréine-kinine(s)

Bradykinine

Diabète

Complications vasculaires

Agonistes

Etudes expérimentales

Kallikrein-kinin(s)

Diabetic

571.19

Einfluss mechanischer Dehnung von alveolaren Typ-II-Zellen auf die Bildung von Bradykinin durch das Kallikrein-Kinin-System

Knauth, Jessica

05 September 2019

No description available.

info:eu-repo/classification/ddc/610

ddc:610

Glycosylation of human vaspin (SERPINA12) and its impact on serpin activity, heparin binding and thermal stability

Oertwig, Kathrin, Ulbricht, David, Hanke, Stefanie, Pippel, Jan, Bellmann-Sickert, Kathrin, Sträter, Norbert, Heiker, John T.

06 March 2019

Vaspin is a glycoprotein with three predicted glycosylation sites at asparagine residues located in proximity to the reactive center loop and close to domains that play important roles in conformational changes underlying serpin function. In this study, we have investigated the glycosylation of human vaspin and its effects on biochemical properties relevant to vaspin function. We show that vaspin is modified at all three sites and biochemical data demonstrate that glycosylation does not hinder inhibition of the target protease kallikrein 7. Although binding affinity to heparin is slightly decreased, the protease inhibition reaction is still significantly accelerated in the presence of heparin. Glycosylation did not affect thermal stability.

info:eu-repo/classification/ddc/572

ddc:572

Transcriptional gene silencing of kallikrein 5 and kallikrein 7 using siRNA prevents epithelial cell detachment induced by alkaline shock in an in vitro model of eczema.

Britland, Stephen T., Hoyle, Milli

04 1900

no / Eczema is widely considered to be an exacerbation of alkaline stress to the skin. Epidermal barrier dysfunction is a feature of eczema pathology, which predisposes affected individuals to distressing morbid symptoms. At least two serine proteases, stratum corneum chymotryptic enzyme (kallikrein 7 [KLK7]) and stratum corneum tryptic enzyme (kallikrien 5 [KLK5]), have increased activity levels in eczematous lesions and both have been implicated in the destruction of corneodesomosomes, which are crucial to epidermal integrity. The present in vitro study investigated whether transcriptional gene silencing after siRNA transfection could influence the activity of these signature enzymes in an in vitro model of eczema induced by alkaline shock. HaCaT epithelial cells were subjected to alkaline stress by the addition of 1,1,3,3-tetramethyl guanidine “superbase” (TMG) to the culture media. The culture media were subsequently tested for chymotryspin, trypsin, plasmin, and urokinase activity using colorimetric peptide assays and for reactive oxygen species using WST1 cell viability reagent. Cells that had been transfected with small interfering ribonucleic acid (siRNA) against KLK5 and KLK7 for 24 h before alkaline shock did not exhibit the increase in serine protease levels observed in untreated controls. Moreover, an endpoint MTT assay (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide) confirmed that detachment of cells from the culture substrate observed in alkaline-stressed cells did not occur in siRNA-treated cells. This in vitro study has established the proof-of-principle that siRNA therapy appears to mitigate the consequences of alkaline shock to the serine protease-associated fragility of epithelial cells that is characteristic of eczema.

Role of Tissue Kallikrein-Related Peptidase 6 in Colon Cancer Invasion

Sells, Earlphia

January 2015

Growing evidence indicates that serine proteases known as kallikreins are associated with malignancy and may have potential diagnostic/prognostic applications in cancer. Kallikreins are the largest group of serine proteases. Kallikrein enzymes are often involved in proteolytic cascades through their function in degradation of extracellular matrix proteins and promotion of angiogenesis. Kallikrein 6 (KLK6) is a member of the family of fifteen highly conserved secreted trypsin- or chemotrypsin-like serine proteases. Over-expression of KLK6 has been observed in different pathophysiological states such as neurodegenerative diseases, inflammation and various cancers, including colorectal cancer. In Chapter 3 we elucidated the miRNA-based mechanism of regulation of invasion in metastatic colorectal cancer over-expressing KLK6. We developed HCT116 colon stable isogenic cell lines with knockdown of KLK6 expression using short-hairpin interference RNA (shKLK6 clones). The shKLK6 clones had decreased expression and secretion of KLK6 protein with a minimal effect on cell growth and viability in cell culture. SCID mice injected with shKLK6-3 clone 3 cells exhibited a statistically significant increase in the survival rates (P=0.005), decrease in the incidence of distant metastases and a shift in the location of the metastatic foci closer to the cell's injection site. Levels of KLK6 protein secreted into the bloodstream were significantly lower in animals injected with shKLK6-3 clone 3 compared to HCT116 control clone 1 (P < 0.04). Through bioinformatics analyses we identified and validated three miRNAs, which are important in post-translational modification of bioactive proteins, proliferation, migration and p38 MAPK signaling pathway. In Chapter 4 we developed Caco-2 colon stable isogenic cell lines with expressing enzymatically active or mutant KLK6 protein (Caco-2 stable clones). We employed these cell lines to investigate the importance of KLK6 enzymatic activity of initiation of cell invasion using in vitro and in vivo models.

Kallikrein-related peptidase 6

KLK6 enzyme

microRNA

mRNA

serine protease

Molecular & Cellular Biology

colorectal cancer invasion

Einfluss zyklischer mechanischer Dehnung auf das Kinin-Kallikrein-System in alveolären Typ-II-Zellen der Ratte

Schweinberger, Anna

08 March 2017

Beatmungsbedingte Lungenschäden in der Therapie des akuten Atemnotsyndroms (ARDS) sind aufgrund der inhomogenen Vorschädigung der Lunge praktisch unvermeidbar. Die unphysiologische mechanische Belastung der Lunge führt über Volutrauma, Atelektotrauma und Biotrauma nicht selten zur Exazerbation des Syndroms und trägt zur hohen Mortalität des ARDS bei. Pharmakologische Interventionsmöglichkeiten sind Gegenstand der aktuellen Forschung. Diesbezüglich vielversprechend ist die zentrale Komponente des Kinin-Kallikrein-Systems, namentlich Bradykinin, das über seinen B2-Rezeptor anti-apoptotische Signalwege aktivieren kann und somit zellprotektive Wirkung besitzt. In der vorliegenden Arbeit wurde untersucht, in welcher Weise zyklische mechanische Dehnung die Konzentration einzelner Komponenten des Kinin-Kallikrein-Systems in isolierten alveolären Epithelzellen (Typ II) der Ratte beeinflusst. Dafür wurden die alveolären Typ-II-Zellen auf speziellen BioFlex®-Membranen kultiviert und für 24 Stunden zyklisch mit hoher Dehnungsamplitude gedehnt. Anschließend wurden mit etablierten Analysemethoden in Zellüberständen bzw. Zelllysaten die Konzentrationen von Kininogen 1, Bradykinin und vom B2-Rezeptor gemessen, sowie die Aktivität des Enzyms Kallikrein und des Bradykinin-Abbaus bestimmt - jeweils im Vergleich mit Überständen bzw. Lysaten ungedehnter AT-II-Zellkulturen. Es zeigte sich dehnungs-bedingt eine Zunahme der Bradykinin-Produktion durch Kininogen und Kallikrein und eine stark gesteigerte Bradykinin-abbauende Aktivität, sodass sich der Bradykininspiegel insgesamt verringerte. Die Konzentration des B2-Rezeptors blieb unverändert. Detailliertes Wissen über den Einfluss zyklischer mechanischer Dehnung auf die Einzelkomponenten des Kinin-Kallikrein-Systems ist eine Grundvoraussetzung, um die zellprotektive Wirkung von Bradykinin im Sinne einer pharmakologischen Interventionsmöglichkeit bei ARDS nutzbar machen zu können.

ARDS

zyklische Dehnung

Stress

Volutrauma

Bradykinin

Kinin

Apoptose

VILI

VALI

ARDS

stress

ventilation

bradykinin

kallikrein

apoptosis

ddc:611

Papel do receptor B2 de cininas na terapia da neurodegeneração dopaminérgica em modelo animal / Targeting Kinin-B2 receptors for the treatment of dopaminergic neurodegeneration in an animal mode

Souza, Hellio Danny Nobrega de

13 September 2018

A Doença de Parkinson (DP) é um distúrbio neurodegenerativo, caracterizada em parte pela perda de neurônios dopaminérgicos da via nigroestriatal, originada na substância negra com projeções para o estriado, causando vários déficits motores. Atualmente, o tratamento mais utilizado é a administração de L-DOPA, um análogo da dopamina. Porém, essa droga apresenta eficácia limitada e induz diversos efeitos colaterais. A exploração dos efeitos neuroprotetores, proliferativos e neuroregenerativos da bradicinina (BK) em modelo animal de DP pode conduzir à substituição celular do tecido lesionado pela 6-hidroxidopamina (6-OHDA). De fato, a BK e seus receptores possuem um grande espectro de ações fisiológicas, estando classicamente envolvida no controle da homeostase cardiovascular e inflamação, além de exercer efeitos protetores em fisiopatologias do sistema nervoso, como em modelos de acidente vascular cerebral. Vários tipos celulares têm suas vias de sinalização associadas à ativação do receptor B2 de cininas (B2BKR). Trabalhos anteriores de nosso grupo mostraram que a BK está envolvida na diferenciação neural de células progenitoras neurais por um loop autócrino que resulta em ativação do B2BKR. Os resultados apresentados neste trabalho mostram a eficácia do tratamento com BK, um agonista de B2BKR, em animais submetidos à lesão da via nigro-estriatal induzida por 6-OHDA. Além disso, há uma recuperação comportamental e histológica desses animais quando tratados com Captopril®, um potencializador dos efeitos farmacológicos da BK, e com [Phe8&#936;(CH-NH)Arg9]-Bradicinina, agonista estável do receptor B2BKR. Assim, concluímos que a ativação de B2BKR pela BK desencadeiaum processo de neuroregeneração dopaminérgica de animais submetidos à lesão por 6-OHDA. Trabalhos recentes mostram que o receptor B2BKR desempenha um importante papel neuroprotetor em modelo animal da Doença de Alzheimer, o que corrobora nossos achados. Juntos, esses resultados contribuem para o estabelecimento da ação neuroprotetora e neurorregenerativa da BK no modelo de animal de neurodegeneração dopaminérgica, tornando-a uma excelente candidata para aplicação em terapias de reparo neuronal. / Parkinson\'s disease (PD) is a neurodegenerative disorder partially characterized by the loss of dopaminergic neurons from the nigrostriatal pathway, originated in the substantia nigra with projections to the striatum, which causes several motor deficits. Currently, the most commonly used drug for PD treatment is levodopa. However, it has limited efficacy and induces several side effects. Elucidation of the neuroprotective, proliferative and neuroregenerative effects of bradykinin (BK) in animal models of PD can culminate in cellular replacement of the tissue damaged by 6-hydroxydopamine (6-OHDA). In fact, BK and its receptor have several physiological effects, being classically involved in the control of cardiovascular homeostasis and inflammation. Besides, BK exerts protective effects on nervous system pathophysiology, as observed in stroke models. Several cell types have their signaling pathways associated with the B2 kinin receptor (B2BKR) activation. Previous work from our group showed that BK is involved in differentiation of neural progenitor cells by an autocrine loop that results in activation of B2BKR. The results presented in this thesis show the efficacy of treatment with BK, through B2BKR activation, in animals submitted to nigrostriatal pathway injury induced by 6-OH dopamine. Furthermore, behavioral and histological recoveries of these animals were observed when treated with Captopril®, a potentiator of BK pharmacological effects, and with [Phe8&#936; (CH-NH) Arg9] -BK, a stable agonist of the B2BKR receptor. Thus, we conclude that BK activation of B2BKR triggers neuroregenerative processes in animals submitted to 6- OHDA injury. Recent studies showed that the B2BKR receptor plays an important neuroprotective role in an animal model of Alzheimer\'s disease, which corroboratesour findings. Together, these results contribute to the establishment of the neuroprotective and neuroregenerative actions of BK - an excellent candidate for neural repair therapies.

Doença de Parkinson

Kallikrein-kinin system

Kinin B2 receptors

Neuroregeneração

Neuroregeneration

Parkinson's disease

Receptor B2BkR de cininas

Sistema calicreína-cininas

Caracterização do sistema calicreína-cinina durante o processo ovulatório de bovinos / Characterization of kallikrein-kinin system during the ovulation process in bovine

Ilha, Gustavo Freitas

25 February 2011

Conselho Nacional de Desenvolvimento Científico e Tecnológico / The kallikrein-kinin system (KKS) has been described as an important mediator of physiologic processes. Kallikreins use kininogen (KNG) as substrate to generate bradykinin, the principal active peptide of the KKS which acts through two types of receptors, the B1R and B2R. The objective of this study was to characterize some components of KKS in different compartments of ovary during the ovulation process in bovine. mRNA expression pattern of KNG, B1R and B2R was assessed in theca and granulosa cells and bradykinin concentration and kallikrein-like activity in follicular fluid of bovine peri-ovulatory follicles. In order to obtain a peri-ovulatory follicle (≥ 12mm), twenty-seven cows were submitted to estrus synchronization protocol and ovariectomized by colpotomy at 0, 3, 6, 12 or 24 hours after a GnRH-analog injection (gonadorelin; 100 μg, IM). Follicular fluid was aspirated for enzymatic assays and granulosa and theca cells were harvested for mRNA analysis. The mRNA expressions in follicular cells were evaluated by real-time RT-PCR and data represented as relative to housekeeping gene cyclophilin. Bradykinin concentration and Kallikrein-like activity was measured in follicular fluid by enzymatic immunoassay and selective substrate cleavage, respectively, and the absorbance measured using a plate reader. KNG mRNA expression was similar for both follicular cell types (P>0.05), while B2R expression in theca cells and B1R expression in theca and granulosa cells showed different profiles during peri-ovulatory period (P<0.05). Bradykinin concentration and kallikrein-like activity in follicular fluid were different (P<0.05) according the time during ovulation process. The results provide an important characterization of the presence and possible regulation of KKS during ovulation in bovine. / O sistema calicreína-cinina (KKS) tem sido descrito como um importante mediador de processos fisiológicos. Calicreínas utilizam o cininogênio (KNG) como substrato para formar a bradicinina, que é o principal peptídeo ativo do KKS o qual atua através de dois tipos de receptores, o B1R e B2R. O objetivo deste estudo foi caracterizar os principais componentes do KKS em diferentes compartimentos ovarianos durante o processo ovulatório de bovinos. A expressão de RNAm de KNG, B1R e B2R foi mensurada em células da teca e granulosa, e concentração de bradicinina e atividade de calicreína no fluido folicular de folículos peri-ovulatórios bovinos. Para obter um folículo peri-ovulatório (≥ 12mm), vinte e sete vacas foram submetidas a um protocolo de sincronização de cios e ovariectomizadas por colpotomia 0, 3, 6, 12 ou 24 horas após uma injeção de um análogo ao GnRH (gonadorelina; 100 μg, IM). O fluido folicular foi aspirado para os ensaios enzimáticos e as células da teca e granulosa dissecadas para análise do RNAm. A expressão do RNAm em células foliculares foi avaliada por PCR em tempo real e os dados representados em relação ao gene constitutivo ciclofilina. A concentração de bradicinina e atividade de calicreína foram mensuradas no fluido follicular por imunoensaio enzimático e clivagem de substrato seletivo, respectivamente, e sua absorbância mensurada por leitor de placas. A expressão de RNAm para o KNG não variou em ambos os tipos celulares nos diferentes tempos (P>0,05), enquanto que para B2R a expressão em células da teca e expressão para B1R nas células da teca e granulosa apresentaram diferentes padrões durante o período peri-ovulatório (P<0,05). A concentração de bradicinina e a atividade de calicreína no fluido follicular foram diferentes (P<0,05) de acordo com o tempo durante o processo ovulatório. Estes resultados demonstram que o KKS está presente e há indicativos de sua regulação durante a ovulação em bovinos

Ovulação

Sistema calicreína-cinina

Bradicinina

Ovário

Bovino

Ovulation

Kallikrein-kinin system

Bradykinin

Ovary

Bovine

Papel do receptor B2 de cininas na terapia da neurodegeneração dopaminérgica em modelo animal / Targeting Kinin-B2 receptors for the treatment of dopaminergic neurodegeneration in an animal mode

Hellio Danny Nobrega de Souza

13 September 2018

A Doença de Parkinson (DP) é um distúrbio neurodegenerativo, caracterizada em parte pela perda de neurônios dopaminérgicos da via nigroestriatal, originada na substância negra com projeções para o estriado, causando vários déficits motores. Atualmente, o tratamento mais utilizado é a administração de L-DOPA, um análogo da dopamina. Porém, essa droga apresenta eficácia limitada e induz diversos efeitos colaterais. A exploração dos efeitos neuroprotetores, proliferativos e neuroregenerativos da bradicinina (BK) em modelo animal de DP pode conduzir à substituição celular do tecido lesionado pela 6-hidroxidopamina (6-OHDA). De fato, a BK e seus receptores possuem um grande espectro de ações fisiológicas, estando classicamente envolvida no controle da homeostase cardiovascular e inflamação, além de exercer efeitos protetores em fisiopatologias do sistema nervoso, como em modelos de acidente vascular cerebral. Vários tipos celulares têm suas vias de sinalização associadas à ativação do receptor B2 de cininas (B2BKR). Trabalhos anteriores de nosso grupo mostraram que a BK está envolvida na diferenciação neural de células progenitoras neurais por um loop autócrino que resulta em ativação do B2BKR. Os resultados apresentados neste trabalho mostram a eficácia do tratamento com BK, um agonista de B2BKR, em animais submetidos à lesão da via nigro-estriatal induzida por 6-OHDA. Além disso, há uma recuperação comportamental e histológica desses animais quando tratados com Captopril®, um potencializador dos efeitos farmacológicos da BK, e com [Phe8&#936;(CH-NH)Arg9]-Bradicinina, agonista estável do receptor B2BKR. Assim, concluímos que a ativação de B2BKR pela BK desencadeiaum processo de neuroregeneração dopaminérgica de animais submetidos à lesão por 6-OHDA. Trabalhos recentes mostram que o receptor B2BKR desempenha um importante papel neuroprotetor em modelo animal da Doença de Alzheimer, o que corrobora nossos achados. Juntos, esses resultados contribuem para o estabelecimento da ação neuroprotetora e neurorregenerativa da BK no modelo de animal de neurodegeneração dopaminérgica, tornando-a uma excelente candidata para aplicação em terapias de reparo neuronal. / Parkinson\'s disease (PD) is a neurodegenerative disorder partially characterized by the loss of dopaminergic neurons from the nigrostriatal pathway, originated in the substantia nigra with projections to the striatum, which causes several motor deficits. Currently, the most commonly used drug for PD treatment is levodopa. However, it has limited efficacy and induces several side effects. Elucidation of the neuroprotective, proliferative and neuroregenerative effects of bradykinin (BK) in animal models of PD can culminate in cellular replacement of the tissue damaged by 6-hydroxydopamine (6-OHDA). In fact, BK and its receptor have several physiological effects, being classically involved in the control of cardiovascular homeostasis and inflammation. Besides, BK exerts protective effects on nervous system pathophysiology, as observed in stroke models. Several cell types have their signaling pathways associated with the B2 kinin receptor (B2BKR) activation. Previous work from our group showed that BK is involved in differentiation of neural progenitor cells by an autocrine loop that results in activation of B2BKR. The results presented in this thesis show the efficacy of treatment with BK, through B2BKR activation, in animals submitted to nigrostriatal pathway injury induced by 6-OH dopamine. Furthermore, behavioral and histological recoveries of these animals were observed when treated with Captopril®, a potentiator of BK pharmacological effects, and with [Phe8&#936; (CH-NH) Arg9] -BK, a stable agonist of the B2BKR receptor. Thus, we conclude that BK activation of B2BKR triggers neuroregenerative processes in animals submitted to 6- OHDA injury. Recent studies showed that the B2BKR receptor plays an important neuroprotective role in an animal model of Alzheimer\'s disease, which corroboratesour findings. Together, these results contribute to the establishment of the neuroprotective and neuroregenerative actions of BK - an excellent candidate for neural repair therapies.

Doença de Parkinson

Neuroregeneração

Receptor B2BkR de cininas

Sistema calicreína-cininas

Kallikrein-kinin system

Kinin B2 receptors

Neuroregeneration

Parkinson's disease

Human prostate-specific antigen and glandular kallikrein 2:production and characterization of the recombinant proteins, and association with prostate cancer

Herrala, A. (Annakaisa)

06 September 2002

Abstract Human prostate-specific antigen (hPSA, KLK3) and glandular kallikrein 2 (hK2, KLK2), two members of a large human tissue kallikrein enzyme family, were produced as recombinant mature proteins for the first time and characterized. Furthermore, their association with prostate cancer was studied. Both proteins were produced with baculovirus expression vector system in pilot-scale using bioreactors. Recombinant hPSA was either active with chymotrypsin-like activity or inactive with incorrect processing of N-terminus. The molecular weight of active recombinant hPSA was 31 kD and it formed stable complexes with serine protease inhibitors, α1-antichymotrypsin (ACT) and α2-macroglobulin (2αM). Two polymorphic forms of KLK2, Arg226hK2 and Trp226hK2, were found. The recombinant Arg226hK2 had trypsin-like activity, while recombinant Trp226hK2 was inactive. The Arg226hK2 was labile with low production yields. The molecular weights of hK2 polymorphic forms were 33 kD. hPSA isoforms secreted by prostate cancer cells, LNCaP, were isolated and characterized. These proteins were N-terminally heterogeneous: 10-60% of LNCaP-PSAs were correctly processed. Molecular modeling suggested that the additions or deletions of two or four N-terminal amino acids could affect the three-dimensional structure and reduce the activity of LNCaP-PSA. Active isoforms had chymotrypsin-like activity and formed stable complexes with ACT and 2αM. The expression of hPSA and hK2 was studied with in situ hybridization and immunohistochemistry techniques in benign and cancerous prostate tissue. hK2 mRNA was expressed at a significantly higher level in prostate cancer tissue than in benign prostate tissue (P &lt; 0.0005). The hPSA mRNA expression levels were reversed (P = 0.06). In benign tissue, the mean level of hK2 mRNA was 82% of the respective value of hPSA (P &lt; 0.003), whereas in tumor tissue the mean hK2 expression level was 21% higher than that of hPSA (P &lt; 0.01). The results at protein level supported the mRNA findings. There was a correlation between hPSA and hK2 mRNA levels in both benign (r = 0.735; P &lt; 0.01) and malignant (r = 0.767; P &lt; 0.01) prostate tissue. It was shown with competitively differential PCR that the KLK2 gene was amplified in prostate tumor tissue, while the KLK3 gene was not. These results suggest that hK2 and hPSA have a diverse value in the diagnosis of prostate cancer.

gene amplification

prostate-specific antigen

prostate-specific glandular kallikrein 2

prostatic hyperplasia

prostatic neoplasms

recombinant proteins

tissue kallikreins