Análise de miRNAs envolvidos na regulação da MMP9 e consequências no processo de invasão celular do adenocarcinoma da próstata: estudo in vivo e in vitro / Analysis of miRNAs involved in the regulation of MMP9 and its consequences to cell invasion of prostate cancer: in vivo and in vitro study

Ivanovic, Renato Fidelis

05 October 2018

INTRODUÇÃO: A propensão do CaP em gerar metástases decorre de mecanismos moleculares específicos em um processo composto por múltiplas etapas, sendo que o remodelamento do meio extracelular através de ações de enzimas proteolíticas denominadas metaloproteinases da matriz (MMP) é uma etapa fundamental. As MMP degradam vários componentes da matriz extracelular, sendo que seu controle pode ser exercido por outras proteínas denominadas TIMPs. Em nível gênico, outro controle pode ser exercido por moléculas chamadas microRNAs. OBJETIVO: O objetivo deste estudo é avaliar a regulação da MMP-9 por miRNAs. A partir de dados da literatura identificamos que a MMP-9 pode sofrer influência do miR-21 e 338-3p. MÉTODOS: Para os experimentos in vitro, linhagens celulares de CaP (DU145, PC3 e LNCaP) foram transfectadas com os miRNAs de interesse e a expressão de MMP-9 foi avaliada por reação em cadeia de polimerase quantitativa com transcriptase reversa (qRT-PCR). O sobrenadante da transfecção foi usado para ensaios de invasão com matrigel, e ELISA. Nos experimentos in vivo, células da linhagem PC-3-luc foram implantadas no subcutâneo de camundongos Balb-c nude e tratadas com injeções de anti-miR-21, miR-338-3p ou a combinação de ambos. RESULTADOS: O miR-21 aumentou expressão de MMP-9 em 72% na PC3. Houve maior invasão celular tanto na PC3 como DU145. In vivo, o bloqueio do miR-21 reduziu em 10% a expressão de MMP-9 nos tumores implantados (p=0,04). O miR-338-3p reduziu a expressão de MMP-9 em 53% na PC3 (p=0,001), 31% na LnCaP (p=0,23) e 24% na DU145 (p=0,16). No ensaio de invasão, menor número de células e colônias foram capazes de invadir a membrana de matrigel. In vivo, houve redução de 27% na expressão de MMP-9 nos camundongos tratados com o miR-338-3p (p=0,07). A combinação anti-miR-21+miR-338-3p reduz a expressão de MMP-9 em maior intensidade tanto in vitro como in vivo. CONCLUSÕES: A expressão de MMP-9 pode ser regulada pelo miR-21 e miR-338-3p. O primeiro se comporta como um oncomiR ao passo que o segundo como um supressor tumoral. A combinação de miRNAs é uma estratégia plausível para ampliar o efeito sobre expressão de genes de interesse / INTRODUCTION: The propensity of CaP to generate metastases results from specific molecular mechanisms in a multiphase process and the remodeling of the extracellular medium through the actions of proteolytic enzymes called matrix metalloproteinases (MMP) is a fundamental step. MMPs degrade several components of the extracellular matrix, and their control can be exerted by other proteins called TIMPs. At the gene level, another control can be exerted by molecules called microRNAs. OBJECTIVE: The objective of this study is to evaluate the regulation of MMP-9 by miRNAs. From literature data we have identified that MMP-9 may be influenced by miR-21 and 338-3p. METHODS: For in vitro experiments, CaP cell lines (DU145, PC3 and LNCaP) were transfected with the miRNAs of interest and the expression of MMP-9 was assessed by quantitative reverse transcriptase polymerase chain reaction (qRT-PCR). The transfection supernatant was used for matrigel and ELISA invasion assays. For the in vivo experiments, PC3-luc cells were implanted into the subcutaneous Balb-c nude mice and treated with anti-miR-21, miR-338-3p injections or the combination of both. RESULTS: The miR-21 increased MMP-9 expression by 72% in PC3. There was greater cell invasion in both PC3 and DU145. In vivo, miR-21 blockade reduced MMP-9 expression by 10% in implanted tumors (p = 0.04). MiR-338-3p reduced MMP-9 expression by 53% in PC3 (p = 0.001), 31% in LNCaP (p = 0.23), and 24% in DU145 (p = 0.16). In the invasion assay, fewer cells and colonies were able to invade the matrigel membrane. In vivo, there was a 27% reduction in MMP-9 expression in mice treated with miR-338-3p (p = 0.07). The combination of anti-miR-21 + miR-338-3p reduces MMP-9 expression in greater intensity both in vitro and in vivo. CONCLUSIONS: MMP-9 expression can be regulated by miR-21 and miR-338-3p. The former behaves as an oncomyR while the second as a tumor suppressor. The combination of miRNAs is a plausible strategy to extend the effect on gene expression of interest

Ensaio de imunoadsorção enzimática

Enzyme-linked immunosorbent assay

Inibidor tecidual de metaloproteinase

Matrigel

Matrigel

Matrix metalloproteinases

Metaloproteinases da matriz

microRNAs

MicroRNAs

MiR-21

MiR-21

MiR-338-3p

MiR-338-3p

Neoplasias da próstata

Prostatic neoplasms

Proteína RECK

qRT-PCR

qRT-PCR

RECK protein

Tissue inhibitor of metalloproteinase

Expressão de metaloproteinases de matriz (MMPS) e de seus inibidores (TIMPS e RECK) em modelo de progressão tumoral de Câncer de mama e sua correlação com dados clínicos-patológicos / Expression of matrix metalloproteinases (MMPs) and their inhibitors (TIMPs and RECK) in a model of tumor progression of breast cancer and its correlation with clinicopathological data

Figueira, Rita de Cássia Savio

07 April 2006

O câncer de mama é o tipo de câncer mais comumente detectado em mulheres de todo o mundo. Na maioria das pacientes, a causa de morte se deve, principalmente, à doença metastática que pode se desenvolver a partir do tumor primário. O processo metastático envolve uma complexa cascata de eventos, incluindo a quebra organizada dos componentes da matriz extracelular por metaloproteinases de matriz (MMPs). A atividade das MMPs é precisamente regulada por inibidores específicos, os inibidores teciduais das MMPs (TIMPs). Dado seu papel na progressão tumoral, níveis elevados de MMPs têm sido associados com prognóstico desfavorável para pacientes com câncer. Por outro lado, sendo os TIMPs proteínas multifuncionais, níveis elevados de TlMP-1 e de TIMP-2 correlacionam com agressividade do tumor e prognóstico ruim em diferentes tipos de câncer, incluindo o câncer de mama. O gene supressor de metástase RECK codifica uma glicoproteína de membrana capaz de inibir a invasão e a metástase tumoral através da regulação negativa da atividade de MMPs envolvidas em carcinogênese: MMP-2, MMP-9 e MMP-14 (MT1-MMP). A fim de analisar o papel das MMPs e de seus inibidores (TIMPs e RECK) na progressão tumoral do câncer de mama, o perfil de expressão destes genes foi detectado, através de ensaios de Real-Time PCR, em um painel de cinco linhagens celulares de carcinoma de mama humano com diferentes potenciais invasivos e metastáticos e em 72 amostras teciduais de tumores primários de mama e 30 amostras teciduais de borda normal adjacente ao tumor. O perfil de expressão protéica de RECK foi avaliado em 236 amostras de tumores primários de mama através de ensaios de Tissue Microarray. Além disso, a atividade proteolítica das MMPs foi detectada em ensaios de Zimografia. Os resultados obtidos indicam que a progressão do câncer de mama humano está relacionada com um aumento dos níveis de expressão das MMPs e de seus inibidores específicos. O aumento dos níveis de expressão dos TIMPs parece estar relacionado ao seu papel como proteína multifuncional que pode estar funcionando de maneira a promover, mais do que suprimir, a progressão tumoral. Níveis elevados da expressão protéica de RECK estão associados com pior prognóstico. No entanto, para pacientes em estádios clínicos avançados, altos níveis de expressão de RECK podem estar correlacionados com melhor prognóstico, dependendo do balanço MMP/inibidor. Os níveis de expressão das MMPs apresentaram correlação positiva em relação aos níveis de expressão de seus inibidores específicos, sugerindo a existência de fatores e vias de sinalização comuns envolvidas na regulação coordenada destes genes. Além disso, a síntese do inibidor pode estar relacionada a uma resposta celular ao aumento da expressão e atividade de proteases. O balanço transcricional enzima/inibidor favorece a enzima nas amostras tumorais e, de modo contrário, o inibidor específico nas amostras de borda normal, sugerindo o balanço como o principal fator na determinação da degradação da MEC em processos invasivos e metastáticos. Os resultados obtidos podem contribuir para um melhor entendimento da complexidade dos mecanismos envolvidos na metástase do câncer de mama. / Breast cancer is among the most common tumors affecting women. Like most solid tumors, metastatic disease rather than the primary tumor itself is responsible for death. The metastatic process involves a complex cascade of events, including the organized breakdown of the extracellular matrix by matrix metalloproteinases (MMPs). The activity of these proteases is tightly regulated by specific inhibitors, known as tissue inhibitors of MMPs (TIMPs). Consistent with their role in tumor progression, high levels of a number of MMPs have been shown to correlate with poor prognosis in human cancers. On the other hand, TIMPs are multifunctional molecules with high levels of TIMP-1 and TIMP-2 having been shown to predict adverse prognosis and correlate with tumor aggressiveness in several different human cancers, including breast cancer. The RECK metastasis suppressor gene encodes a membrane-associated MMP regulator protein that is able to suppress tumor invasion and metastasis by negatively regulating MMPs involved in carcinogenesis, namely: MMP-2, MMP-9 and MMP-14 (MT1-MMP). In order to analyse the role of these genes in breast cancer progression, the expression levels of MMPs and theirs inhibitors were detected by Real Time PCR in a panel of five human breast cancer cell lines displaying different degrees of invasiveness and metastatic potential and in 72 primary breast cancer and 30 adjacent normal tissue specimens. The RECK protein expression profile was also examined in 236 primary breast cancer tissue specimens by Tissue Microarray technology. The proteolytic activity of MMPs was examined by Zymography. The results suggest that high expression levels of MMPs and their inhibitors are correlated with breast cancer progression. High levels of TIMP transcript may be involved in tumor-promoting activity as a result of their multifunctional role. Increased levels of the RECK protein are correlated with poor prognosis for the patient. However, high levels of RECK would be expected to confer a favorable prognosis to patients with advanced disease. The expression levels of MMPs significantly correlated with the levels of TIMPs and may be explained by coordinate correlation of these molecules or, alternatively, the synthesis of an inhibitor may be a cellular reaction to the presence of the protease. The enzyme/inhibitor balance at the transcriptional level favors the enzyme in tumor tissue and the inhibitor in adjacent normal tissue. It is probably the parameter that will determine the matrix degradation at invasion and metastatic process. Our results are likely to contribute for better understanding of the complex mechanisms involved in breast cancer metastasis.

Bioquímica celular

Breast cancer

Carcinoma

Carcinoma

Cellular biochemistry

Expressão gênica

Extracellular matrix

Gene expression

Gene metastasis suppressor RECK

Gene supressor de metástase RECK

Inibidores teciduais de MMPs (TIMPs)

Invasão tumoral

Matrix metalloproteinases (MMPs)

Matriz extracelular

Metaloproteinases de matriz (MMPs)

Metástase tumoral

Neoplasias mamárias

Tissue inhibitors of MMPs (TIMPs)

Tumor invasion

Tumor metastasis

Human β₁-adrenergic receptor:biosynthesis, processing and the carboxyl-terminal polymorphism

Hakalahti, A. (Anna)

20 September 2011

Abstract The β1-adrenergic receptor (β1AR) belongs to the large family of G protein-coupled receptors. It is activated by epinephrine and norepinephrine and thus has a central role in mediating the effects of the sympathetic nervous system. β1AR is the predominant adrenergic receptor in the heart, where it mediates positive inotropy and chronotropy. Thus, it is the most important target receptor for β-adrenergic antagonists, which are widely used in the treatment of cardiovascular diseases. Furthermore, β1AR is also expressed in the brain, where it has a crucial role in regulating memory formation and synaptic plasticity. Human β1AR (hβ1AR) has two polymorphisms, one at each terminus. The carboxyl-terminal (C-terminal) Arg389Gly8.56 polymorphism has previously been shown to have functional significance. Despite the clinical importance of hβ1AR, its biosynthetic profile and post-translational processing have not been well characterized to date. The aims of the present study were to shed light on these events, focusing on the limited proteolysis of hβ1AR and the impact of β-adrenergic ligands on receptor processing. In addition, the C-terminal polymorphism and its associations with certain parameters were investigated in a population consisting of survivors of acute myocardial infarction (AMI). By using a heterologous expression system, hβ1AR biosynthesis was revealed to be efficient and rapid. The N-terminus of the mature receptor was modified with O-glycans and one N-glycan, but despite these modifications it was subject to cleavage at the cell surface that resulted in two C-terminal fragments. The cleavage was mediated by a metalloproteinase, and importantly, it also occurred in vivo. Moreover, receptor activation enhanced the cleavage, which suggests that it represents a novel regulatory mechanism of hβ1AR. Interestingly, those ligands that enhanced the cleavage stabilized intracellular hβ1AR precursors, possibly via a pharmacological chaperone activity. Thus, the present study demonstrates that β-adrenergic ligands can have different regulatory effects on distinct hβ1AR forms. Among the AMI survivors, the Arg3898.56 homozygotes had significantly increased left ventricular mass indexes, when compared to the Gly3898.56 carriers, which suggests an association between Arg3898.56 and left ventricular hypertrophy (LVH). When euglycemic and diabetic patients were analyzed separately, the association existed among the euglycemic patients but was not present in diabetic patients. Diabetes is one of several risk factors that have previously been shown to influence the progression of LVH. Here, diabetes was shown to have a stronger effect on the development of LVH, when compared with the Arg3898.56 variant of hβ1AR. / Tiivistelmä β1-adrenerginen reseptori (β1AR) kuuluu laajaan G-proteiineihin kytkettyjen reseptorien perheeseen. β1AR on tärkeässä asemassa sympaattisen hermoston toiminnassa. Sydämessä β1AR on vallitseva adrenerginen reseptori, ja sydänlihaksen supistusvireys sekä -taajuus voimistuvat β1AR:n aktivaation kautta. Siten se edustaa sydän- ja verisuonisairauksissa käytettävien β-salpaajien tärkeintä kohdereseptoria. β1AR:n luontaisia agonisteja ovat lisämunuaisytimestä ja hermopäätteistä vapautuvat adrenaliini ja noradrenaliini. Sydänlihaksen lisäksi β1AR:a ilmennetään myös aivoissa, jossa reseptorilla on keskeinen asema muistin ja synaptisen muovautuvuuden kannalta. Ihmisen β1AR (hβ1AR) sisältää kaksi polymorfismia, joista toinen (Arg389Gly8.56) sijaitsee reseptorin karboksyyli- (C-) terminaalissa solulimassa. Tällä polymorfismilla on havaittu olevan toiminnallista merkitystä. Vaikka hβ1AR:n kliininen merkitys on huomattava, sen biosynteesistä ja translaationjälkeisestä muokkauksesta ei ole tähän mennessä ollut juurikaan tutkimustietoa. Tämän väitöskirjatyön tavoite oli kuvata näitä tapahtumia ja erityisesti keskittyä hβ1AR:n solunulkoisen amino- (N-) terminaalin rajoitettuun proteolyysiin. Lisäksi haluttiin tutkia, onko β-adrenergisillä ligandeilla vaikutusta reseptorin prosessointiin. Tutkimuksen kliinisessä osiossa kartoitettiin C-terminaalisen polymorfian yhteyttä valikoituihin muuttujiin aineistossa, joka koostui akuutin sydäninfarktin (AMI) sairastaneista potilaista. hβ1AR:n biosynteesin havaittiin olevan tehokas ja nopea heterologisessa systeemissä. Kypsän reseptorin N-terminaalissa havaittiin useita O-kytkennäisiä ja yksi N-kytkennäinen glykaani. Glykosyloinnista huolimatta N-terminaali pilkkoutui solun pinnalla, mikä tuotti kaksi solukalvolla sijaitsevaa, C-terminaalista reseptoripalasta. Pilkkoutumista, joka havaittiin myös in vivo, katalysoi metalloproteinaasi. Reseptorin aktivaatio kiihdytti pilkkoutumista, joka siten todennäköisesti edustaa uudenlaista hβ1AR:n säätelymekanismia. Ligandit, jotka kiihdyttivät pilkkoutumista, toisaalta stabiloivat solunsisäisiä hβ1AR:n epäkypsiä muotoja toimien luultavasti ns. farmakologisina kaperoneina. Näin ollen väitöskirjatyö osoittaa, että β-adrenergisillä ligandeilla voi olla erilaisia säätelyvaikutuksia eri hβ1AR-muotoihin. Kliinisessä tutkimuksessa Arg3898.56-homotsygooteilla potilailla havaittiin merkittävästi suurentunut vasemman kammion massaindeksi Gly3898.56-kantajiin verrattuina, mikä puoltaa Arg3898.56-polymorfismin ja vasemman kammion hypertrofian (LVH) välistä yhteyttä. Kun euglykeemisiä potilaita ja diabeetikkoja tutkittiin erikseen, yhteys ilmeni vain euglykeemisessä ryhmässä. Diabetes on riskitekijä, joka vaikuttaa LVH:n kehittymiseen. Tässä tutkimuksessa diabeteksellä havaittiin olevan voimakkaampi vaikutus LVH:n kehittymiseen Arg3898.56 -polymorfismiin verrattuna.

G-protein-coupled receptors

biosynthesis

down-regulation

glycosylation

left ventricular hypertrophy

limited proteolysis

metalloproteinases

myocardial infarction

pharmacological chaperones

single nucleotide polymorphism

up-regulation

β-adrenergic antagonist

G-proteiiniin kytketyt reseptorit

biosynteesi

farmakologiset kaperonit

glykosylaatio

metalloproteinaasit

rajoitettu proteolyysi

sydäninfarkti

vaimennussäätely

vasemman kammion hypertrofia

yksittäisen nukleotidin polymorfia

ylössäätely

β-adrenerginen antagonisti

Expressão de metaloproteinases de matriz (MMPS) e de seus inibidores (TIMPS e RECK) em modelo de progressão tumoral de Câncer de mama e sua correlação com dados clínicos-patológicos / Expression of matrix metalloproteinases (MMPs) and their inhibitors (TIMPs and RECK) in a model of tumor progression of breast cancer and its correlation with clinicopathological data

Rita de Cássia Savio Figueira

07 April 2006

O câncer de mama é o tipo de câncer mais comumente detectado em mulheres de todo o mundo. Na maioria das pacientes, a causa de morte se deve, principalmente, à doença metastática que pode se desenvolver a partir do tumor primário. O processo metastático envolve uma complexa cascata de eventos, incluindo a quebra organizada dos componentes da matriz extracelular por metaloproteinases de matriz (MMPs). A atividade das MMPs é precisamente regulada por inibidores específicos, os inibidores teciduais das MMPs (TIMPs). Dado seu papel na progressão tumoral, níveis elevados de MMPs têm sido associados com prognóstico desfavorável para pacientes com câncer. Por outro lado, sendo os TIMPs proteínas multifuncionais, níveis elevados de TlMP-1 e de TIMP-2 correlacionam com agressividade do tumor e prognóstico ruim em diferentes tipos de câncer, incluindo o câncer de mama. O gene supressor de metástase RECK codifica uma glicoproteína de membrana capaz de inibir a invasão e a metástase tumoral através da regulação negativa da atividade de MMPs envolvidas em carcinogênese: MMP-2, MMP-9 e MMP-14 (MT1-MMP). A fim de analisar o papel das MMPs e de seus inibidores (TIMPs e RECK) na progressão tumoral do câncer de mama, o perfil de expressão destes genes foi detectado, através de ensaios de Real-Time PCR, em um painel de cinco linhagens celulares de carcinoma de mama humano com diferentes potenciais invasivos e metastáticos e em 72 amostras teciduais de tumores primários de mama e 30 amostras teciduais de borda normal adjacente ao tumor. O perfil de expressão protéica de RECK foi avaliado em 236 amostras de tumores primários de mama através de ensaios de Tissue Microarray. Além disso, a atividade proteolítica das MMPs foi detectada em ensaios de Zimografia. Os resultados obtidos indicam que a progressão do câncer de mama humano está relacionada com um aumento dos níveis de expressão das MMPs e de seus inibidores específicos. O aumento dos níveis de expressão dos TIMPs parece estar relacionado ao seu papel como proteína multifuncional que pode estar funcionando de maneira a promover, mais do que suprimir, a progressão tumoral. Níveis elevados da expressão protéica de RECK estão associados com pior prognóstico. No entanto, para pacientes em estádios clínicos avançados, altos níveis de expressão de RECK podem estar correlacionados com melhor prognóstico, dependendo do balanço MMP/inibidor. Os níveis de expressão das MMPs apresentaram correlação positiva em relação aos níveis de expressão de seus inibidores específicos, sugerindo a existência de fatores e vias de sinalização comuns envolvidas na regulação coordenada destes genes. Além disso, a síntese do inibidor pode estar relacionada a uma resposta celular ao aumento da expressão e atividade de proteases. O balanço transcricional enzima/inibidor favorece a enzima nas amostras tumorais e, de modo contrário, o inibidor específico nas amostras de borda normal, sugerindo o balanço como o principal fator na determinação da degradação da MEC em processos invasivos e metastáticos. Os resultados obtidos podem contribuir para um melhor entendimento da complexidade dos mecanismos envolvidos na metástase do câncer de mama. / Breast cancer is among the most common tumors affecting women. Like most solid tumors, metastatic disease rather than the primary tumor itself is responsible for death. The metastatic process involves a complex cascade of events, including the organized breakdown of the extracellular matrix by matrix metalloproteinases (MMPs). The activity of these proteases is tightly regulated by specific inhibitors, known as tissue inhibitors of MMPs (TIMPs). Consistent with their role in tumor progression, high levels of a number of MMPs have been shown to correlate with poor prognosis in human cancers. On the other hand, TIMPs are multifunctional molecules with high levels of TIMP-1 and TIMP-2 having been shown to predict adverse prognosis and correlate with tumor aggressiveness in several different human cancers, including breast cancer. The RECK metastasis suppressor gene encodes a membrane-associated MMP regulator protein that is able to suppress tumor invasion and metastasis by negatively regulating MMPs involved in carcinogenesis, namely: MMP-2, MMP-9 and MMP-14 (MT1-MMP). In order to analyse the role of these genes in breast cancer progression, the expression levels of MMPs and theirs inhibitors were detected by Real Time PCR in a panel of five human breast cancer cell lines displaying different degrees of invasiveness and metastatic potential and in 72 primary breast cancer and 30 adjacent normal tissue specimens. The RECK protein expression profile was also examined in 236 primary breast cancer tissue specimens by Tissue Microarray technology. The proteolytic activity of MMPs was examined by Zymography. The results suggest that high expression levels of MMPs and their inhibitors are correlated with breast cancer progression. High levels of TIMP transcript may be involved in tumor-promoting activity as a result of their multifunctional role. Increased levels of the RECK protein are correlated with poor prognosis for the patient. However, high levels of RECK would be expected to confer a favorable prognosis to patients with advanced disease. The expression levels of MMPs significantly correlated with the levels of TIMPs and may be explained by coordinate correlation of these molecules or, alternatively, the synthesis of an inhibitor may be a cellular reaction to the presence of the protease. The enzyme/inhibitor balance at the transcriptional level favors the enzyme in tumor tissue and the inhibitor in adjacent normal tissue. It is probably the parameter that will determine the matrix degradation at invasion and metastatic process. Our results are likely to contribute for better understanding of the complex mechanisms involved in breast cancer metastasis.

Bioquímica celular

Carcinoma

Expressão gênica

Gene supressor de metástase RECK

Inibidores teciduais de MMPs (TIMPs)

Invasão tumoral

Matriz extracelular

Metaloproteinases de matriz (MMPs)

Metástase tumoral

Neoplasias mamárias

Breast cancer

Carcinoma

Cellular biochemistry

Extracellular matrix

Gene expression

Gene metastasis suppressor RECK

Matrix metalloproteinases (MMPs)

Tissue inhibitors of MMPs (TIMPs)

Tumor invasion

Tumor metastasis

Oxidační a karbonylový stres, mikrozánět a kardiovaskulární riziko u pacientů s onemocněním ledvin. / Oxidative and carbonyl stress,microinflammation and cardiovascular risk in patiens with chronic kidney disease

Peiskerová, Martina

January 2015

Short summary: Background: High cardiovascular risk in patients with chronic kidney disease is partly due to mineral dysbalance, microinflammation and oxidative stress. CKD patients accumulate traditional and non-traditional CV risk factors. FGF23, MMPs and PlGF belong among these non-traditional biomarkers of CV risk. FGF23 is a phosphaturic hormone and inhibitor of calcitriol synthesis. It is associated with vascular calcifications. Matrix-metalloproteinases (e.g. MMP-2, MMP-9) are proteolytic, proinflammatory enzymes, contributing to myocardial remodelation. Placental growth factor (PlGF) is a proangiogenic cytokine that is associated with LV hypertrophy in animal model. Plasmatic FGF23, MMPs and PlGF are elevated in CKD. Aim: We aimed to describe dynamic changes between several novel biomarkers of CV risk (FGF23, MMP-2, MMP-9 and PlGF) in CKD stages 1-5, to describe their mutual correlations and possible association with traditional CV risk markers. We studied possible association of laboratory and echocardiographic parameters in patients with CKD stages 2-4. Methods: In a cross-sectional study we evaluated 80 patiens with CKD 1-5 and 44 healthy controls. In a prospective study we evaluated echocardiographic and laboratory parameters in 62 patients with CKD 2-4 for an average study period of 36±10...

Oxidační a karbonylový stres, mikrozánět a kardiovaskulární riziko u pacientů s onemocněním ledvin. / Oxidative and carbonyl stress,microinflammation and cardiovascular risk in patiens with chronic kidney disease

Peiskerová, Martina

January 2015

Short summary: Background: High cardiovascular risk in patients with chronic kidney disease is partly due to mineral dysbalance, microinflammation and oxidative stress. CKD patients accumulate traditional and non-traditional CV risk factors. FGF23, MMPs and PlGF belong among these non-traditional biomarkers of CV risk. FGF23 is a phosphaturic hormone and inhibitor of calcitriol synthesis. It is associated with vascular calcifications. Matrix-metalloproteinases (e.g. MMP-2, MMP-9) are proteolytic, proinflammatory enzymes, contributing to myocardial remodelation. Placental growth factor (PlGF) is a proangiogenic cytokine that is associated with LV hypertrophy in animal model. Plasmatic FGF23, MMPs and PlGF are elevated in CKD. Aim: We aimed to describe dynamic changes between several novel biomarkers of CV risk (FGF23, MMP-2, MMP-9 and PlGF) in CKD stages 1-5, to describe their mutual correlations and possible association with traditional CV risk markers. We studied possible association of laboratory and echocardiographic parameters in patients with CKD stages 2-4. Methods: In a cross-sectional study we evaluated 80 patiens with CKD 1-5 and 44 healthy controls. In a prospective study we evaluated echocardiographic and laboratory parameters in 62 patients with CKD 2-4 for an average study period of 36±10...

Der Einfluß von Batimastat auf Prostatakarzinom Zellinien und den Dunning Tumor der Ratte

Borchert, Dietmar

12 January 2005

Die invasiven und metastatischen Eigenschaften vieler Tumore werden mit einer Veränderung im physiologischen Gleichgewicht der Matrix Metalloproteinasen (MMP) und ihrer spezifischen und unspezifischen Inhibitoren in Zusammenhang gebracht. Das Ziel dieser Dissertation war es, die Wirkung von Batimastat, einem synthetischen Inhibitor der MMP, auf hormonabhängige und hormonunabhängige Prostatakarzinomzellinien sowie auf das Tumorwachstum im orthotopen Tumormodell des Dunning Tumor (R3327) zu untersuchen. Methoden: Im Zellkulturversuch wurde die Wirkung verschiedener Konzentrationen von Batimastat untersucht und die Proliferation mit dem MTT Test gemessen. Die Induktion des orthotopen Tumors erfolgte durch Inokulation von MATLyLu Zellen in die Rattenprostata (Dunning Tumor der Copenhagen Ratte). 10 Tiere wurden nach Tumorinduktion täglich mit 30 mg/kg Batimastat durch intraperitoneale Gabe behandelt, 10 weitere Ratten erhielten nur das Vehikel. Zehn Kontrolltiere blieben unbehandelt. Der Effekt auf des lokale Tumorwachstum wurden durch Bestimmung des Tumorgewichtes nach 20 Tagen definiert. Results:Batimastat zeigte eine dosisabhänige Hemmung des Wachstums der Prostatakarzinomzellinien in vitro. Bei 4000 ng/ml kam es zu einer eindeutigen Hemmung des Zellwachstums. Im Tierversuch fand sich nach 20 Tagen in der Kontrollgruppe ein mittleres Tumorgewicht von 18.9 ± 5,4 g, in der Vehikelgruppe von 22.3 ± 4,3 g und in der mit Batimastat behandelten Gruppe von 11.1 ± 2,6 g. Im Vergleich zur Kontroll- und Vehikelgruppe, zeigte sich in der Batimastatgruppe ein signifikant geringeres Tumorgewicht. Zusammenfassung: Batimastat kann das Tumorwachstum in einem Standardtiermodell des Prostatakarzinoms vermindern. Der Dunning Tumor der Copenhagen Ratte ist ein zuverlässiges Tiermodell zur weiteren Untersuchung von synthetischen Inhibitoren der MMP. / Background: Increased concentrations of metalloproteinases are associated with the invasive and metastatic behavior of several human malignant tumors. Normally, enzymatic activity is tightly regulated by nonspecific mechanisms and specific inhibitors. The aim of this dissertation was to determine the potential of a synthetic metallproteinase inhibitor, batimastat, to show its in vitro effect on hormonedependent and hormoneindependent prostate cancer cell lines and its in vivo effect on tumor growth in orthotopic cancer (R3327 Dunning tumor) in rats. Methods: In vitro, a dose response curve of batimastat was generated over 5 days using the MTT assay. Prostate cancer was injected in vivo in male Copenhagen rats by inoculating R3327 Dunning tumor cells (MATLyLu) into the ventral prostatic lobe of 30 rats. Each of 10 rats received batimastat (30 mg / kg / body weight) or vehicle once a day by i.p. application beginning the day of cell inoculation. Ten rats remained untreated. The effect on local tumor growth was evaluated by measuring tumor weights 20 days after tumor cell inoculation. Results: Significant inhibiton of tumor cell proliferation in vitro occurred at 4000 ng / ml batimastat. After orthotopic cell inoculation, tumors grew to mean weights of 18.9 ± 5,4 g in the control group without treatment, to 22.3 ± 4,3 g in the vehicle group, an to 11.1 ± 2,6 g in the treated group. In comparison to the control group and to the vehicle group, tumor weights increased significantly less under treatment with batimastat. Conclusions: Batimastat is able to reduce tumor growth in the standard prostate cancer model. Using this model, activity against cancer progression of future inhibitory agents can be reliably assessed.

Prostatakarzinom

in vitro

Zellkultur

Therapie des Prostatakarzinoms

R3327 Dunning Tumor

Verhinderung der Tumorprogression

Batimastat

BB94

MMP

TIMP

Tierversuch

in vivo

MTT

PC-3

DU-145

MATLyLu

LNCaP

Copenhagenratte

hormonabhängig

hormonunabhängig

Prostate cancer

in vitro

Prostate cancer treatment

R3327 Dunning tumor

inhibition of tumor progression

Batimastat

BB94

MMP

TIMP

animal

in vivo

MTT

cell culture

PC-3

DU-145

MATLyLu

LNCaP

Copenhagen rat

homonedependent

hormoneindependent

610 Medizin und Gesundheit

33 Medizin

VS 9107

XH 8004

XH 8015

ddc:610