The expression and regulation of membranetype matrix metalloproteinases (MT-MMPS) in prostate cancer

Palliyaguru, Tishila Sepali

January 2005

Prostate cancer (PCa) represents the most frequently diagnosed cancer and the second leading cause of cancer death in males. Initial development and progression of the disease is mainly regulated by androgens. However, the pathology of the disease may progress to a loss of hormone dependence, resulting in rapid growth and a metastatic phenotype. Invasion and metastasis of tumour cells results from the degradation of the basement membrane (BM) and extracellular matrix (ECM). The degradation of the BM and ECM is in part mediated by a family of proteinases called the matrix metalloproteinases (MMPs). Currently more than 20 members of the MMP family have been identified and they are further divided in to sub-classes according to their protein structure. Collectively, MMPs are capable of degrading essentially all ECM components. High expression of some MMPs correlates with a malignant phenotype of various tumours. This study focused on the expression and regulation of a sub-class of MMPs called the membrane-type MMPs (MT-MMPs) in PCa. To date 6 MT-MMPs have been identified and they are characterized by a transmembrane domain, followed by a short cytoplasmic tail (MT1-, MT2-, MT3- and MT5-MMPs) or a glycosylphosphatidylinositol (GPI) moiety (MT4- and MT6-MMPs). MT-MMPs are thought to play a key role in tumour cell invasion by virtue of their ability to activate MMP-2 (a secreted MMP, which is implicated in many metastatic tumours) and their direct degradation activity on ECM components. Elevated MT-MMP expression has been shown in breast, colon, skin, stomach, lung, pancreas and brain cancers. Until very recently there had been no studies conducted on MT-MMPs in PCa. The few studies preceding or occurring in parallel with this one, have mainly reported the mRNA expression of these enzymes in PCa. Most studies have focused on MT1-MMP. Thus, at the commencement of this project there were many unexplored aspects of the expression and regulation of the broader MT-MMP family in PCa. The aims of this study were to examine: 1 a) The expression of MT-MMPs in prostate cancer cell lines using RT-PCR and western blot analysis and b) expression of MT1-MMP and MT5-MMP in BPH (benign prostatic hyperplasia) and PCa clinical tissue sections by immunohistochemistry. 2) The regulation of MT1-MMP, MT3-MMP and MT5-MMP in PCa cell lines by Concanavalin A (Con A), phorbol-12-myristate 13-acetate (PMA), dihydrotestosterone (DHT) and insulin-like growth factors I and II (IGF I and IGF II) using western blot analysis. In this study RWPE1, a transformed but non-tumorigenic prostate cell line was used as a "normal" prostate cell model, ALVA-41 and LNCaP as androgen-dependent PCa cell models and DU-145 and PC-3 as androgen-independent PCa cell models. The mRNA expression for the 6 MT-MMPs was determined by RT-PCR. The results indicate that MT1- and MT3-MMP were detected in all cell lines. This is the first study to report MT1-MMP mRNA expression in LNCaP cells and MT3-MMP mRNA in DU-145 cells. MT2-MMP mRNA was detected in only LNCaP and DU-145 cells, whilst MT5-MMP was detected in PC-3, DU-145 and LNCaP cells. nterestingly, MT2-, MT4-, MT5- or MT6-MMP mRNA expression was not detected in the "normal" cell line RWPE1, perhaps indicating an induction in gene transcription in tumour cells. MT4-MMP mRNA was only detected in the androgen-independent cell lines, indicating a potential role in the invasion and metastasis processes of the aggressive androgen-independent PCa. In this study, very low expression of MT6-MMP was detected only in LNCaP and DU-145 cells. Previously there had been no reports on the expression of MT6-MMP in the normal or cancerous prostate. Due to the mRNA of MT1-, MT3- and MT5-MMPs being the predominant MT-MMPs expressed in the current study, and the availability of suitable antibodies against them, the protein expression of these three MT-MMPs was studied by western blot analysis. MT1-, MT3- and MT5-MMP protein expression was detected in the cell lysates and conditioned medium (CM) of RWPE1, LNCaP and PC-3 cells. For each MT-MMP, various protein species were detected including putative proforms, mature (active) forms, processed or fragmented forms as well as soluble or shed forms. The presence of soluble or shed forms of MT-MMPs in the CM of cultures of "normal" and PCa cells could imply one of the following mechanisms: ectodomain shedding by either extracellular sheddases, the secretion of intracellular processed proteins without the transmembrane domain, the release of membrane vesicles containing membrane-bound enzymes, or the presence of alternatively spliced mRNA, which gives rise to MT-MMPs without a transmembrane domain. Further characterization of these various forms, including their amino acid sequence, is required to fully elucidate their structural composition. Despite the detection of the mRNA, we did not detect the cell-associated proteins of MT1-MMP and MT5-MMP and only very low expression of MT3-MMP in DU-145 cells (CM of DU-145 cells were not screened for soluble forms of the enzymes). This is the first study to report MT5-MMP expression at the protein level in prostate derived cell lines. Immunohistochemistry was carried out on benign prostatic hyperplasia (BPH) and PCa clinical tissues using MT1- and MT5-MMP antibodies to determine their cellular localisation in benign and cancer glands. MT1- and MT5-MMPs were expressed in BPH and moderate and high grade PCa. MT1-MMP expression was highest in moderate grade cancer compared to BPH and high grade cancer. MT1-MMP expression was predominantly observed in the cytoplasm of secretory epithelial cells of both benign and cancer glands, although in cancer glands, some nuclear staining was also observed. Stromal expression of MT1-MMP was only observed in high grade cancer. This study is the first to report the immunolocalization of MT5-MMP outside the brain and in kidneys of diabetic patients. MT5-MMP was predominantly expressed in the cytoplasm of the secretory cells in benign glands. In the cancer glands, staining was heterogeneous with low to intense staining, mainly in the nuclei, plasma membrane and cytoplasm of secretory epithelial cells. Stromal expression of MT5-MMP was only observed in cancer tissues, particularly in high grade cancer. To study the regulation of MT-MMPs in PCa, we treated LNCaP and PC-3 cells, with either Con A, PMA, DHT or IGF-I and -II and studied the protein expression of MT1-, MT3- and MT5-MMPs by western blot analysis. Con A and PMA have been shown to stimulate MMP expression in other cell systems. Con A treatment showed a general increase in the protein expression of MT1-, MT3- and MT5-MMPs. By far the greatest induction by Con A observed was the nearly 4 fold increase in MT5-MMP expression caused by 40μg/mL Con A treatment of PC-3 cells. PMA treatment of LNCaP and PC-3 cells appeared to increase shedding or secretion of all three MT-MMPs in to the CM. This increase in the soluble forms corresponded to a decrease in cell-associated forms in LNCaP cells. Treatment of LNCaP with DHT alone and treatment of LNCaP and PC-3 cells with IGF-I and -II alone failed to detect any change in expression of MT1-MMP. The information gathered in this study on MT-MMPs with respect to cellular localization, expression levels and regulation by growth factors or chemicals that mimic their actions, will aid in our understanding of the role of MT-MMPs in PCa. This study provides strong preliminary data for further research, particularly with respect to functional studies of MT-MMPs in PCa. Understanding the processes which govern the actions of such proteins as these will provide potential insights into development of new management and therapeutic regimens to prevent cancer progression.

Prostate cancer

Matrix metalloproteinases (MMPs)

Extracellular matrix

Androgen

Dihydrotestosterone

Insulin-like growth factor-I and –II

Concanavalin A

Phorbol-12-myristate-13-acetate

Conception de ligands protéiques artificiels par ingénierie moléculaire in silico / Design of artificial protein binders by in silico molecular engineering

Baccouche, Rym

30 November 2012

Les travaux réalisés portent sur la conception de ligands protéiques capables de cibler le site catalytique des métalloprotéases matricielles (MMPs) grâce à une méthode d’ingénierie développée au laboratoire qui repose sur le greffage de motifs fonctionnels. Le motif fonctionnel choisi correspond aux 4 résidus N-terminaux du TIMP-2, un inhibiteur naturel des MMPs. Des plates-formes protéiques possédant des motifs d’acides aminés dans une topologie similaire à celle du motif de référence dans le complexe TIMP-2/MMP-14 ont été identifiées par criblage systématique de la PDB à l’aide du logiciel STAMPS (Search for Three-dimensional Atom Motif in Protein Structure). Dix candidats ligands satisfaisant les contraintes topologiques, stériques et de similarité électrostatique avec le ligand naturel TIMP-2 ont été sélectionnés. Ces ligands ont été produits par synthèse chimique ou par voie recombinante puis leur capacité à inhiber une série de 6 MMPs a été évaluée. Les résultats indiquent que tous les ligands protéiques conçus in silico sont capables de lier les sites catalytiques des MMPs avec des constantes d’association allant de 450 nM à 590 mM, sans optimisation supplémentaire. La caractérisation structurale par diffraction X de 2 variants d’un de ces ligands protéiques a permis de montrer que les interactions établies par le motif 1-4 dans ces ligands étaient similaires à celles observées dans le complexe TIMP-2/MMP-14, avec cependant des différences dans la géométrie de certaines d’entre elles. Des études de simulation par dynamique moléculaire ont également permis de mettre en évidence de possibles différences dans la géométrie et la stabilité de certaines des interactions reproduites dans les 10 plates-formes, pouvant contribuer aux affinités modestes observées pour ces ligands. Cependant, les résultats obtenus montrent que la méthode de conception in silico utilisée est capable de fournir une série de ligands protéiques de 1ère génération ciblant de manière spécifique un site catalytique d’intérêt avec un bon rendement. Cette méthode pourrait constituer la 1ère étape d’une approche hybride de conception in silico de ligands combinée à des techniques de sélection expérimentales. / Artificial mini-proteins able to target catalytic sites of matrix metalloproteinases (MMPs) were designed using a functional motif grafting approach. The motif corresponded to the 4 N-terminal residues of TIMP-2, a broad-spectrum natural protein inhibitor of MMPs. Scaffolds able to reproduce the functional topology of this motif as described in the TIMP-2/MMP-14 complex were obtained by exhaustive screening of the Protein Data Bank (PDB) using the STAMPS software (Search for Three-dimensional Atom Motif in Protein Structure). Ten artificial protein binders satisfying all topologic, steric and electrostatic criteria applied for selection were produced for experimental evaluation. These binders targeted catalytic sites of MMPs with affinities ranging from 450 nM and 590 μM prior to optimization. The crystal structures of two artificial binders in complex with the catalytic domain of MMP-12 showed that the intermolecular interactions established by the functional motif in these artificial binders corresponded to those found in the TIMP-2/MMP-14 complex, albeit with some differences in their geometry. Molecular dynamics simulations of the 10 binders in complex with MMP-14 suggested that these scaffolds could allow reproducing in part the native intermolecular interactions, but some differences in geometry and stability could contribute to the lower affinity of the artificial protein binders as compared to the natural one. Nevertheless, these results show that the in silico design method used can provide sets of starting protein binders targeting a specific binding site with a good rate of success. This approach could constitute the first step of an efficient hybrid computational-experimental protein binder design approach.

Motif fonctionnel

Greffage

Criblage de la PDB

Interactions protéine-protéine

Functional motif

Grafting

In silico protein binder design

PDB screening

Protein–protein interactions

612.015 75

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

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