Coronary Artery Outcome in Kawasaki Disease: The Role of Matrix Metalloproteinase-9 and Therapeutic Modulation of Its Activity

Lau, Andrew Chun-Ben

26 February 2009

Kawasaki disease (KD) is a multisystem vasculitis that results in localized coronary artery elastin breakdown and aneurysm formation. It is the leading cause of acquired heart disease of children in North America. Despite conventional treatment, a significant proportion of patients continue to develop coronary sequelae. The mechanisms of arterial aneurysm formation in KD are not known. Using a murine model of KD, Lactobacillus casei cell wall extract-induced coronary arteritis, the processes leading to coronary aneurysm formation were examined. Vessel damage occurred as a result of the increased enzymatic activity of the elastase, matrix metalloproteinase (MMP)-9. MMP-9 protein and activity levels were elevated in the heart post-disease induction. Expression and activity were specific for and localized to inflamed coronary arteries. The pro-inflammatory cytokine, tumour necrosis factor (TNF)-α, was required for increasing local MMP-9 expression. Importantly, MMP-9-deficient animals had a significantly reduced incidence of elastin breakdown. Furthermore, in a cohort of KD patients, serum MMP-9 did not correlate with coronary outcome, highlighting the importance of local expression of this elastase. Intravenous immunoglobulin (IVIG) and aspirin/salicylate are therapeutic agents in current use for the treatment of KD, though their exact mechanisms of action in KD are not known. The biologic effects of IVIG and salicylate on critical stages of disease development were examined. IVIG and salicylate had differential effects on TNF-α expression, with therapeutic concentrations of IVIG inhibiting, and salicylate inducing, TNF-α expression leading to an indirect modulation of MMP-9 expression. Interestingly, TNF-α expression and MMP-9 activity were both directly inhibited by the metal-chelating drug doxycycline. Treatment of affected mice with doxycycline significantly improved coronary outcome. Inhibiting both the inflammatory response as well as the downstream effects of inflammation were of therapeutic value in this model of KD. These results taken together demonstrate the importance of MMP-9 in the pathogenesis of coronary artery aneurysms in KD. Targeting MMP activity holds the promise of transforming KD from the leading cause of acquired heart disease to a self-limited febrile illness.

vasculitis

matrix metalloproteinase

Kawasaki disease

tumour necrosis factor

0419

0982

Mechanism of cartilage destruction in osteoarthritis

Ishiguro, Naoki, Kojima, Toshihisa, Poole, A.Robin

11 1900

No description available.

osteoarthritis

matrix metalloproteinase

aggrecan

type II collagen

aggrecanase

Molecular mechanisms of tumor invasion in three-dimensional collagen matrices

Fisher, Kevin E.,

January 2007

Thesis (Ph. D.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Vita. "August 2007" Includes bibliographical references.

Expressão de MMP-13 e ativação de vias de sinalização intracelular em dois modelos de doença periodontal induzida experimentalmente em ratos /

Aquino, Sabrina Garcia de.

January 2008

Resumo: A progressão da doença periodontal é marcada pela excessiva produção de citocinas que, por sua vez, promove o aumento de outros mediadores inflamatórios, entre os quais, de metaloproteinases de matriz (MMPs). MMP-13 é uma colagenase de regulação complexa que tem sido relacionada à degradação da matriz extracelular (ECM) e à reabsorção óssea em diversas condições inflamatórias, incluindo doença periodontal e artrite reumatóide. A regulação da expressão gênica requer a ativação de várias vias de sinalização através da interação de receptores celulares específicos a estímulos externos, como antígenos bacterianos e citocinas derivadas do hospedeiro. A complexidade da rede de citocinas estabelecida durante a progressão da doença periodontal depende das vias de sinalização ativadas, as quais são influenciadas pela natureza do estímulo extracelular. Considerando o papel fundamental das vias de sinalização no controle da expressão gênica de citocinas e a relevante atividade de MMP-13 na doença periodontal, este estudo avaliou a expressão de MMP-13 e as vias de sinalização ativadas durante o curso de dois modelos de doença periodontal induzida experimentalmente. A expressão de MMP-13 nos níveis de RNA mensageiro (mRNA) e proteína foram avaliados por RT-PCR e Western Blot, respectivamente. A cinética de ativação das vias de sinalização intracelular relacionadas à expressão de mediadores inflamatórios também foi verificada por Western Blot. Estes achados foram relacionados à severidade da reação inflamatória determinada por estereometria. Dois modelos experimentais foram usados: injeção de LPS e colocação de ligadura. Injeções de LPS de Eschericia coli foram realizadas na região palatina de molares superiores 2 vezes por semana (30 μg por aplicação). Ligaduras foram colocadas na região cervical dos primeiros molares inferiores. / Abstract: The hallmark of destructive periodontal disease progression is the overproduction of cytokines which promotes the increased expression of other inflammatory mediators such as, MMPs. MMP-13 is a collagenase of complex gene regulation that has been implicated on ECM degradation and bone resorption in several inflammatory conditions, including periodontal disease and rheumatoid arthritis. Regulation of gene expression requires the activation of several signaling pathways through receptor-ligand binding of external stimuli represented by bacterial antigens and/or host-derived cytokines. The complexity of the cytokine network established during periodontal disease progression results from the signaling pathways activated, which are determined by the nature of external stimuli. Thus, considering the fundamental role of signaling pathways on regulation of cytokine gene expression and the relevant role of MMP-13 in periodontal disease, this study evaluated the expression of MMP-13 and the signaling pathways activated during the course of two experimentallyinduced periodontal disease models. Expression of MMP-13 at mRNA and protein levels was evaluated by reverse transcription polymerase chain reaction (RT-PCR) and Western Blot, respectively. The activation kinetics of some signaling pathways that are related to the expression of inflammatory mediators was also verified by Western Blot. The two experimental models used were: LPS injections and placement of ligatures. Bi-weekly injections of Eschericia coli LPS were done into the palatal aspect of upper molars (30 μg per injection). Ligatures were placed at the cervical portion of both lower first molars. The control animals received injections of PBS vehicle on the palatal gingiva of upper molars, whereas no ligatures were placed on the lower molars. / Orientador: Carlos Rossa Junior / Coorientador: Joni Augusto Cirelli / Banca: Luis Carlos Spolidorio / Banca: Raquel Fernanda Gerlach / Mestre

Matrix metalloproteinase 13. eng

Periodontal diseases. eng

Rats. eng

Expressão de MMP-13 e ativação de vias de sinalização intracelular em dois modelos de doença periodontal induzida experimentalmente em ratos

Aquino, Sabrina Garcia de [UNESP]

17 March 2008

Made available in DSpace on 2014-06-11T19:28:02Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-03-17Bitstream added on 2014-06-13T18:57:06Z : No. of bitstreams: 1 aquino_sg_me_arafo.pdf: 704637 bytes, checksum: 57b6c6c83912b4a76a076f13dbd3ee7a (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A progressão da doença periodontal é marcada pela excessiva produção de citocinas que, por sua vez, promove o aumento de outros mediadores inflamatórios, entre os quais, de metaloproteinases de matriz (MMPs). MMP-13 é uma colagenase de regulação complexa que tem sido relacionada à degradação da matriz extracelular (ECM) e à reabsorção óssea em diversas condições inflamatórias, incluindo doença periodontal e artrite reumatóide. A regulação da expressão gênica requer a ativação de várias vias de sinalização através da interação de receptores celulares específicos a estímulos externos, como antígenos bacterianos e citocinas derivadas do hospedeiro. A complexidade da rede de citocinas estabelecida durante a progressão da doença periodontal depende das vias de sinalização ativadas, as quais são influenciadas pela natureza do estímulo extracelular. Considerando o papel fundamental das vias de sinalização no controle da expressão gênica de citocinas e a relevante atividade de MMP-13 na doença periodontal, este estudo avaliou a expressão de MMP-13 e as vias de sinalização ativadas durante o curso de dois modelos de doença periodontal induzida experimentalmente. A expressão de MMP-13 nos níveis de RNA mensageiro (mRNA) e proteína foram avaliados por RT-PCR e Western Blot, respectivamente. A cinética de ativação das vias de sinalização intracelular relacionadas à expressão de mediadores inflamatórios também foi verificada por Western Blot. Estes achados foram relacionados à severidade da reação inflamatória determinada por estereometria. Dois modelos experimentais foram usados: injeção de LPS e colocação de ligadura. Injeções de LPS de Eschericia coli foram realizadas na região palatina de molares superiores 2 vezes por semana (30 μg por aplicação). Ligaduras foram colocadas na região cervical dos primeiros molares inferiores. / The hallmark of destructive periodontal disease progression is the overproduction of cytokines which promotes the increased expression of other inflammatory mediators such as, MMPs. MMP-13 is a collagenase of complex gene regulation that has been implicated on ECM degradation and bone resorption in several inflammatory conditions, including periodontal disease and rheumatoid arthritis. Regulation of gene expression requires the activation of several signaling pathways through receptor-ligand binding of external stimuli represented by bacterial antigens and/or host-derived cytokines. The complexity of the cytokine network established during periodontal disease progression results from the signaling pathways activated, which are determined by the nature of external stimuli. Thus, considering the fundamental role of signaling pathways on regulation of cytokine gene expression and the relevant role of MMP-13 in periodontal disease, this study evaluated the expression of MMP-13 and the signaling pathways activated during the course of two experimentallyinduced periodontal disease models. Expression of MMP-13 at mRNA and protein levels was evaluated by reverse transcription polymerase chain reaction (RT-PCR) and Western Blot, respectively. The activation kinetics of some signaling pathways that are related to the expression of inflammatory mediators was also verified by Western Blot. The two experimental models used were: LPS injections and placement of ligatures. Bi-weekly injections of Eschericia coli LPS were done into the palatal aspect of upper molars (30 μg per injection). Ligatures were placed at the cervical portion of both lower first molars. The control animals received injections of PBS vehicle on the palatal gingiva of upper molars, whereas no ligatures were placed on the lower molars.

Metaloproteinase 13

Doenças periodontais

Matrix metalloproteinase 13

Periodontal diseases

Rats

Tumour specific targeted in vitro theranostics application of fabricated nanostructures in a multi-drug resistant ovarian carcinoma cell line

Taute, C.J.F

January 2013

Philosophiae Doctor - PhD / Ovarian cancer is called the “Silent Killer” as it is often diagnosed in advanced stages of the disease or misdiagnosed which ends with a poor prognostic outcome for the patient. A high rate of disease relapse, a high incidence-to-mortality ratio as well as acquired multidrug resistance makes it necessary to find alternative diagnostic- and therapeutic tools for ovarian cancer. Nanotechnology describes molecular devices with at least one dimension in the sub- 1μm scale and has been suggested as a possible solution for overcoming challenges in cancer multidrug resistance as well as early diagnosis of the disease. One-pot synthesized gold nanoparticles were used to demonstrate in vitro drug delivery of doxorubicin in a manner which overcame the cytoprotective mechanisms of a multidrug resistant ovarian carcinoma cell line (A2780cis) by inducing apoptosis mediated by caspase-3 within 3h of treatment. The gold nanoparticles were further functionalized with nitrilotriacetic acid and displayed specific interaction with a 6xHis-tagged cancer targeting peptide, chlorotoxin. Proprietary indium based quantum dots were functionalized with the same surface chemistry used for gold nanoparticles and bioconjugated with chlorotoxin. Wide field fluorescence studies showed the peptide-quantum dot construct specifically targeted enhanced green fluorescent tagged matrix metalloproteinase-2 transfected A2780cis cells in a specific manner. The cytoprotective multidrug resistant mechanisms of the ovarian carcinoma was overcome successfully with a single dose of doxorubicin loaded gold nanoparticles and tumour specific targeting was demonstrated using quantum dots with a similar surface chemistry used for the gold nanoparticles.

Ovarian cancer

Gold nanoparticles

Multidrug resistance

Matrix metalloproteinase-2

Molecular Mechanisms of MMP9 Expression in Astrocytes Induced by Heme and Iron

Hasim, Mohamed Shaad

January 2012

The disruption of the blood-brain barrier (BBB) occurs after ischemic and hemorrhagic stroke and contributes to secondary brain damage. Matrix metalloproteinase-9 (MMP9) has been identified to be the main mediator of post-stroke BBB disruption. It is unknown whether deposition of heme/iron in the brain following stroke would affect MMP9 expression. In this study, I have demonstrated that heme/iron up-regulated MMP9 expression in rat astrocytes and that this upregulation was most likely due to reactive oxygen species (ROS) generated by heme/iron deposition on cells. ROS can activate AP-1 and NFκB signaling pathways which were responsible for increased MMP9 expression. Inhibiting AP-1 and NFκB decreased MMP9 expression. Heme/iron deposition also activated Nrf-2 and increased the expression of neuroprotective heme oxygenase-1. My study suggests that heme and iron deposition generates ROS and increases MMP9 expression through AP-1 and NFκB signaling pathways and that targeting these pathways or clearance of heme and iron may modulate MMP9 expression for reduced damage.

Matrix Metalloproteinase 9

MMP9

Blood Brain Barrier

Heme

Ischemic Stroke

Elevated Matrix Enzyme Activity Is Associated with the Progression of Pulmonary Vascular Disease In the Nitrofen Model of Congenital Diaphragmatic Hernia

Wild, Benjamin

January 2015

Pulmonary vascular disease (PVD) and lung hypoplasia (LH) are the two main causes of mortality and morbidity in patients with congenital diaphragmatic hernia (CDH). Previous studies have shown that remodeling of the extracellular matrix (ECM) by elastase and matrix metalloproteinase (MMP) enzymes, concomitant with smooth muscle cell (SMC) proliferation and deposition of ECM proteins and growth factors, leads to primary pulmonary hypertension (PH) and that blockade of this pathway results in disease reversal. The aim of our study is to determine whether a similar pathway is induced in the PVD associated with CDH and to verify whether its inhibition will lead to reversal of PVD. Firstly, we confirmed various aspects of PVD in the nitrofen induced CDH rat model. These included: left lung hypoplasia, right ventricular hypertrophy, and increased arterial smooth muscle wall thickness alongside decreases in arterial lumen area and total number of distal pulmonary vessels. We also showed increases in elastase and matrix metalloproteinase (MMP) enzyme activities within distal pulmonary arteries (PAs), which, we were able to inhibit using serine elastase (sivelestat, elafin, and serpina1) and MMP (GM6001) inhibitors. Furthermore, we confirmed increased SMC proliferation and deposition of osteopontin (OPN) and epidermal growth factor (EGF) within the diseased vasculatures. We are now working on using sivelestat and GM6001 pharmaceuticals as well as endothelial progenitor cells (EPCs) and mesenchymal stem cells (MSCs) modified to express elafin and serpina1 to determine their abilities to reverse the PVD associated with CDH. This project is part of our translational research program with the ultimate goal of developing a novel strategy of targeting PVD in infants with CDH to improve patient survival and long-term outcome.

Elastase

Matrix metalloproteinase

Congenital diaphragmatic hernia

Pulmonary vascular disease

The Impact of Environmental Heavy Metal Exposures on Pregnancy and Birth Outcomes

Au, Felicia

January 2016

Background: There is still a paucity of information on maternal biological mechanisms specific to adverse birth outcomes despite maternal environmental exposure and health status being known to influence neonatal morbidity and mortality. The purpose of this study was to explore maternal biomarkers pertinent to infant development in utero, specifically matrix metalloproteinases (MMPs), and determine their relationships to environmental heavy metals such as arsenic, cadmium, lead, mercury, and manganese as well as their relationships to outcomes such as preterm birth, low birth weight and small for gestational age infant outcomes. Methods: A secondary data analysis on 1533 mother-infant pairs from the Maternal and Infant Research on Environmental Chemicals (MIREC) cohort was conducted to statistically test relationships between metals and biomarkers, as well as biomarkers and outcome. A systematic literature review and meta-analysis was also conducted to identify the interdependencies between maternal blood biomarkers relating to adverse pregnancy outcomes. Results: Multivariate regression models were used to estimate odds ratios (OR) for the association between metal concentrations in quartiles and both high (90%) and low (10%) maternal MMP levels. Significant metal-related effects were observed with different MMP responses. A total of 54 studies (35 for meta-analysis), including 43,702 women and evaluating 50 biomarkers, met the inclusion criteria and all subgroups of biomarkers showed significant associations with birth outcomes with no apparent publication bias. Conclusions: Maternal plasma markers may serve as potentially valuable tools in the investigation of maternal molecular mechanisms, especially select toxicity pathways underlying metal-mediated adverse infant outcomes. Further research is still needed to evaluate biomarkers such as proteomic and genetic profiles in other various maternal biological samples.

maternal biomarkers

metals

pregnancy

birth outcome

matrix metalloproteinase

Estudo do perfil proteolítico da matriz dentinária e interface adesiva = comportamento mecânico, bioquímico e efeito da clorexidina / Proteolytic profile of the dentin matrix and adhesive interface : mechanical, biochemical behavior and effect of chlorhexidine = Estudo do perfil proteolítico da matriz dentinária e interface adesiva: comportamento mecânico, bioquímico e efeito da clorexidina

Scaffa, Polliana Mendes Candia, 1983-

12 November 2012

Orientador: Marcela Rocha de Oliveira Carrilho, Mario Fernando de Góes / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Odontologia de Piracicaba / Made available in DSpace on 2018-08-22T04:19:13Z (GMT). No. of bitstreams: 1 Scaffa_PollianaMendesCandia_D.pdf: 3692601 bytes, checksum: 6b5331b03a6d5fcfc0192039b767ea01 (MD5) Previous issue date: 2012 / Resumo: Para o entendimento do processo de adesão à dentina é fundamental conhecer a estrutura bioquímica e biomecânica deste substrato em condições normais ou quando submetido às diferentes etapas do procedimento restaurador adesivo. Evidências indicam que a reportada degradação da camada híbrida pode ocorrer pela ação de enzimas proteolíticas, pertencentes à família das metaloproteinases da matriz (MMPs) e das cisteíno-catepsinas (CTs). No entanto, é ainda necessário elucidar as funções biológicas dessas enzimas nesse processo, bem como, definir uma estratégia para prolongar a durabilidade das restaurações adesivas. O presente estudo teve como objetivo caracterizar o perfil proteolítico da dentina humana frente a sua exposição a diferentes concentrações de digluconato de clorexidina (CHX), um potente inibidor da atividade de MMPs. O efeito da CHX sobre a atividade proteolítica intrínseca da dentina foi avaliado a partir da análise do comportamento mecânico e bioquímico da matriz dentinária e da durabilidade de restaurações adesivas. No primeiro estudo, foi analisada a capacidade da CHX em inibir a atividade das CTs (B, K e L) por hidrólise de substratos fluorogênicos específicos, verificando a afinidade de ligação entre a CHX e as enzimas. No segundo estudo, o tratamento da matriz de dentina com diferentes concentrações de CHX foi avaliado pela análise do módulo de elasticidade e do grau de hidrólise do colágeno (liberação de hidroxiprolina) após armazenagem das amostras em solução fisiológica por 1 dia, 7 ou 30 dias. Finalmente, a função terapêutica da CHX como agente inibitório da atividade proteolítica da dentina foi investigada a partir de sua capacidade em preservar a integridade mecânica (resistência de união) e morfológica de interfaces adesivas tratadas com diferentes concentrações de CHX (0,2; 2,2 e 22 mM) e armazenadas por 6 a 18 meses. No terceiro estudo, a presença das CT-B e CT-K na dentina humana foram avaliadas por imunomarcação em MEV e MET. A atividade enzimática das MMPs e CTs na dentina e uma possível interação entre as duas famílias de enzimas foram verificadas por zimografia in situ e por espectrofluorimetria. Os resultados mostraram, de forma até então inédita, que a CHX é um potente inibidor das CTs presentes no complexo dentino-pulpar. No entanto, a CHX não foi capaz de preservar integralmente o módulo de elasticidade (E) da matriz dentinária após o período mais longo de armazenagem. De modo similar, maior grau de hidrólise do colágeno ocorreu após 30 dias de armazenamento para as amostras que não foram tratadas com CHX ou que foram tratadas com baixa concentração da mesma (0,2 mM) (p<0,05). Notavelmente, o grau de hidrólise do colágeno foi mínimo ou insignificante quando a matriz dentinária foi tratada com concentração mais elevada de CHX (22 mM) (p>0,05). A CHX não afetou a resistência de união imediata da interface adesiva e preservou a resistência da união dentina/resina mesmo após 6 ou 18 meses de armazenamento. Similarmente, menor grau de nanoinfiltração com prata, significando maior integridade morfológica, foi observado para os espécimes tratados com CHX e envelhecidos por 6 ou 18 meses em comparação com as amostras do grupo controle. As imagens de imuno-histoquímica mostraram que as proteases CT-B e CT-K estão presentes na dentina humana, e não apenas na região de pré-dentina e interior dos túbulos dentinários como anteriormente antecipado. A zimografia in situ sugere que a atividade gelatinolítica das MMPs na dentina parece ser preponderante em relação à atividade das CTs, embora a espectrofluorimetria sugira que a atividade proteolítica de ambas as famílias de enzimas esteja presente no tecido dentinário. Dessa forma, concluiu-se que MMPs e CTs podem atuar sinergicamente na degradação da matriz orgânica dentinária, mas que parte dessa atividade proteolítica pode ser controlada pela presença de CHX, sobretudo, se essa estiver confinada no interior da camada híbrida / Abstract: To better understand the process of adhesion to dentin is essential to understand the biochemical and biomechanical structures of this substrate under normal conditions or when subjected to the different steps of the adhesive restorative procedure. Evidences indicate that the hybrid layer degradation can result from the activity of proteolytic enzymes, belonging to the family of matrix metalloproteinases (MMPs) and cysteine-cathepsins (CTs). However, it is still necessary to comprehend the role of these enzymes in this degrading process as well as to determine the best way to extend the durability of adhesive restorations. The general purpose of the present study was to characterize the human dentin proteolytic profile when exposed to different concentration of chlorhexidine digluconate (CHX), a potent inhibitor of MMPs activity. The effect of CHX on the dentin endogenous proteolytic activity was evaluated by the analysis of dentin matrix mechanical and biochemical properties and adhesive restorations durability. The first study evaluated the CHX ability to inhibit CTs (B, K and L) activity by the hydrolysis of fluorogenic substrates, verifying the binding affinity between CHX and enzymes. The dentin matrix treatment with different CHX concentrations was evaluated in the second study by the elastic modulus (E) and degree of collagen hydrolysis (hydroxyproline release) after storage for 1, 7 or 30 days in saline solution. Finally, the CHX therapeutic action as an inhibitor of dentin proteolytic activity was investigated by its ability to maintain the mechanical (bond strength) and morphological (nanoleakage) properties of adhesive interfaces treated with different CHX concentrations (0.2, 2.2 and 22 mM) after aging for 6 to 18 months. The third study evaluated the presence of CT-B and CT-K in human dentin using immunolabeling in SEM and TEM. MMPs and CTs proteolytic activities and a possible interaction between these two families were verified by in situ zymography and by spectrofluorimetry. Results showed, for the first time, that the CHX is a potent inhibitor of CTs in the pulp-dentin complex. However, CHX was not able to preserve the integrity of the dentin matrix E after the longest storage period. Likewise, higher collagen hydrolysis occurred after 30 days of storage when the samples were not treated or treated with low CHX concentration (0.2 mM) (p<0.05). It was noticeable that the collagen hydrolysis was minimum or insignificant when the dentin matrix was treated with the highest CHX concentration (22 mM) (p>0.05). CHX did not affect the immediate bond strength of adhesive interfaces and preserved the resin/dentin bond strength even after 6 or 18 months of storage. Similarly, less nanoleakage with silver particles, which means better morphological integrity, was observed for specimens treated with CHX and aged for 6 or 18 months in comparison with control samples. Immunohistochemistry images showed that the proteases CT-B and CT-K are present in human dentin matrix, not only in pre-dentin region and inside the dentin tubules as previous suggested. In situ zymography suggests that the MMPs gelatinolytic activity in dentin seems to be predominant when compared to CTs activities, although the spectrofluorimetry suggests that the proteolytic activity of both families of enzymes are present in dentin. In this way, it was concluded that MMPs and CTs may synergistically act in the dentin organic matrix degradation, but part of this proteolytic activity can be controlled by the presence of CHX, especially when it is restrained inside the hybrid layer / Doutorado / Materiais Dentarios / Doutora em Materiais Dentários

Catepsinas

Metaloproteinases da matriz

Dentina

Cathepsins

Matrix Metalloproteinase

Dentin