The role of MMP10 in non-small cell Lung cancer, and pharmacological evaluation of its potential as a target for therapeutic intervention. Investigation of the role of MMP10 in the tumour microenvironment of non-small cell lung cancer using gene, protein and mass spectrometry approaches to determine MMP10’s potential in drug development strategies

Bin Saeedan, Abdulaziz S.A.

January 2014

Non-Small Cell Lung Cancer (NSCLC), which accounts for 80% of all lung cancer cases, is associated with resistance to chemotherapy and poor prognosis. Exploitation of NSCLC-upregulated pathways that can either be targeted by novel therapeutics or used to improve the tumour-delivery of current chemotherapeutics are required. Among the matrix metalloproteinases (MMPs) that are essential for tumour development, MMP10 is a potential candidate as a therapeutic target based on its expression and contribution to NSCLC development. This research aims to explore the expression and functions of MMP10 in the tumour microenvironment of NSCLC and evaluate the potential of MMP10 as a target for therapeutic intervention. Herein, MMP10 expression at gene and protein levels were analysed in a panel of NSCLC cell lines using RT-PCR and Western blotting analysis. To determine MMP10 functional relevance, an in vitro angiogenesis assay using cell conditioned media was carried out. To identify specific peptide sequences for the design of prodrugs rationalised to be MMP10 activated, in vitro substrate cleavage studies were performed using a mass spectrometry approach to differentiate between MMP10 and the structurally similar MMP3. This study demonstrates that MMP10 is highly expressed in NSCLC and that high levels of MMP10 are associated with induction of angiogenesis, a crucial process supporting tumour growth. In addition to the achievement of having been able to differentiate between closely similar MMP3 and MMP10 through carefully monitoring the hydrolysis rate of compound 444259 (a known MMP substrate), data generated herein provides the basis for further studies to exploit MMP10 as a prodrug-activator. / Full text was made available at the end of the embargo period, 12th Dec 2019

Immunohistochemical Demonstration of the pGlu79 α-Synuclein Fragment in Alzheimer’s Disease and Its Tg2576 Mouse Model

Bluhm, Alexandra, Schrempel, Sarah, Schilling, Stephan, von Hörsten, Stephan, Schulze, Anja, Roßner, Steffen, Hartlage-Rübsamen, Maike

03 November 2023

The deposition of β-amyloid peptides and of α-synuclein proteins is a neuropathological hallmark in the brains of Alzheimer’s disease (AD) and Parkinson’s disease (PD) subjects, respectively. However, there is accumulative evidence that both proteins are not exclusive for their clinical entity but instead co-exist and interact with each other. Here, we investigated the presence of a newly identified, pyroglutamate79-modified α-synuclein variant (pGlu79-aSyn)—along with the enzyme matrix metalloproteinase-3 (MMP-3) and glutaminyl cyclase (QC) implicated in its formation—in AD and in the transgenic Tg2576 AD mouse model. In the human brain, pGlu79-aSyn was detected in cortical pyramidal neurons, with more distinct labeling in AD compared to control brain tissue. Using immunohistochemical double and triple labelings and confocal laser scanning microscopy, we demonstrate an association of pGlu79-aSyn, MMP-3 and QC with β-amyloid plaques. In addition, pGlu79-aSyn and QC were present in amyloid plaque-associated reactive astrocytes that were also immunoreactive for the chaperone heat shock protein 27 (HSP27). Our data are consistent for the transgenic mouse model and the human clinical condition. We conclude that pGlu79-aSyn can be generated extracellularly or within reactive astrocytes, accumulates in proximity to β-amyloid plaques and induces an astrocytic protein unfolding mechanism involving HSP27.

info:eu-repo/classification/ddc/610

ddc:610

Protease Expression Levels in Prostate Cancer Tissue Can Explain Prostate Cancer-Associated Seminal Biomarkers: An Explorative Concept Study

Neuhaus, Jochen, Schiffer, Eric, Mannello, Ferdinando, Horn, Lars-Christian, Ganzer, Roman, Stolzenburg, Jens-Uwe

16 January 2024

Previously, we described prostate cancer (PCa) detection (83% sensitivity; 67% specificity) in seminal plasma by CE-MS/MS. Moreover, advanced disease was distinguished from organ-confined tumors with 80% sensitivity and 82% specificity. The discovered biomarkers were naturally occurring fragments of larger seminal proteins, predominantly semenogelin 1 and 2, representing endpoints of the ejaculate liquefaction. Here we identified proteases putatively involved in PCa specific protein cleavage, and examined gene expression and tissue protein levels, jointly with cell localization in normal prostate (nP), benign prostate hyperplasia (BPH), seminal vesicles and PCa using qPCR, Western blotting and confocal laser scanning microscopy. We found differential gene expression of chymase (CMA1), matrix metalloproteinases (MMP3, MMP7), and upregulation of MMP14 and tissue inhibitors (TIMP1 and TIMP2) in BPH. In contrast tissue protein levels of MMP14 were downregulated in PCa. MMP3/TIMP1 and MMP7/TIMP1 ratios were decreased in BPH. In seminal vesicles, we found low-level expression of most proteases and, interestingly, we also detected TIMP1 and low levels of TIMP2. We conclude that MMP3 and MMP7 activity is different in PCa compared to BPH due to fine regulation by their inhibitor TIMP1. Our findings support the concept of seminal plasma biomarkers as non-invasive tool for PCa detection and risk stratification.

info:eu-repo/classification/ddc/610

ddc:610

Effects of Methylglyoxal on the Extracellular Matrix and its Interaction with Cardiac Cells

Sheppard-Perkins, Eva

03 January 2023

Cardiovascular disease (CVD) is ranked the second leading cause of death in Canada, with 53,704 heart disease-related deaths documented in 2020 alone. After a patient sustains cardiac injury, such as a myocardial infarction (MI), the heart is often unable to undergo sufficient self-recovery for healthy cardiac regeneration and repair; this is largely attributed to fibrotic tissue development at the injury site and subsequent pathological ventricular remodeling. The prevalence of MI events has created a considerable demand to develop novel strategies for effective and safe post-MI therapies. Research has indicated that post-MI modifications interfere with endogenous cardiac repair mechanisms, resulting in a pathological state. After an infarction, there is an accumulation of methylglyoxal (MG) at the site of injury. It has been suggested that MG contributes to ventricular fibrotic development, however its underlying mechanism remains unclear. Additionally, the effects that the post-MI cardiac environment, specifically MG accumulation, has on post-MI therapies and biomaterials has not been sufficiently established. Accordingly, the primary focus of this research project is to elucidate the effects of MG on the collagen-rich extracellular matrix (ECM) of the heart and key cardiac cells involved in the repair process. Further, the interaction between MG and a promising collagen-based hydrogel therapy is investigated, exploring the effects of MG on the hydrogel’s degradative process. It was found that the MG modification of hydrogels did not alter the degradation rate. Additionally, the degradation products of hydrogels, and MG-modified substrates did not affect the properties and formation of myofibroblasts.

Biomaterial Degradation

Cardiac Fibroblasts

Cardiac Fibrosis

Collagen-based hydrogel

Collagen Type 1

Extracellular Matrix

Matrix Metalloproteinase-1

Methylglyoxal

Myocardial Infarction

Myofibroblasts

Ventricular Remodeling

A Spin-Coated Thermoresponsive Substrate for Rapid Cell Sheet Detachment and Its Applications in Cardiac Tissue Engineering

Patel, Nikul Girishkumar

15 May 2014

No description available.

Biomedical Engineering

Biomedical Research

rapid cell sheet detachment

thermally responsive material

Poly N-isopropylacrylamide

pNIPAAm

aminopropyltriethoxysilane

APTES

human mesenchcymal stem cells

MSC

matrix metalloproteinase

MMP

fibrin

infarct

Reactive species promotion of head and neck squamous cell carcinoma

Bradburn, Jennifer Elizabeth

05 January 2007

No description available.

Biology, Cell

AP-1

epidermal growth factor receptor

interleukin-8

VEGF

HNSCC

tumor necrosis factor

matrix metalloproteinase

reactive species

reactive oxygen species

reactive nitrogen species

NFkappaB

The Requirement of Matrix Metalloproteinase 2 and 9 in Transforming Growth Factor Beta Induced Epithelial to Mesenchymal Transition of Lens Epithelial Cells

Pino, Giuseppe

04 1900

<p><strong> </strong>Fibrotic cataracts such as anterior subcapsular cataract (ASC) are induced by transforming growth factor beta (TGFβ). The mechanism which governs TGFβ-mediated ASC has not been elucidated. What is known is that TGFβ initiates the conversion of lens epithelial cells (LECs) to myofibroblast-like cells, through a process known as epithelial to mesenchymal transition (EMT). TGFβ-induced EMT leading to ASC has been associated with the upregulation of two matrix metalloproteinases (MMPs), MMP2 and MMP9. However, roles for either of these MMPs have yet to be established in ASC. To determine the involvement of MMP2 and MMP9 I used synthetic inhibitors in conjunction with an established <em>ex vivo </em>rat lens model initiated by TGFβ. The results demonstrated that co-culturing rat lenses with TGFβ and the matrix metalloproteinase inhibitor (MMPI), GM6001 or an MMPI specific for MMP2/9 suppressed ASC. Additionally, studies conducted on the conditioned media from these treatments revealed that TGFβ induces the cleavage of E-cadherin ectodomain which is suppressed by coculturing with either MMPI. To further delineate a role for MMP9 <em>in vivo</em>, ASC formation was examined in two models of lens specific TGFβ overexpression in the absence of functional MMP9. Adenoviral delivery of TGFβ to the anterior chamber of the eye in the absence of functional MMP9 resulted in complete suppression of ASC. Similarly, lens specific TGFβ overexpression in the absence of MMP9 suppressed ASC in 75% of mouse lenses. Additional studies determined that connective tissue growth factor is able to mediate ASC, albeit to a lesser degree than TGFβ.</p> / Doctor of Philosophy (PhD)

lens

anterior subcapsular cataract

matrix metalloproteinases

matrix metalloproteinase inhibitors

transforming growth factor beta

epithelial to mesenchymal transition

Medical Molecular Biology

Medicine and Health Sciences

Medical Molecular Biology

MMP-10 is overexpressed, proteolytically active and a potential target for therapeutic intervention in human lung carcinomas

Gill, Jason H., Kirwan, Ian G., Seargent, Jill M., Martin, Sandie W., Tijani, S., Anikin, V.A., Mearns, A.J., Bibby, Michael C., Anthoney, Alan, Loadman, Paul

January 2004

No / Matrix metalloproteinase (MMP)-mediated degradation of the extracellular matrix is a major factor for tumor development and expansion. This study analysed MMP-10 protein expression and activity in human lung tumors of various grade, stage, and type to address the relationship between MMP-10 and tumor characteristics and to evaluate MMP-10 as a therapeutic target in non small cell lung carcinoma (NSCLC). Unlike the majority of MMPs, MMP-10 was located in the tumor mass as opposed to tumor stroma. MMP-10 protein was observed at low levels in normal human lung tissues and at significantly higher levels in all types of NSCLC. No correlation was observed between MMP-10 protein expression and tumor type, stage, or lymph node invasion. To discriminate between active and inactive forms of MMP-10 in samples of human NSCLC, we have developed an ex vivo fluorescent assay. Measurable MMP-10 activity was detected in 42 of 50 specimens of lung cancer and only 2 of 10 specimens of histologically normal lung tissue. No relationship was observed between MMP-10 activity levels and clinicopathologic characteristics. Our results suggest that MMP-10 is expressed and active at high levels in human NSCLC compared to normal lung tissues, and, as such, is a potential target for the development of novel therapeutics for lung cancer treatment.

Tumour Markers

Heterologous

Transplantation

Animals

Carcinoma

Cell line

Tumour

Enzyme activation

Immunohistochemistry

Lung neoplasms

Humans

Matrix Metalloproteinase 10

Metalloendopeptidases

Mice

Biological analysis

Targeted delivery of a colchicine analogue provides synergy with ATR inhibition in cancer cells

Barnieh, Francis M., Morais, Goreti R., Garland, Herbie, Loadman, Paul, Falconer, Robert A.

05 October 2023

Yes / Despite significant preclinical promise as anticancer agents, vascular-disrupting agents have yet to fulfil their clinical potential due to systemic toxicities. ICT2588 is a tumour-selective MT1-MMP-targeted prodrug of azademethylcolchicine, ICT2552. We investigate activation of ICT2588 and subsequent release of ICT2552 in tumour cells, and examine its ability to induce G2/M cell cycle arrest. We also explore synergism between ICT2588 and ATR inhibition, since colchicine, in addition to its vascular-disrupting properties, is known to induce G2/M arrest, DNA damage, and trigger apoptosis. Several ATR inhibitors are currently undergoing clinical evaluation. The cellular activation of ICT2588 was observed to correlate with MT1-MMP expression, with selective release of ICT2552 not compromised by cellular uptake and prodrug activation mechanisms. ICT2588 induced G2/M arrest, and triggered apoptosis in MT1-MMP-expressing cells, but not in cells lacking MT1-MMP expression, while ICT2552 itself induced G2/M arrest and triggered apoptosis in both cell lines. Interestingly, we uncovered that the intracellular release and accumulation dynamics of ICT2552 subsequent to prodrug activation provided synergism with an ATR inhibitor in a way not observed with direct administration of ICT2552. These findings have important potential implications for clinical combinations of ICT2588 and DNA repair inhibitors.

Colchicine

ICT2588

AZD6738 (Ceralasertib)

VDA (Vascular disrupting agent)

Anticancer agents

Cancer cells

Étude de l'activité anti-cancéreuse du PCK3145, un peptide dérivé de PSP-94, sur les cancers hématologiques

Guérin, Mireille

08 1900

Le PCK3145 est un peptide de 15 acides aminés inhibant la sécrétion de MMP-9 et démontrant une activité anti-tumorale contre le cancer de la prostate. Comme les cancers hématologiques sécrètent MMP-9, nous avons donc évalué l’effet du PCK3145 sur ces cancers. Nous avons démontré que les lignées humaines de lymphome non- Hodgkinien (LNH) SR et de myélome multiple RPMI-8226 ainsi que la lignée murine de mastocytome P815 ont une prolifération réduite suite à une exposition au PCK3145. Ce peptide diminue également la clonogénicité de ces cellules. In vivo, le PCK3145 diminue significativement la croissance des tumeurs sous-cutanées P815 comparativement au PBS (p<0.001) et aux peptides contrôles (« scrambled peptide » (p<0.05) et PCK5266 (p<0.01)). De plus, le traitement au PCK3145 diminue le nombre de métastases au niveau du foie par rapports aux contrôles (p<0.05). Les niveaux de MMP-9 dans le sang des souris traitées au PCK3145 sont similaires à ceux dans le sang des souris sans tumeur. Par contre, chez les souris recevant le PBS ou le « scrambled peptide », les niveaux de MMP-9 étaient significativement plus élevés que dans les souris sans tumeur et les souris traitées au PCK3145 (p<0.05). De surcroît, dans un modèle de xénogreffe, le PCK3145 diminue significativement la croissance des lymphomes SR par rapport au PBS (p<0.01) et au « scrambled peptide » (p<0.001). Ces résultats indiquent que le PCK3145 possède une activité anti-tumorale et pourrait représenter un agent intéressant pour le traitement de plusieurs cancers hématologiques. / PCK3145 has been shown to exert anti-tumor activity against prostate cancer cells. In a Phase I clinical study, this peptide demonstrated low toxicity. To determine whether PCK3145 could exert cytotoxic activity against other marrow infiltrating cancers, we tested its activity against hematologic cancers. Interestingly, PCK3145 inhibited the proliferation of human NHL (SR) and myeloma (RPMI-8226) cell lines and murine mastocytoma (P815) cell line in vitro. Moreover, PCK3145 reduced the clonogenicity of these cell lines. To explore its activity in vivo, DBA/2 mice were injected with P815 cells. PCK3145 treatment significantly decreased P815 tumors growth in comparison to PBS (p<0.001), scrambled peptide (p<0.05) and PCK5266 (amino acids 52-66 of PSP-94) (p<0.01). Intraperitoneal PCK3145 treatment led to a decreased number of liver metastasis compared to PBS (p<0.05) and scrambled peptide (p<0.05). MMP-9 levels, measured by ELISA, in the peripheral blood of treated P815 bearing mice were similar to those obtained with healthy animals (12.83 1.890 (mean SD) ng/ml and 6.48 0.4070 ng/ml, respectively), while MMP-9 levels were elevated in mice treated with PBS and scrambled peptide (35.12 8.559 ng/ml and 22.60 3.944 ng/ml, respectively; p<0.05). In NOD/SCID mice PCK3145 treatment resulted in significant inhibition of human NHL SR growth compared to treatment with PBS (p<0.001) and scrambled peptide (p<0.01). Consequently, treatment with PCK3145 can reduce tumor cell proliferation of murine and human hematologic cancers. In addition, PCK3145 has the potential to inhibit tumor cells dissemination by lowering MMP-9 secretion. Thus, PCK3145 represents a unique peptide demonstrating sequence-specific anti-tumor activity hematologic malignancies.

Lymphome non-Hodgkinien

Myélome multiple

Mastocytome

Leucémie

Matrice metalloprotéinase-9 (MMP-9)

Métastase

Angiogénèse

Xénogreffe

Non-Hodgkin's lymphoma

Multiple myeloma

Mastocytoma

Leukemia

Matrix metalloproteinase-9 MMP-9

Metastasis

Angiogenesis

Xenograft model