Novel intracellular role of matrix metalloproteinase-2 in cardiac cell injury

Ali, Mohammad M. A.

Unknown Date

No description available.

matrix metalloproteinase-2

cytosolic

ischemia/reperfusion

cell death

calpain inhibitors

titin

Matrix metalloproteinase-2 mediates angiotensin II-induced hypertension

Odenbach, Jeffrey

Unknown Date

No description available.

matrix metalloproteinase

hypertension

angiotensin II

cardiac hypertrophy

cardiac fibrosis

hypertensive cardiac remodelling

RNA interference

The Role of Matrix Metalloproteinase-2 in the Pathophysiology of a Reduced Utero-Placental Perfusion Pressure Model of Preeclampsia

Abdalvand, Ali

Unknown Date

No description available.

Preeclampsia

Matrix Metalloproteinase-2

Animal Model

Designing a Matrix Metalloproteinase-7-activated Quantum Dot Nanobeacon for Cancer Detection Imaging

Hung, Hsiang-Hua Andy

24 February 2009

Quantum Dot (QD) nanobeacons distinguish themselves from molecular beacons with the promise of non-linear activation, tunability, and multi-functionality. These unique features make them highly attractive for cancer detection imaging with opportunities for increased signal-to-background ratio and tunable sensitivity. In this thesis, a nanobeacon was designed to target matrix metalloproteinase-7 (MMP-7), known to be over-expressed by a wide array of tumours. The nanobeacon is normally dark until specifically activated by MMP-7. The overall design strategy links single QDs to multiple energy acceptors by GPLGLARK peptides that can be cleaved specifically by MMP-7. However, design details such as the choice of energy acceptor and conjugation method was found to drastically alter the function of the nanobeacon. Studies of nanobeacons synthesized with Black Hole Quencher-1 or Rhodamine Red by either covalent conjugation or electrostatic self-assembly revealed that peptide conformation and bonding flexibility are both important considerations in nanobeacon design due to QD sterics.

Quantum dot

Matrix metalloproteinase

Cancer detection

Optical imaging

Protease sensor

Nanotechnology

0541

Investigation of the Production, Distribution, and Trafficking of MMP-9 in Classically Activated Macrophages

Hanania, Raed

29 November 2012

As major effector cells of the innate immune response, macrophages must adeptly migrate from blood to infected tissues. Endothelial transmigration is accomplished by matrix metalloproteinase (MMP)-induced degradation of basement membrane and extracellular matrix components. The classical activation of macrophages with LPS and IFN-γ causes enhanced microtubule stabilization and secretion of MMPs. Macrophages upregulate MMP-9 expression and secretion upon immunological challenge, and require its activity for migration during inflammatory response. However, the dynamics of MMP-9 production and intracellular distribution, as well as the mechanisms responsible for its trafficking, are unknown. Using immunofluorescent imaging, we localized intracellular MMP-9 to small Golgi-derived cytoplasmic vesicles that contain calreticulin and PDI, in activated macrophages. Vesicular organelles of MMP-9 aligned along stable subsets of microtubules and colocalized with the anterograde molecular motor protein, kinesin. We demonstrated a functional contribution of stable MTs in the enhanced trafficking of MMP-9 extracellularly, and showed that heterogeneity exists in macrophage cell populations with respect to MMP-9 production.

macrophages

MMP-9

microtubules

Macrophage activation

Matrix Metalloproteinase 9

Trafficking

0379

The Role of Vascular Matrix Metalloproteinase-2 and Heme Oxygenase-2 in Mediating the Response to Hypoxia

He, Jeff ZiJian

24 September 2009

Systemic hypoxia frequently occurs in patients with cardiopulmonary diseases. Maintenance of vascular reactivity and endothelial viability is essential to preserving oxygen delivery in these patients. The role of matrix metalloproteinase-2 (MMP-2) and heme oxygenase-2 (HO-2) in the vascular response to hypoxia were investigated. In the first part of the thesis, the role of MMP-2 in regulating systemic arterial contraction after prolonged hypoxia was investigated. MMP-2 inhibition with cyclic peptide CTTHWGFTLC (CTT) reduced phenylephrine (PE)-induced contraction in aortae and mesenteric arteries harvested from rats exposed to hypoxia for 7 d. Responses to PE were reduced in MMP-2-/- mice exposed to hypoxia for 7 d compared to wild-type controls. CTT reduced contraction induced by big endothelin-1 (big ET-1) in aortae harvested from rats exposed to hypoxia. Increased contraction to big ET-1 after hypoxia was observed in wild-type controls, but not MMP-2-/- mice. Rat aortic MMP-2 and MT1-MMP protein levels and MMP activity were increased after 7 d of hypoxia. Rat aortic MMP-2 and MT1-MMP mRNA levels were increased in the deep medial vascular smooth muscle. These results suggest that hypoxic induction of MMP-2 activity potentiates contraction in systemic conduit and resistance arteries through proteolytic activation of big ET-1. The second part of the thesis investigated oxygen regulation of HO-2 protein and whether it plays a role in preserving endothelial cell viability during hypoxia. HO-2, but not HO-1, protein level was maintained during hypoxia in human endothelial cells through enhanced translation of HO-2 transcripts. Inhibition of HO-2 expression increased the production of reactive oxygen species, decreased mitochondrial membrane potential, and enhanced apoptotic cell death and activated caspases during hypoxia, but not during normoxia. These data indicate that HO-2 is translationally regulated and important in maintaining endothelial viability and function during hypoxia. In summary, the thesis demonstrates the importance of MMP-2 and HO-2 in preserving vascular function during prolonged systemic hypoxia. These enzymatic pathways may, therefore, represent novel therapeutic targets that may be exploited to ameliorate the effects of hypoxia in patients with cardiopulmonary disease.

hypoxia

endothelium

matrix metalloproteinase-2

heme oxygenase-2

apoptosis

protein translation

vascular reactivity

0307

Designing a Matrix Metalloproteinase-7-activated Quantum Dot Nanobeacon for Cancer Detection Imaging

Hung, Hsiang-Hua Andy

24 February 2009

Quantum Dot (QD) nanobeacons distinguish themselves from molecular beacons with the promise of non-linear activation, tunability, and multi-functionality. These unique features make them highly attractive for cancer detection imaging with opportunities for increased signal-to-background ratio and tunable sensitivity. In this thesis, a nanobeacon was designed to target matrix metalloproteinase-7 (MMP-7), known to be over-expressed by a wide array of tumours. The nanobeacon is normally dark until specifically activated by MMP-7. The overall design strategy links single QDs to multiple energy acceptors by GPLGLARK peptides that can be cleaved specifically by MMP-7. However, design details such as the choice of energy acceptor and conjugation method was found to drastically alter the function of the nanobeacon. Studies of nanobeacons synthesized with Black Hole Quencher-1 or Rhodamine Red by either covalent conjugation or electrostatic self-assembly revealed that peptide conformation and bonding flexibility are both important considerations in nanobeacon design due to QD sterics.

Quantum dot

Matrix metalloproteinase

Cancer detection

Optical imaging

Protease sensor

Nanotechnology

0541

Investigation of the Production, Distribution, and Trafficking of MMP-9 in Classically Activated Macrophages

Hanania, Raed

29 November 2012

As major effector cells of the innate immune response, macrophages must adeptly migrate from blood to infected tissues. Endothelial transmigration is accomplished by matrix metalloproteinase (MMP)-induced degradation of basement membrane and extracellular matrix components. The classical activation of macrophages with LPS and IFN-γ causes enhanced microtubule stabilization and secretion of MMPs. Macrophages upregulate MMP-9 expression and secretion upon immunological challenge, and require its activity for migration during inflammatory response. However, the dynamics of MMP-9 production and intracellular distribution, as well as the mechanisms responsible for its trafficking, are unknown. Using immunofluorescent imaging, we localized intracellular MMP-9 to small Golgi-derived cytoplasmic vesicles that contain calreticulin and PDI, in activated macrophages. Vesicular organelles of MMP-9 aligned along stable subsets of microtubules and colocalized with the anterograde molecular motor protein, kinesin. We demonstrated a functional contribution of stable MTs in the enhanced trafficking of MMP-9 extracellularly, and showed that heterogeneity exists in macrophage cell populations with respect to MMP-9 production.

macrophages

MMP-9

microtubules

Macrophage activation

Matrix Metalloproteinase 9

Trafficking

0379

Investigation into the proteolytic activity in chronic wound fluid and development of a remediation strategy

Rayment, Erin Alexis

January 2007

Chronic ulcers are an important and costly medical issue, causing their sufferers a large amount of pain, immobility and decreased quality of life. The common pathology in these chronic wounds is often characterised by excessive proteolytic activity, leading to the degradation of both the extracellular matrix, as well as key factors critical to the ulcer's ability to heal. As matrix metalloproteinases (MMPs), a large family of zinc-dependent endopeptidases, have been shown to have increased activity in chronic wound fluid (CWF), it was hypothesised that this specific proteolytic activity was directly related to an ulcer's chronic nature. Although previous studies have identified elevated proteases in CWF, many have reported contradictory results and therefore the precise levels and species of MMPs in CWF are poorly understood. The studies reported herein demonstrate that MMP activity is significantly elevated in CWF compared with acute wound fluid (AWF). In particular, these studies demonstrate that this proteolytic activity can be specifically attributed to MMPs and not another class of proteases present in wound healing. Furthermore, it is shown that MMP-9 is the predominant protease responsible for matrix degradation by CWF and is an indicator of the clinical status of the wound itself. Moreover, MMP-9 can be inhibited with the bisphosphonate alendronate, in the form of a sodium salt, a functionalised analogue, and also tethered to a synthetic biocompatible hydrogel compromised of aqueous poly (2-hydroxy methacrylate) PHEMA synthesised in the presence of poly(ethylene glycol) (PEG). Together, these results highlight the potential use of a tethered MMP inhibitor as an improved ulcer treatment to inhibit protease activity in the wound fluid, while still allowing MMPs to remain active in the wound bed where they perform vital roles in the activation of growth-promoting agents and immune system regulation.

wound healing

chronic ulcer

hydrogel

matrix metalloproteinase

gelatinase

zymography

protease inhibition

wound dressing

biomaterials

tissue engineering

Studies on the phenotype and function of osteoclasts using osteopetrotic and rachitic animal models /

Hollberg, Karin,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.