Diabetic foot ulcers (DFUs) are a complication of diabetes that have long been neglected. To date, a single drug (becaplermin containing platelet-derived growth factor, PDGF) has been approved by the FDA 27 years ago; however, it is seldom used because of its modest efficacy. The standard-of-care for DFUs is debridement, off-loading, and infection control with antibiotics, with hyperbaric oxygen (HBO) therapy being the treatment of last recourse. The paucity of understanding what accelerates diabetic wound healing results in more than 150,000 lower-limb amputations in the United States every year. A new paradigm for treatment of DFUs is proposed based on the higher levels of active matrix metalloproteinase (MMP)-9 with the more severe and infected human DFUs, and the demonstrated detrimental role of MMP-9 and the beneficial repair role of MMP-8 in diabetic mice. Selective inhibition of MMP-9 with the small molecule (R)-ND-336 lowered inflammation, reduced reactive oxygen species (ROS), and increased angiogenesis, without affecting MMP-8 to allow the natural repair mechanisms to take place. (R)-ND-336 showed better efficacy than becaplermin in diabetic mice. Becaplermin (PDGF) and HBO therapy work by decreasing MMP-9, but they do not completely suppress MMP-9 activity.

2022-08-12·ACS pharmacology & translational science

Matrix Metalloproteinase-14 as an Instigator of Fibrosis in Human Pterygium and Its Pharmacological Intervention

Article

作者: Grady, James E. ; Konai, Mohini Mohan ; Wang, Man ; Lemieux, Leslie ; Masitas, Cesar ; Hovanesian, John ; Peng, Zhihong ; Chang, Mayland ; Mobashery, Shahriar ; Avila-Cobian, Luis F.

There exists a paucity of information on the pathogenesis of pterygium, a benign ocular tumor that scars the cornea and can lead to vision loss. The main recourse for pterygium is surgery; however, recurrence is observed. Matrix metalloproteinases (MMPs) are involved in the pathology of pterygium. The determination of the specific MMP involved among the 24 human enzymes has not been established due to challenges in MMP profiling. We used an affinity resin that binds specifically to the active forms of MMPs in the complex mixture of the cellular proteome. The proteomics analysis identified active MMP-14 and three related metalloproteinases, ADAM9, ADAM10, and ADAM17, in human pterygia. Inhibition of MMP-14 with the small-molecule inhibitor (R)-ND-336 was assessed in cell migration and collagen contraction assays. (R)-ND-336 attenuated human conjunctiva fibroblast migration and mitigated collagen contraction, both activities required for the formation of pterygium. (R)-ND-336 holds the promise of a therapeutic recourse for pterygium as an orphan disease.

2022-06-17·ACS chemical biology

Proteomics Identification of Targets for Intervention in Pressure Ulcers

Article

作者: Konai, Mohini Mohan ; Schroeder, Valerie A. ; Wang, Man ; Page-Mayberry, Toni ; Anderson, Bowen ; Mobashery, Shahriar ; Nguyen, Trung T. ; Chang, Mayland ; Peterson, Charles E. ; Peng, Zhihong ; Wolter, William R.

Pressure ulcers (PUs) are chronic wounds that lead to amputations and death. Little is known about why PUs are recalcitrant to healing. Wound healing is mediated by matrix metalloproteinases (MMPs). The 24 MMPs in humans each exist in three forms, of which only one is catalytically competent. We analyzed human PU samples using an affinity resin that exclusively binds to the catalytically competent MMPs. We identified by mass spectrometry the active forms of MMP-1, MMP-8, MMP-9, and MMP-14. Concentrations of MMP-8, MMP-9, and MMP-14 were higher in human PUs compared to the healthy tissue, whereas those for MMP-1 did not change. Decreasing levels of active MMP-9 as the PU improved argued for a detrimental role for this enzyme. In a mouse model of PUs, a highly selective inhibitor for MMP-9 and MMP-14, (R)-ND-336, accelerated wound closure in parallel with significant amelioration of ulcer stage. (R)-ND-336 holds promise as a first-in-class treatment for PUs.

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