Abstract
Cathepsin G (CAT) is a protease released by neutrophils when forming neutrophil extracellular traps that was already associated with inducing type I collagen (COL1) in equine endometrium in vitro. Endometrosis is a fibrotic condition mainly characterized by COL1 deposition in the equine endometrium. The objective was to evaluate if noscapine (an alkaloid for cough treatment with anti-neoplastic and anti-fibrotic properties) would reduce COL1A2 transcription (evaluated by qPCR) and COL1 protein relative abundance (evaluated by western blot) induced by CAT in equine endometrial explants from follicular and mid-luteal phases treated for 24 or 48 h. The explants treated with CAT increased COL1 expression. Noscapine decreased COL1A2 transcription at both estrous cycle phases, but COL1 relative protein only at the follicular phase, both induced by CAT. Additionally, the noscapine anti-fibrotic action was found to be more effective in the follicular phase. The CAT treatment caused more fibrosis at the longest period of treatment, while noscapine acted better at the shortest time of treatment. Our results showed that noscapine could act as an anti-fibrotic drug in equine endometrosis by inhibiting CAT in vitro. Noscapine offers a new promising therapeutic tool for treating fibrosis as a single non-selective agent to be considered in the future.
Highlights
Cathepsin G (CAT) is a protease released from neutrophils when they form neutrophil extracellular traps (NETs) in order to fight pathogens [1]
In equine endometrial explants, that it is possible to inhibit in vitro the pro-fibrotic effect of elastase [14,15], cathepsin G (CAT) [16], and myeloperoxidase [17], using selective inhibitors of these enzymes
We have recently investigated the anti-fibrotic in vitro effect of NOSC on equine endometrial explants challenged with elastase by reducing COL1 production [47]
Summary
Cathepsin G (CAT) is a protease released from neutrophils when they form neutrophil extracellular traps (NETs) in order to fight pathogens [1]. Neutrophil extracellular traps are composed of DNA filaments and enzymes such as elastase, myeloperoxidase, or CAT [1]. CAT’s main action is cleaving pathogen virulence factors [1,2], it is associated with deleterious effects on the development of some diseases. CAT was associated with the promotion of psoriasis in a mouse model [3]. A genetic variation that might increase CAT activity is related to cardiovascular, neuromuscular, and osteomyelitis diseases [4,5,6]. CAT was linked to fibrotic conditions, such as chronic obstructive pulmonary disease (COPD) [7]
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