Abstract
ABSTRACTExcessive accumulation of collagen is often used to assess the development of fibrosis. This study aims to identify collagen genes that define fibrosis in the conjunctiva following glaucoma filtration surgery (GFS). Using the mouse model of GFS, we have identified collagen transcripts that were upregulated in the fibrotic phase of wound healing via RNA-seq. The collagen transcripts that were increased the most were encoded by Col8a1, Col11a1 and Col8a2. Further analysis of the Col8a1, Col11a1 and Col8a2 transcripts revealed their increase by 67-, 54- and 18-fold, respectively, in the fibrotic phase, compared with 12-fold for Col1a1, the most commonly evaluated collagen gene for fibrosis. However, only type I collagen was significantly upregulated at the protein level in the fibrotic phase. Type VIII and type I collagens colocalized in fibrous structures and in ACTA2-positive pericytes, and appeared to compensate for each other in expression levels. Type XI collagen showed low colocalization with both type VIII and type I collagens but can be found in association with macrophages. Furthermore, we show that both mouse and human conjunctival fibroblasts expressed elevated levels of the most highly expressed collagen genes in response to TGFβ2 treatment. Importantly, conjunctival tissues from individuals whose GF surgeries have failed due to scarring showed 3.60- and 2.78-fold increases in type VIII and I collagen transcripts, respectively, compared with those from individuals with no prior surgeries. These data demonstrate that distinct collagen transcripts are expressed at high levels in the conjunctiva after surgery and their unique expression profiles may imply differential influences on the fibrotic outcome.
Highlights
Additional examination of the mRNA expression profiles at the later time points of days 14 and 21 post-surgery revealed that expression of the collagen genes in the operated conjunctival tissues generally peak on day 7, where mean fold increases from the unoperated baseline levels were significantly higher than the mean fold increases at all the other time points (Fig. 2A)
By transcriptome profiling of the wound-healing response in the mouse model of glaucoma filtration surgery (GFS), we have identified type VIII collagen as the topranked upregulated gene followed by type XI collagen
Upregulation of type VIII collagen was observed in kidney biopsies from individuals with diabetic nephropathy where tubulointerstitial fibrosis is a pathological hallmark (Gerth et al, 2007)
Summary
As an indicator of scarring, is generally evaluated via visualization of histochemically stained tissue sections in studies of GFS outcomes in humans (Molteno et al, 2013) and experimental large animal models of GFS (SooHoo et al, 2012; Ekinci et al, 2014). This approach is far from being quantitative, given the potential variability in staining methods, imaging quality, number of sections analysed and selection of areas for examination
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