CXC-type chemokines promote myofibroblast phenoconversion and prostatic fibrosis

Recent studies from our group suggest that extracellular matrix (ECM) deposition and fibrosis characterize the peri-urethral prostate tissues of some men suffering from Lower Urinary Tract Symptoms (LUTS) and that fibrosis may be a contributing factor to the etiology of LUTS. Fibrosis can generally...

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Bibliographic Details
Published in:PloS one 2012-11, Vol.7 (11), p.e49278-e49278
Main Authors: Gharaee-Kermani, Mehrnaz, Kasina, Sathish, Moore, Bethany B, Thomas, Dafydd, Mehra, Rohit, Macoska, Jill A
Format: Article
Language:English
Subjects:
Aging
Biology
Bladder
Bone morphogenetic proteins
Calponin
Cell Differentiation
Cellular Microenvironment
Chemokines
Chemokines, CXC - genetics
Chemokines, CXC - metabolism
Collagen
Contraction
CXCL12 protein
CXCR4 protein
Deposition
Disease
Etiology
Extracellular matrix
Fibroblasts
Fibrosis
Growth factors
Humans
Immunofluorescence
Inflammation
Laboratories
Lower Urinary Tract Symptoms - genetics
Lower Urinary Tract Symptoms - metabolism
Lower Urinary Tract Symptoms - pathology
Male
Medicine
Microscopy
Mitochondrial DNA
Myofibroblasts - metabolism
Myofibroblasts - pathology
Pathology
Prostate
Prostate - metabolism
Prostate - pathology
Proteins
Quality of life
Review boards
Rodents
Studies
Tenascin
Tissues
Transcription
Transcription, Genetic
Transforming growth factor-b1
Transforming growth factors
Type 2 diabetes
Urinary tract
Urogenital system
Urology
Vimentin
Wound healing
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Summary:Recent studies from our group suggest that extracellular matrix (ECM) deposition and fibrosis characterize the peri-urethral prostate tissues of some men suffering from Lower Urinary Tract Symptoms (LUTS) and that fibrosis may be a contributing factor to the etiology of LUTS. Fibrosis can generally be regarded as an errant wound-healing process in response to chronic inflammation, and several studies have shown that the aging prostate tissue microenvironment is rich with inflammatory cells and proteins. However, it is unclear whether these same inflammatory proteins, particularly CXC-type chemokines, can mediate myofibroblast phenoconversion and the ECM deposition necessary for the development of prostatic tissue fibrosis. To examine this, immortalized and primary prostate stromal fibroblasts treated with TGF-β1, CXCL5, CXCL8, or CXCL12 were evaluated morphologically by microscopy, by immunofluorescence and qRT-PCR for αSMA, collagen 1, vimentin, calponin, and tenascin protein and transcript expression, and by gel contraction assays for functional myofibroblast phenoconversion. The results of these studies showed that that immortalized and primary prostate stromal fibroblasts are induced to express collagen 1 and 3 and αSMA gene transcripts and proteins and to undergo complete and functional myofibroblast phenoconversion in response to CXC-type chemokines, even in the absence of exogenous TGF-β1. Moreover, CXCL12-mediated myofibroblast phenoconversion can be completely abrogated by inhibition of the CXCL12 receptor, CXCR4. These findings suggest that CXC-type chemokines, which comprise inflammatory proteins known to be highly expressed in the aging prostate, can efficiently and completely mediate myofibroblast phenoconversion and may thereby promote fibrotic changes in prostate tissue architecture associated with the development and progression of male lower urinary tract dysfunction.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0049278