Heterogeneous presence of myofibroblasts in hereditary gingival fibromatosis
Author
: Carolina C. Bitu
Publisher
: journal of clinical periodontology
Summary :Background/Aim: Hereditary gingival fibromatosis (HGF) fibroblasts are
characterized by an increased production of collagen and transforming growth factorb1
(TGF-b1), resulting in a fibrotic enlargement of the gingiva of affected patients.
A common feature of interstitial fibrosis is the occurrence of myofibroblasts, which are
regarded as the predominant cells in matrix synthesis. The goal of this article is to
describe the presence of myofibroblasts in HGF in order to elucidate the mechanisms
underlying HGF gingival overgrowth.
Materials and Methods: Fibroblast cell lines and gingival samples from patients of
two distinct families affected by HGF and from normal gingiva (NG) were included in
this study. To characterize the presence of myofibroblasts, the expression of specific
myofibroblast marker smooth muscle isoform of a-actin (a-SMA) was examined by
semi-quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), Western
blot, immunofluorescence, and flow cytometric analysis. Immunohistochemistry
against the a-SMA antigen was performed in the gingival tissue samples.
Results: Our results demonstrated a significant increase in the expression of the myo-
fibroblast marker a-SMA in cells from one HGF family (designed as HGF Family 2),
which are also characterized by an elevated expression of type I collagen, TGF-b1 and
connective tissue growth factor (CTGF). Additionally, a-SMA-positive cells were
broadly detected in the gingival tissue samples from HGF Family 2 patients. In contrast,
a-SMA expression by HGF Family 1 cells was quite similar to NG cells and no
myofibroblasts were detected immunohistochemically, despite the higher levels of
TGF-b1 and type I collagen in HGF Family 1 fibroblasts than in NG cells. The expression
of CTGF, which has been considered a key molecule to promote the transdifferentiation
of myofibroblasts via TGF-b1 activation, by HGF Family 1 cultures
was significantly lower compared with HGF Family 2 and similar to NG control cells.
Conclusions: Our results suggest that the presence of myofibroblasts in HGF could be
dependent on CTFG expression levels, and different biological mechanisms may
account for the gingival overgrowth observed in HGF patients. This could be an
underlying reason for the high variable clinical expressivity of disease.
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