Expression and action of transforming growth factor beta (TGF beta 1, TGF beta 2, TGF beta 3) in normal bovine ovarian surface epithelium and implications for human ovarian cancer
E. Nilsson et al., Expression and action of transforming growth factor beta (TGF beta 1, TGF beta 2, TGF beta 3) in normal bovine ovarian surface epithelium and implications for human ovarian cancer, MOL C ENDOC, 182(2), 2001, pp. 145-155
The majority of ovarian tumors are derived from the single layer of epithel
ial cells on the surface of the ovary termed the ovarian surface epithelium
(OSE). Stromal. cell-OSE interactions are postulated to be an important as
pect of normal OSE biology and the biology of ovarian cancer. Transforming
growth factor beta (TGF beta) has been shown to often be a mesenchymal cell
-derived growth factor that mediates stromal cell-epithelial cell interacti
ons in a variety of different tissues. The current study investigates the e
xpression and action of TGF beta isoforms (TGF beta1, TGF beta2, and TGF be
ta3) in OSE and the underlying stroma in both normal bovine and human tumor
tissues. Normal bovine ovaries are similar to human ovaries and are used a
s a model system to investigate normal OSE and stromal cell functions. All
three TGF beta isoforms and their receptor, transforming growth factor beta
receptor type It (TGF beta RII), proteins were found to be detected in the
OSE from normal bovine ovaries using immunohistochemistry. Ovarian stromal
tissue also contained positive immunostaining for TGF beta isoforms and TG
F beta RII. RNA was collected from normal bovine OSE and ovarian stromal ce
lls to examine TGF beta gene expression. TGF beta1, TGF beta2, and TGF beta
3 transcripts were detected in both freshly isolated and cultured bovine OS
E and stromal cells by a sensitive quantitative polymerase chain reaction a
ssay. TGF beta1 and TGF beta2 mRNA levels were found to be present at simil
ar levels in freshly isolated OSE and stroma. Interestingly, TGF beta3 mRNA
levels were significantly higher in freshly isolated OSE than stromal cell
s. All but TGF beta3 mRNA in OSE increased when the cells were cultured. Ob
servations indicate that normal bovine OSE and stroma cells express the thr
ee TGF beta isoforms in vivo and in vitro. Human ovarian tumors from stage
II, stage III and stage IV cases were found to express TGF beta1, TGF beta2
, TGF beta3 and TGF beta RII protein primarily in the epithelial cell compo
nent by immunohistochemistry analysis. The stromal cell component of the hu
man ovarian tumors contained little or no TGF beta or TGF beta RII immunost
aining. TGF beta actions on bovine OSE and stromal cells were also investig
ated. TGF beta was found to inhibit the growth of OSE, but not stromal cell
s. To further examine the actions of TGF beta on OSE, the expression of two
growth factors previously shown to be expressed by OSE were analyzed. TGF
beta1 was found to stimulate the expression of both keratinocyte growth fac
tor (KGF) and kit ligand/stem cell factor (KL) by bovine OSE. Therefore, TG
F beta actions on OSE will likely promote a cascade of cell-cell interactio
ns and cellular responses involving multiple growth factors. The effects of
regulatory agents on TGF beta expression by the bovine OSE were examined.
Transforming growth factor alpha (TGF alpha) stimulated TGF beta1 expressio
n. TGF beta1 stimulated TGF beta2 expression, and follicle stimulating horm
one (FSH) stimulated TGF beta3 expression. These results demonstrate that T
GF beta isoforms are regulated differently by the regulatory agents tested.
In summary, all the TGF beta isoforms are differentially expressed by the
OSE and TGF beta appears to have an important role in regulating OSE and po
ssibly stromal-OSE interactions. A complex network of endocrine and paracri
ne interactions appears to influence the expression and actions of TGF beta
on OSE. Abnormal expression and/or action of TGF beta is postulated to in
part be involved in the onset and progression of ovarian cancer. (C) 2001 E
lsevier Science Ireland Ltd. All rights reserved.