K. Szepeshazi et al., Antagonists of GHRH decrease production of GH and IGF-I in MXT mouse mammary cancers and inhibit tumor growth, ENDOCRINOL, 142(10), 2001, pp. 4371-4378
The involvement of IGF-I in mammary carcinogenesis is well established, but
the role of GH, as an autocrine growth factor for breast cancers is poorly
understood. The goal of our study was to investigate whether antagonists o
f GHRH can interfere with the effects of GH and IGF-I in MXT mouse mammary
cancers. GHRH antagonists JV-1-36 and JV-1-38 inhibited growth of estrogen-
independent MXT mouse mammary cancers in vivo, producing about 50% reductio
n in tumor volume (P < 0.05). This growth inhibition was associated with a
decrease in cell proliferation and an increase in apoptosis in MXT cancers.
RIA and RT-PCR analyses showed that the concentrations of GH and IGF-I and
the levels of mRNA for GH and IGF-I in MXT tumors were reduced by the ther
apy with GHRH antagonists. Messenger RNA for GH receptors was also decrease
d. In vitro, the proliferation of MXT cancer cells was strongly stimulated
by GH and less effectively by IGF-I, indicating that both GH and IGF-I may
act as growth factors for this mammary carcinoma. GHRH antagonist JV-1-38 i
nhibited the autonomous growth of MXT cells and the proliferation induced b
y IGF-I or GH and diminished H-3-thymidine-incorporation stimulated by IGF-
I and GH. These findings and a sustained increase in cyclin B2 concentratio
ns in the cells shown by immunoblotting indicate that JV-1-38 causes a bloc
k at the end of the G(2) phase of cell cycle. Our results demonstrate that
GHRH antagonists decrease the local production of both GH and IGF-I in MXT
mouse mammary cancers, the resulting growth inhibition being the consequenc
e of reduced cell proliferation and increased apoptosis.