It has been reported that insulin-like growth factor (IGF) II is associated with human primary colorectal tumors and colon-carcinoma cell lines. Here, we examine alterations in circulating levels of IGFs and IGF binding proteins (IGFBPs) in patients with colorectal carcinoma, and compare them to age- and nutrition-adjusted references. We report (i) an increase in serum IGF-II concentrations (about 2-fold), whereas IGF-I concentrations are regarded as normal when aging is taken into account; (ii) an apparent increase in serum IGFBP-3 levels when compared to those of healthy elderly subjects, IGFBP-3 only being detected in the 150-kDa IGFBP ternary complex as in normal serum; (iii) abnormally elevated serum IGFBP-2 levels taking into account the apparent concentrations of IGFBP-3. This simultaneous elevation of IGFBP-3 and IGFBP-2 in the serum of patients with colorectal tumors appears to be unique in that it reflects a break in the inverse relationship between the serum IGFBP-3 and IGFBP-2 levels that is observed in normal and in several physiopathological conditions. Moreover, it enables a distinction to be made between 76.5% (13/17) of patients with colorectal carcinoma and normal adults, age-related healthy aged and malnourished patients. We propose that the disturbed serum IGFBP profile observed in the patients with colorectal cancer may be a consequence of oversecretion of IGF-II by the tumor cells. The usefulness of IGFs and IGFBPs as potential colorectal tumor-associated metabolic markers should be further investigated.
HT29-D4 human colon-carcinoma cells have been shown to secrete insulin-like growth factor (IGF)-II and to simultaneously express type-I IGF receptors. However, the sequestration of IGF-II by several molecular forms of IGF-binding proteins (IGFBP) in the culture medium prevents the establishment of an operative IGF-II autocrine loop. IGFBPs secreted by HT29-D4 cells (HT29-D4 IGFBP) comprise isoforms of IGFBP-4 (25, 27 and 30 kDa) and 2 unidentified forms (34.5 and 32-34 kDa). This latter does not bind 125I-IGF-I. The net affinity of HT29-D4 IGFBP is about 12 times stronger for IGF-II (KD approx. 10(-10) M) than for IGF-I. All the HT29-D4 IGFBP molecular forms are unable to bind the N-terminally truncated IGF-I analog, des-(1-3)-IGF-I. In contrast, HT29-D4 cell-surface type-I IGF receptors bind IGF-I and des-(1-3)-IGF-I identically (KD approx. 5 x 10(-10) M). We have taken advantage of these particular binding properties to use des-(1-3)-IGF-I to mimic a potential IGF autocrine loop and to observe its biological consequences. Nanomolar concentrations of des-(1-3)-IGF-I induce HT29-D4 cells to develop into a differentiated phenotype, as judged by a substantial carcinoembryonic antigen release and the induction of numerous intercellular cysts with well-organized microvilli. In the same way, des-(1-3)-IGF-I early induces a slight inhibition of HT29-D4 cell proliferation. Based on these findings, we conclude that the type-I IGF receptor primarily controls the differentiation of these colonic cells, and that HT29-D4 cancer cells remain in an undifferentiated state because of their inability to use endogenous IGF-II as an autocrine regulatory factor.
Forskolin, a diterpen stimulating the adenylcyclase induces in vitro an accumulation of cAMP in thyroid glands explanted from 17 day-old rat fetuses. Thyroid glands from 15 day-old fetuses exposed to forskolin exhibit, within 24 hr, an active folliculogenesis and 125I fixation in follicular cavities. The results indicate that cAMP probably activates the onset of both morphological and physiological maturation in the fetal rat thyroid.
The cAMP synthesis by fetal rat thyroids is stimulated in vitro by thyrotropin (TSH) or forskolin during the 5 last days of intrauterine life. The effects are TSH- or forskolin-dose-dependent with equal responses to 20 mlU·ml––1 TSH or to 1 μM forskolin. The magnitude of the responses to TSH or to forskolin decreases significantly as the fetus is ageing. Since forskolin effects bypass hormone receptors, the adenylate cyclase activity can be concluded to decrease during the end of gestation probably in relation with thyroid iodine accumulation. The responses to TSH and forskolin becoming synergic between 19½ and 21½ days indicate modifications of adenylate cyclase properties probably related to some maturation of the enzyme.
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