The growth of mouse melanoma cells in hormone-supplemented, serum-free medium.

A mouse melanoma line, M2R, derived from the B₁₆ transplantable tumor can be grown in a hormone-supplemented serum-free medium. Cells grown in medium supplemented with insulin, transferrin, testosterone (or progesterone), follicle-stimulating hormone, nerve growth factor (NGF) and leutinizing releasing hormone show growth rates equivalent to that seen in medium supplemented with 5% fetal calf serum (FCS). This hormone-supplemented medium will support the growth of cells indefinitely. In cells grown in hormone-supplemented medium, insulin is shown to increase incorporation of glucose into glycogen and fatty acids. Transferrin is shown to act in part as an iron transport protein, although another role in growth stimulation cannot be eliminated. It is suggested that progesterone stimulates growth via an androgenic breakdown product and thus acts in a manner similar to testosterone.     

Effects of growth factors on an intestinal epithelial cell line: transforming growth factor beta inhibits proliferation and stimulates differentiation

The effects of epidermal growth factor transforming growth factor beta (TGF beta) and other growth factors on the proliferation and differentiation of a cell line derived from rat intestinal crypt epithelium (IEC-6) were defined. Incorporation of [3H]-thymidine was stimulated 1.4-2.4 fold by insulin, insulin like growth factor (IGF), platelet derived growth factor (PDGF), epidermal growth factor (EGF) and 2% fetal calf serum (FCS) respectively. Additive stimulation was observed when FCS was supplemented by insulin,IGF-I or PDGF but not EGF. Incorporation of [3H]-thymidine by IEC-6 was strongly inhibited by TGF beta with greater than 80% inhibition of incorporation at concentration approximately equal to 2.0 pM. IEC-6 cells bound 4.1 +/- 0.15 X 10(4) molecules TGF beta/cell and appeared to have only a single class of high affinity receptors (Kd approximately equal to 0.5 pM). TGF beta inhibition was unaffected by the presence of insulin or IGF-I suggesting it inhibits proliferation at a step subsequent to that at which these growth factors stimulate [3H]-thymidine incorporation. TGF beta also reduced the stimulation induced by FCS by 65%. In contrast EGF reduced TGF beta inhibition by 60%. IEC-6 cells demonstrated the appearance of sucrase activity after greater than 18 hours treatment with TGF beta. These findings suggest that TGF beta may inhibit proliferative activity and promote the development of differentiated function in intestinal epithelial cells.     

Role of serum and hormones during the growth and development of rat mammary tumor epithelial cells in collagen gel culture

Summary The characteristics of hormone-dependent rat mammary tumors in response to serum and hormones were determined in collagen gel matrix culture. Epithelial cells from 7,12-dimethylbenz[a]anthracene (DMBA)-induced mammary adenocarcinomas were embedded in collagen gel and the effect of estrogen, progesterone, prolactin, insulin, and serum was tested. The total cell number and [³H]thymidine incorporation were used to determine the growth pattern of the cells in culture. It was found that in medium containing 20% porcine serum and supplemented with insulin, estrogen, progesterone and prolactin, both the cell number and [³H]thymidine labeling index increased with time, after an initial lag. Serum seemed to be essential to maintain growth of the tumor cells, because hormones alone, in the absence of serum, were unable to sustain growth of the cells. When estrogen, progesterone, prolactin, and insulin were tested individually in the presence of 20% porcine serum, only estrogen demonstrated a significant stimulatory effect.     

Oestradiol treatment increases the sensitivity of MCF-7 cells for the growth stimulatory effect of IGF-I

MCF-7 cells were grown in serum free medium (Dulbecco MEM without phenol red, supplemented with Costar SF-1 without insulin). Insulin was added as required and gave dose dependent growth stimulation at concentrations between 5 and 10,000 nM. Identical growth response curves were obtained for thymidine uptake and cell number. Oestradiol and insulin-like growth factor I (IGF-I) added individually both gave a dose dependent stimulation of cell growth in serum free medium containing 50 nM insulin. The growth stimulatory effect of oestradiol was to a large extent inhibited with suramine, a general inhibitor of growth factors, indicating that the effect of oestradiol was mediated through stimulating autocrine secretion of a growth factor.

To investigate a possible link between the effects of oestradiol and IGF-I, a specific IGF-I receptor antibody (IR-3), 10 μg/ml was used. These experiments were carried out with 2.5 nM insulin in the medium, a concentration at which insulin had no growth stimulatory effect. Stimulation was carried out for 18 h before assay of thymidine uptake. The effect of oestradiol was not significantly reduced by IR-3, indicating that IGF-I was not an autocrine mediator of oestradiol stimulation of cell growth under these conditions, whereas IR-3 extensively reduced growth stimulation by IGF-I. On long term stimulation (5 days) oestradiol had a marked stimulatory effect on cell number and IR-3 almost totally abrogated this effect. When oestradiol (1 nM) and IFG-I (2.5 nM) were added together, the combined effect on thymidine incorporation and cell number was significantly greater than additive. This synergistic effect on the IGF-I growth response was totally abolished by the IGF-I receptor antibody. The results suggest a cooperative interaction of oestradiol and IGF-I. It is concluded that growth stimulation of MCF-7 cells by long term treatment with oestradiol may be mediated through autocrine secretion of IGF-I.

The effect of short term stimulation of thymidine incorporation suggest that the growth response of oestradiol is more complex, and indicate that a cooperative interaction with IGF-I is involved, which is unrelated to stimulated autocrine secretion.     

Stimulation of proliferation of HL60 cells by low concentrations of 12-O-tetradecanoylphorbol-13-acetate and its relationship to the mitogenic effects of insulin.

The effects of the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) on the growth and differentiation of cultured human acute promyelocytic leukemia (HL60) cells have been studied using cells growing in a fully defined medium consisting of RPMI 1640 supplemented with selenium dioxide, insulin, and either transferrin or ferric citrate. High concentrations of TPA (greater than 1 nM) cause the expected inhibition of proliferation and induction of macrophage-like differentiation. In contrast, in cells deprived of insulin, which continue to grow at a slow rate, lower concentrations of TPA stimulate proliferation without inducing differentiation. A TPA concentration between 0.03 and 0.3 nM will approximately double the long-term rate of thymidine incorporation into DNA and the rate of increase in cell density. Low-TPA becomes progressively less able to stimulate further proliferation as the insulin concentration is increased and is virtually without effect on cells stimulated by an optimal insulin concentration (5 micrograms ml-1). Insulin itself stimulates proliferation to a greater extent than low-TPA, increasing the long-term rate of thymidine incorporation and the rate of increase in cell density by three- to fourfold. The ability of higher concentrations of TPA to induce differentiation is independent of the presence of insulin. Low-TPA also stimulates the short-term incorporation of thymidine (during a 1-h pulse after 1 or 2 days incubation) by three- to fourfold, as compared to a sevenfold stimulation by insulin. The proliferation response to low TPA concentrations provides a useful model for dissecting the signalling pathways that control cell proliferation following stimulation by insulin and activators of protein kinase C.     

Effect of insulin receptor down regulation on insulin-stimulated thymidine incorporation in cultured human fibroblasts and tumor cell lines.

Insulin receptors in transformed tissue are relatively resistant to down regulation by insulin, and although receptor downregulation reduces rapid onset biologic responses to insulin in normal tissue, this is not observed in tumor cells. The present study compares longterm insulin responses (thymidine incorporation and cell growth) in normal human fibroblasts with responses in human tumor cell lines (MCF-7, T-47D and HCT-8) to determine whether these responses are also resistant to the effects of receptor down regulation. Thymidine incorporation into fibroblasts was more responsive to insulin than was incorporation into tumor cells, although stimulation of uptake into fibroblasts was not paralleled by changes in cell replication. In contrast, physiological insulin concentrations inhibited, and high concentrations of insulin stimulated, thymidine incorporation and cell replication in MCF-7 and T-47D cells. All insulin concentrations inhibited thymidine incorporation in HCT-8 cells without affecting cell replication. The responsiveness of fibroblasts, MCF-7 and HCT-8 cells to insulin was unaltered by down regulation of insulin receptors prior to measuring thymidine incorporation, whereas receptor down regulation paradoxically increased the responsiveness of T-47D cells to insulin. Exposure of fibroblasts to 5 x 10(-8) M dexamethasone for 24h increased their responsiveness to insulin but did not influence the response of MCF-7 or HCT-8 cells, whereas insulin-stimulated incorporation of thymidine in T-47D cells was inhibited. Thus, receptor down regulation does not influence the longterm biologic response to insulin in normal cells, and paradoxically increases responsiveness in one of three tumor cell lines. These changes may contribute to the well-described stimulatory effects of insulin on tumor cell growth and inhibition of this response with dexamethasone may be relevant to cancer treatment programs.     

ANABOLIC RESPONSES OF EMBRYONIC DORSAL ROOT GANGLIA TO NERVE GROWTH FACTOR, INSULIN, CONCANAVALIN A OR SERUM IN VITRO

—Intact and dissociated dorsal root ganglia from 8-day chick embryos were examined for their ability to incorporate radio-precursors into RNA and protein in unsupplemented medium or in medium supplemented with Nerve Growth Factor, insulin, Concanavalin A, fetal calf serum, or several combinations of such agents. In the absence of any agent, incorporation into RNA and protein declined with time. All four agents maintained or improved the initial incorporation rates, and optimal doses were determined in each case. Different combinations of two agents led to potentiated, full or partially additive, or inhibited effects; in particular, NGF promoted incorporation even in conjunction with insulin (additive) or serum (potentiating). Several differences were noted between the responses of intact and of dissociated ganglia.     

Glucose regulates insulin mitogenic effect by modulating SHP-2 activation and localization in JAr cells

The glucose effect on cell growth has been investigated in the JAr human choriocarcinoma cells. When JAr cells were cultured in the presence of 6 mm glucose (LG), proliferation and thymidine incorporation were induced by serum, epidermal growth factor, and insulin-like growth factor 1 but not by insulin. In contrast, at 25 mm glucose (HG), proliferation and thymidine incorporation were stimulated by insulin, serum, epidermal growth factor, and insulin-like growth factor 1 to a comparable extent, whereas basal levels were 25% lower than those in LG. HG culturing also enhanced insulin-stimulated insulin receptor and insulin receptor substrate 1 (IRS1) tyrosine phosphorylations while decreasing basal phosphorylations. These actions of glucose were accompanied by an increase in cellular tyrosine phosphatase activity. The activity of SHP-2 in HG-treated JAr cells was 400% of that measured in LG-treated cells. SHP-2 co-precipitation with IRS1 was also increased in HG-treated cells. SHP-2 was mainly cytosolic in LG-treated cells. However, HG culturing largely redistributed SHP-2 to the internal membrane compartment, where tyrosine-phosphorylated IRS1 predominantly localizes. Further exposure to insulin rescued SHP-2 cytosolic localization, thereby preventing its interaction with IRS1. Antisense inhibition of SHP-2 reverted the effect of HG on basal and insulin-stimulated insulin receptor and IRS1 phosphorylation as well as that on thymidine incorporation. Thus, in JAr cells, glucose modulates insulin mitogenic action by modulating SHP-2 activity and intracellular localization.     

Factors controlling embryonic heart cell proliferation in serum-free synthetic media

Summary Embryonic chick cardiac cell cultures, plated on collagen-coated dishes, containing serum-free synthetic media proliferate actively. The basic medium contained Ham's F12 nutrient mixture, fetuin, ascorbic acid, and bovine serum albumin. This medium was supplemented with various combinations of factors; endothelial cell growth supplement (ECGS), epidermal growth factor (EGF), insulin (I), transferrin (T), selenium (S), hydrocortisone, and thyroxine or supplemented alone. Basic medium supplemented with ECGS alone contributes to the highest final cell density among all other factors used in various combinations or alone. The final cell density of the control culture with 2% fetal bovine serum was higher than those of all experimental cultures and an additional control culture grown in the basic medium. Combinations of factors without ECGS do not promote significant cell proliferation. Thyroxine is required to induce optimal differentiation and contractility of cardiac myocytes in vitro. Fibronectin and laminin did not show any more influence than collagen did on the growth and maintenance of cardiac myocytes in serum-free media. The proportion of cardiac muscle cells in ECGS-containing media was higher than those in other experimental media and control media with the exception of ECGS and ITS-containing medium that showed lower proportion of cardiac myocytes than that of serum-containing medium on Days 3 and 5. The profiles of incorporation of [³H]thymidine into DNA of heart cells in experimental and control cultures showed a peak in incorporation values within the first week of culture and subsequently declined. Autoradiography studies revealed that cardiac myocytes in culture supplemented with ECGS alone attained a peak in labeling index on Day 1 with approximately 62% labeled cells. Subsequently, the labeling indices declined. Cardiac myocytes grown in media without ECGS showed significantly lower labeling indices than those in ECGS-containing media. This study has demonstrated the influence of ECGS, EGF and ITS in promoting the growth of cardiac myocytes and also in contributing to the maintenance of contractile cardiac myocytes in serum-free, long-term culture. The influence of ECGS on heart cell proliferation is considered to be superior to that of EGF and ITS. This study was supported in part by a grant HL-25482 from the National Heart Lung and Blood Institute and a grant from the American Heart Association of Michigan.     

Zinc levels in zinc-stabilized insulin are inhibitory to the growth of cells in vitro

Adult human prostatic epithelium was cultured in a defined medium consisting of RPMI 1640 supplemented with transferrin, insulin, epidermal growth factor, dexamethasone, and vitamin A. In the presence of insulin, stabilized with zinc, maximum epithelial multiplication was obtained at an insulin concentration of 0.03 to 0.1 U/ml, corresponding to a zinc concentration of 1.4 X 10(-7) M. At higher insulin concentrations, growth stimulation declined. Zinc-free insulin, on the other hand, stimulated cell multiplication with an optimum concentration of 0.3 to 1.0 U/ml. At this concentration, the maximum growth was twice that obtained with zinc-stabilized insulin. Results demonstrate that growth inhibition caused by zinc limits the concentration of zinc-stabilized insulin, which can be used in serum-free, defined culture media.     

Serum inhibition of proliferation of serum-free mouse embryo cells

Serum-free mouse embryo (SFME) cells, derived in medium supplemented with insulin, transferrin, high density lipoprotein, epidermal growth factor, and fibronectin, do not undergo crisis, maintain a predominantly diploid karyotype with no detectable chromosomal abnormalities for well over 100 population doublings in vitro, and are growth inhibited by concentrations of serum that are growth-stimulatory for most cell lines in culture. Serum inhibition of SFME cell proliferation was reversible and was not prevented by addition of the supplements of the serum-free medium, even when added repeatedly during the culture period. The serum effect on SFME cell proliferation could be detected after incubation in serum-containing medium for as little as 8 h. SFME cells in serum-containing medium were arrested in the G1 phase of the cell cycle with a greatly reduced rate of incorporation of precursors into DNA and thymidine kinase activity, while a reduction in rate of incorporation of amino acids into protein was not observed. SFME cultures maintained for extended periods in serum-containing medium underwent a crisis-like period followed by the appearance of variant cells capable of growing in serum-supplemented medium. These cells exhibited abnormal karyotype and were resistant to several inhibitors of proliferation active on the parent SFME cell type.     

Short-term cultivation of murine thymic epithelial cells in a serum-free medium

Summary Thymic epithelial cells were grown in defined medium without unknown serum factors and without concurrent growth of other cell types. Thymic tissue was obtained from 1- to 4-wk-old mice, disaggregated, and incubated in a mixture of collagenase-dispase-DNAse. The resulting organoids were seeded on collagen-coated flasks. The culture medium consisted of DME-F12 with low or high concentration of Ca²⁺ supplemented with insulin, epidermal growth factor, cholera toxin, hydrocortisone, and transferrin. Under these conditions, explants attached to the substrate within 2 d, and expanding epithelioid monolayer islets emerged from the organoids during the following days. [³H]Thymidine incorporation revealed a growth fraction of the cells close to 5%. By omitting either epidermal growth factor, insulin, or cholera toxin from the medium, pronounced reduction in sizes of islets and in [³H]thymidine incorporation was found. Throughout the culture period, the islets appeared as continuous sheets of polygonal cells. The epithelial nature of the expanding cell islets was confirmed by demonstration of cytokeratins and of desmosomes. Ultrastructural evaluation of early cultures revealed clusters of epithelial cells intermixed with lymphocytes, and late cultures showed a typical pattern of stratified keratinizing epithelium. However, squamous metaplasia was avoided by the use of low Ca²⁺ medium, which also proved essential for cell transfer. MHC class II antigen was detected on the majority of the cultured cells, and culture supernatants contained co-mitogenic activity for thymocytes and GM-colony stimulating activity. This work supported by The Danish Research Council, grant 12-8148.     

Failure of insulin to stimulate lipogenesis and triacylglycerol secretion in perfused livers from rats adapted to dietary fish oil

Livers from male rats fed a standard commercial diet supplemented with 8% (w/w) marine fish or safflower oils were perfused for 70 min with undiluted blood in the presence and absence of insulin. Lipogenesis, as measured by the incorporation of ³H₂O into liver and perfusate fatty acids, was inhibited by the feeding of fish oil. Net triacylglycerol secretion was also depressed by this dietary treatment. Infusion of insulin stimulated triacylglycerol secretion and the incorporation of newly synthesised fatty acids into liver and perfusate lipids with dietary safflower oil but not with fish oil. Hepatic cholesterol synthesis was also depressed by feeding fish oil. Net ketogenesis was raised by feeding fish oil and was depressed by insulin with both safflower and fish oil. Blood glucose was raised in the fish oil group but with both dietary oils the hormone exerted a significant hypoglycaemic effect. The data are discussed with respect to the observations that in vivo dietary fish oil (but not safflower oil) opposes the hypertriglyceridaemia arising from the hepatic overproduction of very-low-density lipoproteins.     

Action of insulin and growth hormone on protein synthesis in muscle from non-hypophysectomized rabbits

The separate effects of insulin and growth hormone on the uptake and incorporation of five amino acids into diaphragm muscle from non-hypophysectomized rabbits has been examined. Both growth hormone and insulin, when present in the medium separately, stimulated the incorporation into protein of the amino acids, leucine, arginine, valine, lysine and histidine. Insulin also stimulated amino acid uptake, but growth hormone did not. When insulin and growth hormone were present in the incubation medium together, the uptake and incorporation of valine, the only amino acid studied under these conditions, tended to be greater than the sum of the separate effects of the two hormones.     

Synergistic actions of cytokines and growth factors in enhancing porcine granulosa cell growth.

In our studies of the growth-promoting effect of a cytokine, interleukin-1 (IL-1), on cultured porcine granulosa cells, we found that the potency of IL-1 action correlated with the serum concentration in the culture medium and that IL-1 acted synergistically with insulin to increase the number of cells in the presence of low serum concentrations (0.1-1%). With granulosa cells maintained in a quiescent state under serum-free conditions, we therefore examined the effects of combined treatment with IL-1 and peptide growth factors, including insulin, on [3H]thymidine incorporation by these cells. IL-1 by itself enhanced [3H]thymidine incorporation in a concentration-dependent manner. Moreover, IL-1 acted synergistically with insulin, epidermal growth factor (EGF), or fibroblast growth factor (FGF) to enhance [3H]thymidine incorporation. Combinations of maximally effective concentrations of insulin (1 micrograms/ml), EGF (1 ng/ml), or FGF (50 ng/ml) with the maximally effective concentration of IL-1 (10 ng/ml) increased the levels of [3H]thymidine incorporation to 10-, 22-, and 20-fold, respectively, over the control values. Whereas IL-2 (0.1-100 ng/ml) did not affect [3H]thymidine incorporation, tumor necrosis factor alpha (TNF alpha) stimulated [3H]thymidine incorporation by itself and reproduced the actions of IL-1 to act synergistically with insulin, EGF, or FGF. When IL-1 and TNF alpha were added together in relatively low concentrations (1 ng/ml each), the combination had synergistic effects in enhancing [3H]thymidine incorporation. The present study demonstrates that cytokines and peptide growth factors act synergistically to markedly enhance porcine granulosa cell growth in vitro.     

Growth hormone is a growth factor for the differentiated pancreatic beta-cell

The regulation of the growth of the pancreatic beta-cell is poorly understood. There are previous indications of a role of GH in the growth and insulin production of the pancreatic islets. In the present study we present evidence for a direct long-term effect of GH on proliferation and insulin biosynthesis of pancreatic beta-cells in monolayer culture. In culture medium RPMI 1640 supplemented with 2% normal human serum islets or dissociated islet cells from newborn rats maintained their insulin-producing capacity. When supplemented with 1-1000 ng/ml pituitary or recombinant human GH the islet cells attached, spread out, and proliferated into monolayers mainly consisting of insulin-containing cells. The number of beta-cells in S-phase was increased from 0.9-6.5% as determined by immunochemical staining of bromodeoxyuridine incorporated into insulin-positive cells. The increase in cell number was accompanied with a continuous increase in insulin release to the culture medium reaching a 10- 20-fold increase after 2-3 months with a half-maximal effect at about 10 ng/ml human GH. The biosynthesis of (pro)insulin was markedly increased with a normal rate of conversion of proinsulin to insulin. It is concluded that GH is a potent growth factor for the differentiated pancreatic beta-cell.     

Fish oil supplementation in F1 generation associated with naproxen, clenbuterol, and insulin administration reduce tumor growth and cachexia in Walker 256 tumor-bearing rats

Weanling female Wistar rats were supplemented with fish oil (1 g/kg body weight) for one generation. The male offspring received the same supplementation until to adult age. Rats supplemented with coconut fat were used as reference. Some rats were inoculated subcutaneously with a suspension (2 x 10(7) cells/mL) of Walker 256 tumor. At day 3, when the tumor was palpable, rats were treated with naproxen (N) (0.1 mg/mL), clenbuterol (Cb) (0.15 mg/kg body weight), and insulin (I) (10 U/kg body weight). At day 14 after tumor inoculation, the animals were killed. Tumor was removed and weighed. Blood, liver, and skeletal muscles were also collected for measurements of metabolites and insulin. In both tumor-bearing untreated rats and tumor-bearing rats supplemented with coconut fat, tumor growth, triacylglycerol, and blood lactate levels were higher, and glycogen content of the liver, blood glucose, cholesterol and HDL-cholesterol levels were lower as compared with the non-tumor-bearing and fish oil supplemented groups. Fish oil supplementation of tumor-bearing rats led to a partial recovery of the glycogen content in the liver and a full reversion of blood glucose, lactate, cholesterol, and HDL-cholesterol levels. The treatment with N plus Cb plus I attenuated cancer cachexia and decreased tumor growth in both coconut fat and fish oil supplemented rats. In conclusion, chronic fish oil supplementation decreased tumor growth and partially recovered cachexia. This beneficial effect of fish oil supplementation was potentiated by treatment with naproxen plus clenbuterol plus insulin.     

Stimulation of protein synthesis in stage IV Xenopus oocytes by microinjected insulin

The effects of intracellular insulin on protein synthesis were examined in intact cells and isolated, undiluted cellular components. [35S]Methionine incorporation into protein was measured in Stage IV oocytes from Xenopus laevis maintained under paraffin oil. Radiolabel and insulin were introduced into the cytoplasm by microinjection. After a short delay (approximately 15 min), injected insulin stimulated the rate of methionine incorporation. Stimulation was dose-dependent, increasing with injected doses in the 7-50-fmol range. Neither proinsulin nor insulin-like growth factor 1 were as effective as insulin in stimulating protein synthesis; microinjected epidermal growth factor and the A and B chains of insulin were without effect. When oocyte surface membranes were removed under oil, the resulting cytoplasm-nucleus samples exhibited methionine incorporation rates that were comparable to those found in intact cells. Microinjection of insulin increased rates of methionine incorporation in cytoplasm-nucleus samples; the effects of external (prior to transfer to oil) and internal (microinjection in oil) insulin exposure were additive. Cytoplasm samples (nuclei and surface membranes removed under oil) also synthesized protein and responded to microinjected insulin. However, insulin responses were reduced relative to cells and to cytoplasm-nucleus samples. 125I-Insulin was degraded rapidly after microinjection into oocytes. Degradation occurred in both the nucleus and cytoplasm. Degradation was delayed by injecting bacitracin into the cells and delaying degradation increased the effectiveness of a low dose of injected insulin. Together, the data show that insulin can act at external, nuclear, and cytoplasmic sites to stimulate protein synthesis in Xenopus oocytes. The signaling pathway activated by internal insulin does not involve plasma membrane-generated second messengers and appears to be separate from that activated by external hormone. Finally, although microinjected insulin is degraded rapidly, it is the intact hormone rather than a degradation product that stimulates protein synthesis.     

Mechanical stretch augments insulin-induced vascular smooth muscle cell proliferation by insulin-like growth factor-1 receptor

Insulin resistance and hypertension have been implicated in the pathogenesis of cardiovascular disease; however, little is known about the roles of insulin and mechanical force in vascular smooth muscle cell (VSMC) remodeling. We investigated the contribution of mechanical stretch to insulin-induced VSMC proliferation. Thymidine incorporation was stimulated by insulin in stretched VSMCs, but not in un-stretched VSMCs. Insulin increased 2-deoxy-glucose incorporation in both stretched and un-stretched VSMCs. Mechanical stretch augmented insulin-induced extracellular signal-regulated kinase (ERK) and Akt phosphorylation. Inhibitors of epidermal growth factor (EGF) receptor tyrosine kinase and Src attenuated insulin-induced ERK and Akt phosphorylation, as well as thymidine incorporation, whereas 2-deoxy-glucose incorporation was not affected by these inhibitors. Moreover, stretch augmented insulin-like growth factor (IGF)-1 receptor expression, although it did not alter the expression of insulin receptor and insulin receptor substrate-1. Insulin-induced ERK and Akt activation, and thymidine incorporation were inhibited by siRNA for the IGF-1 receptor. Mechanical stretch augments insulin-induced VSMC proliferation via upregulation of IGF-1 receptor, and downstream Src/EGF receptor-mediated ERK and Akt activation. Similar to in vitro experiment, IGF-1 receptor expression was also augmented in hypertensive rats. These results provide a basis for clarifying the molecular mechanisms of vascular remodeling in hypertensive patients with hyperinsulinemia.     

Factors controlling the growth of bovine primary and preantral follicles in perifusion culture

Tissue slices taken from the cortex of bovine ovaries were perifused with medium-199 supplemented with 1) no hormones, 2) insulin (200 IU/l), 3) estradiol-17beta (E2 100 ng/ml), 4) insulin plus E2 or 5) insulin, E2 plus human chorionic gonadotropin (hCG; 0.1 IU/ml). After 0, 3, 24 and 48 h of perifusion, cortical slices were either incubated with 3H-thymidine to determine the amount of 3H-thymidine incorporated into DNA, or prepared for histology. Prior to perifusion, cortical slices incorporated 3H-thymidine at a rate of 17.5 +/- 2.5 cpm/mg/h and contained 22.2 +/- 4.4 primary and 11.3 +/- 3.9 preantral follicles/slice. 3H-thymidine incorporation remained at 0 h levels, but by 48 h of perifusion the number of primary follicles per slice was reduced to 2.5 +/- 2.2, 2.5 +/- 2.5 and 3.3 +/- 1.2 for cortical slices exposed to either no hormones, insulin or E2, respectively (P < 0.05). Exposure to either insulin and E2 or insulin, E2 plus hCG resulted in an increase in 3H-thymidine incorporation with the number of primary follicles decreasing at 24 h (P < 0.05) then increasing at 48 h of perifusion (P < 0.05). The addition of hCG increased both 3H-thymidine incorporation and the number of primary follicles present after 48 h compared to treatment with insulin and E2 alone (P < 0.05). The interstitium was well maintained if insulin was present in the medium. These results indicate that 1) insulin is essential for the maintenance of the interstitial cells, 2) a synergistic interaction between insulin and E2 stimulates primordial follicles to grow into primary follicles and 3) hCG facilitates the growth-promoting actions of insulin and E2.