C. Susini scite author profile

Somatostatin has been demonstrated to negatively regulate pancreatic growth in vivo. In this study we used the AR4-2J rat pancreatic acinar tumor cell line to investigate the effect of a stable somatostatin analog, SMS 201-995 (SMS) on cell proliferation. SMS induced an antiproliferative effect on both serum or epidermal growth factor (EGF)-induced cell proliferation; exposure of the cells for 48 h to SMS caused a slight inhibition of serum-induced proliferation (maximal inhibition, 26%) and abolished the growth-promoting effect of EGF. Maximal effect was observed with 10 nM SMS, and half-maximal (IC50) effect with 0.06-0.1 nM SMS. Binding studies with an iodinated derivative of SMS, [125I-Tyr3]SMS, revealed the presence of a single class of high affinity binding sites on AR4-2J plasma membranes with an equilibrium dissociation constant of 0.2 +/- 0.03 nM and a binding site number of 1.1 +/- 0.07 pmol/mg protein. Addition of the nonhydrolyzable GTP analog, guanosine 5-[gamma-thio] triphosphate (GTP gamma S), increased the rate of dissociation of the specifically bound peptide in agreement with the coupling of somatostatin receptors with a GTP-binding regulatory protein. The good agreement between the IC50 for SMS inhibition of cell proliferation and the apparent Kd for binding indicates that the characterized binding sites are the somatostatin receptors that mediate the antiproliferative effect of SMS. When cells were grown in serum-free medium EGF stimulated AR4-2J cell proliferation with half-maximal (ED50) and maximal effects at 0.6 and 10 nM EGF, respectively. This stimulatory effect of EGF was mediated by specific receptors, since binding studies with [125I]EGF indicated that AR4-2J cells contained a single class of EGF receptors (13,000 sites/cell), with an affinity constant for [125I]EGF (Kd = 0.9 +/- 0.09 nM) close to the ED50 for EGF stimulation of cell growth. To examine if SMS-induced growth inhibition involved a cAMP-dependent mechanism we first studied the effect of SMS on cAMP production. SMS had no effect on basal cAMP, but completely inhibited VIP-stimulated cAMP production with an IC50 of 0.2 nM. Pertussis toxin, which is known to abolish the inhibitory effect of somatostatin on adenylate cyclase activity in AR4-2J cells, did not reverse the ability of SMS to inhibit cell proliferation as well as EGF-induced cell proliferation. These data indicate that the antiproliferative effect of SMS does not involve the GTP-binding protein-mediated negative coupling of somatostatin receptors to adenylate cyclase.(ABSTRACT TRUNCATED AT 400 WORDS)

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In-vitro and In-vivo Responsiveness of Muscle and Adipose Tissue to Insulin in Rats Rendered Obese by a High-fat Diet

Susini

Lavau

1978

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The influence of insulin on [6-l4 C] glucose metabolism was assessed in vitro and in vivo in epididymal adipose tissue and diaphragm of rats fed either a low-fat (9 per cent fat cal.) or a high-fat diet (72 per cent fat cal.). In vitro, diaphragm of fat-fed rats showed a lower glucose uptake than that of rats fed the low-fat diet, but had identical glycogen labeling and lactic acid production and a strongly reduced I4 CO2 production. Responsiveness of these pathways to insulin was unaltered by the fat content of the diet. The adipose tissue of fat-fed rats versus that of rats fed the low-fat diet showed: a higher lactic acid production and more efficient glycerogenesis and glycogenesis, all of these pathways being responsive to insulin; a lower glucose uptake and a strongly depressed fatty acid labeling, these two pathways being unresponsive to insulin. In-vivo labeling of glycogen in diaphragm in both basal and insulin-stimulated conditions was identical in the two groups of rats. In adipose tissue the amount of t4 C sequestered in the gh/ceride-glycerol moiety was the same in the two groups in basal and insulin-stimulated conditions, whereas the labeling of the fatty acid moiety and its increment with insulin were reduced by more than 99 per cent by the high-fat diet.These results show that alterations in fat content of the diet lead to differences in response to insulin that are pathway-and organspecific. DIABETES 27:114-20, February, 1978.A high-fat diet in rats causes dramatic changes in peripheral tissue glucose metabolism both in vitro and in vivo. 1 " 5 In addition, an impaired tolerance to intravenously 6 or orally 7 administered glucose and a reduced effect of exogenous 6 or endogenous 7 insulin

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C. Susini

The Somatostatin receptor subtypes SSTR2 and SSTR5 mediate the inhibition of cell proliferation

Direct Inhibitory Effects of a Somatostatin Analog, SMS 201-995, on AR4-2J Cell Proliferation via Pertussis Toxin-Sensitive Guanosine Triphosphate-Binding Protein-Independent Mechanism*

In-vitro and In-vivo Responsiveness of Muscle and Adipose Tissue to Insulin in Rats Rendered Obese by a High-fat Diet

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