Serum haptoglobin: a novel marker of adiposity in humans.

Haptoglobin (Hp) is a glycoprotein involved in the acute phase response to inflammation. Our previous findings indicate that Hp mRNA and protein are present in the adipose tissue of rodents and that Hp gene expression is up-regulated in obese models. The aim of the present study was to establish whether Hp could be considered a marker of obesity in humans. In 312 subjects, serum Hp was correlated directly with body mass index (BMI), leptin, C-reactive protein (CRP), and age. In a multivariate stepwise regression analysis, BMI and CRP were independent determinants of serum Hp in females, with BMI having the strongest effect. CRP and age were independent determinants of serum Hp in males, although explaining only a modest percentage of the total variability. Serum Hp was positively associated with body fat, as assessed by dual-energy x-ray absorptiometry, both in female and in male groups. The level of significance improved when serum Hp was analyzed against fat mass adjusted for lean mass. Finally, Northern and Western blot analyses performed in biopsies of sc abdominal fat from 20 obese individuals showed the presence of Hp mRNA and protein in the human adipose tissue. In conclusion, serum Hp constitutes a novel marker of adiposity in humans, and the adipose tissue likely contributes to determine its levels.

The extracellular portion of the insulin receptor beta-subunit regulates the cellular trafficking of the insulin-insulin receptor complex. Studies on Chinese hamster ovary cells carrying the Cys 860-->Ser insulin receptor mutation.

OBJECTIVE: Chinese hamster ovary (CHO) cells transfected with human engineered insulin receptor (IR) cDNA to mutate Cys 860 to Ser (CHO-IR(C860S)) showed a defective insulin internalization without affecting insulin binding and IR autophosphorylation. Moreover, this mutation reduces insulin receptor substrate (IRS)-1 tyrosine phosphorylation and insulin-induced metabolic and mitogenic effects. Altogether, these observations support a role of the extracellular domain of IR beta-subunit in insulin and receptor intracellular targeting as well as in insulin signaling. DESIGN AND METHODS: This study assesses in more details the effect of IR(C860S) mutation on the trafficking of the insulin-IR complex. In particular, IR internalization, phosphorylation, dissociation and recycling, as well as insulin degradation and retroendocytosis have been investigated in CHO cells overexpressing either wild type (CHO-IR(WT)) or mutated IRs. RESULTS: the C860S mutation significantly decreases IR internalization both insulin stimulated and constitutive. In spite of a similar dissociation of internalized insulin-IR complex, recycling of internalized IR was significantly faster (half life (t(1/2)): 21 min vs 40 min, P<0.001) and more extensive (P<0.01) for IR(C860S) than for IR(WT). On the other hand, insulin degradation and retroendocytosis were superimposable in both cell lines. As expected, insulin-induced phosphorylation was similar in both IRs, however dephosphorylation was much more rapid and was greater (P<0.01) in CHO-IR(WT) as compared with CHO-IR(C860S) cells. CONCLUSIONS: Transmembrane and intracellular domain of IR seem to be determinants for IR internalization. Now we report that Cys 860 in the IR beta-subunit ectodomain may be of relevance in ensuring a proper internalization and intracellular trafficking of the insulin-IR complex.

Pronatriodilatin gene polymorphisms, microvascular permeability, and diabetic nephropathy in type 1 diabetes mellitus.

Approximately 30% of diabetic patients develop nephropathy, the appearance of which is partially under genetic control. Atrial natriuretic peptide (ANP) has associated physiologic effects on the kidney. This study was conducted to examine the relationship between a newly identified and known polymorphism at the pronatriodilatin (PND) gene locus and renal involvement in type 1 diabetic subjects. Of 454 type 1 diabetic patients (219 men, 235 women), 323 showed no sign of nephropathy, 79 had incipient renal involvement, and 52 established nephropathy; 58 healthy control subjects were examined for comparison. Allele frequencies (C708 versus T708) were: 0.95 and 0.05 in normoalbuminuric patients, respectively; 0.88 and 0.12 in microalbuminuric patients; 0.96 and 0.04 both in those with overt nephropathy and in healthy control subjects (P = 0.011). Patients with incipient nephropathy were in disequilibrium compared with the total diabetic cohort (P = 0.02). In the same populations, an additional genotype for ScaI polymorphism of the PND gene was tested. The A1 and A2 allele frequencies were: 0.21 and 0.79 in normoalbuminuric patients; 0. 13 and 0.87 in microalbuminuric patients; 0.06 and 0.94 in type 1 diabetic subjects with overt nephropathy; and 0.20 and 0.80 in healthy control subjects, respectively (P < 0.0001). A subset of 55 normotensive patients with type 1 diabetes, well matched for clinical features, plasma ANP levels, and microvascular permeability to macromolecules, was investigated on the basis of the C708/T and A2/A1 polymorphisms. Both transcapillary escape rate of albumin (TERalb) and plasma ANP levels were significantly lower in patients with the T708 than with C708 allele, as well as in the A1 than in A2 allele (TERalb: T708 versus C708: 5.5+/-1.7 versus 7.8+/-2.0%/h, P = 0.0001; plasma ANP levels: 8.3+/-3.9 versus 15.3+/-7.7 pg/ml, P = 0.0003; A1 versus A2: 6.05+/-2.2 versus 7.3+/-2.1%/h, P = 0.044; 8.53+/-4.6 versus 14.5+/-7.4 pg/ml, P = 0.0024, respectively). Thus, in a large ethnically homogeneous cohort of diabetic subjects, our data show: (1) a significant association of C708/T polymorphism with microalbuminuria in long-term diabetes and with both lower plasma ANP levels and widespread albumin leakage; and (2) a strong association between ScaI polymorphism and both diabetic nephropathy and plasma ANP concentrations. These results suggest a possible role of PND gene in conferring protection from nephropathy and microvascular damage in type 1 diabetes.

Effects of acute or prolonged exposure to human leptin on isolated human islet function.

The adipocyte-derived hormone leptin has been reported to inhibit, have no effect, or potentiate insulin secretion in-vitro; these effects mainly depend on the species considered, the concentrations used, and the length of exposure. We investigated the direct effects of recombinant human leptin (HL) on human pancreatic beta cell function by studying insulin secretion (IS), hexokinase and glucokinase activity and Km, and potassium channel permeability in purified human islets (HI). In acute experiments, no effect of 1, 5, 20, or 50 ng/ml HL on glucose or arginine stimulated insulin release was found, whereas 500 ng/ml HL caused a significant decrease of glucose induced IS. After 24h pre-culture with either 20 or 500 ng/ml HL, a significant reduction of glucose (but not arginine) stimulated IS was observed. Exposure to leptin caused a significant increase of potassium channel permeability, whereas hexokinase and glucokinase activity and Km remained unchanged. These results suggest that physiological human leptin concentration is able to importantly affect glucose (but not arginine) stimulated insulin release from human islets only after prolonged exposure. This effect is probably mediated by changes of potassium channel permeability, and is not accompanied by modifications of glucose phosphorylating enzymes properties.

Plasma leptin levels in newborns from normal and diabetic mothers.

Leptin can be considered as a peripheral signal which informs the centers about the mass of energy stores. Studies done on the human adult population have demonstrated that degree of adiposity and insulin levels play a major role as determinants of leptin circulating levels. The aim of this study was to evaluate which factors may influence leptin levels at birth. We examined the role played by baby size and by the metabolic environment the fetus was exposed to during pregnancy. We considered 85 newborns from normal (n = 60), gestational (GDM, n = 17) and pregestational (IDDM = 8) diabetes mellitus mothers. At delivery, blood was taken from the umbilical cord vein. Babies from normal and GDM mothers were subdivided into AGA (appropriate for gestational age) and LGA (large for gestational age). There was no difference in leptin levels between babies from normal or GDM mothers belonging to the same weight category, but leptin levels were always higher in LGA than in AGA newborns, and highly correlated with birth weight (r = 0.34, P = 0.001). Moreover, IDDM mothers gave birth to newborns with significantly higher levels of leptin and insulin when compared with normal and GDM mothers. Diabetes of both GDM and IDDM mothers was clinically well controlled (HbA1c was 4.0 and 7.2, respectively). The correlation between leptin and insulin was significant only when newborns from IDDM mothers were included in the regression analysis (r = 0.39, P = 0.0002). Our results suggest that degree of adiposity is one of the main regulators of leptin concentration in the human newborn and that babies exposed to an altered, though clinically controlled, metabolic environment, as in IDDM mothers, have increased levels of leptin.

[Hypertension and diabetes]. / Ipertensione e diabete.

The prevalence of hypertension in diabetes is significantly higher than in non-diabetics, perhaps twice as common. The excess is related to diabetic nephropathy, mainly in type 1 diabetes, to obesity, mainly in type 2 diabetes, but also to increased sympathetic activity. Furthermore, the increased prevalence of hypertension may relate to insulin resistance and its sequelae. Insulin resistance leads to hyperinsulinemia, relates to increased LDL and reduced HDL levels, causes the development of impaired glucose tolerance and type 2 diabetes and might also be causally related to the onset of hypertension. Syndrome X has relevant therapeutic implications in the management of hypertension. Hypertension is a major risk factor for large vessel disease in diabetics and also a risk factor for microangiopathy, particularly nephropathy. The incidence of atherosclerotic disease is dramatically increased in both type 1 and type 2 diabetics and is the major cause of morbidity and premature death mainly in patients with raised urinary albumin excretion. Thus, diabetics show a two-fold increased risk of coronary heart disease, 2-6 fold increased risk of stroke and a several-fold increased risk of peripheral vessel disease. Some evidence suggests that hypertension may be a risk factor for retinopathy, particularly its progression, but surely hypertension is a significant risk factor for nephropathy, accelerating its progression and perhaps even causing the onset of the glomerulopathy. The mechanisms by which hypertension might contribute to the evolution of both large vessel as well as small vessel disease is still unknown, although increased capillary leakage and vascular endothelium alterations might be important factors.(ABSTRACT TRUNCATED AT 250 WORDS)

Contribution of known mitogenic signaling pathways to induction of DNA synthesis in quiescent Chinese hamster fibroblasts.

The mitogenic pathways so far identified in mammalian cells fall into three main categories: tyrosine kinase, kinase C, and the cAMP-dependent pathways. In quiescent murine 3T3 fibroblasts, all three signaling pathways synergize with each other to restart DNA synthesis. In order to establish if the same was true in other rodent fibroblast lines we studied the effects of factors, known to modulate the above-mentioned pathways, on DNA synthesis in Chinese hamster embryo fibroblasts (CHEF/18). The factors examined were: (1) EGF and insulin representative of tyrosine kinase-activating growth factors, (2) TPA as specific activator of protein kinase C, (3) cholera toxin, dibutyryl cyclic AMP, and theophylline as compounds increasing cAMP levels. We found that EGF alone is a strong mitogen in CHEF/18 cells, probably because it can modulate by itself all three pathways. Although cAMP acts as a growth enhancer in 3T3 cells, in CHEF/18 where high levels of cAMP were found, increased concentrations of this second messenger produce strong DNA synthesis inhibition and temporal disturbance of ribosomal protein S6 phosphorylation. Possible interpretations of these findings are presented.

3-isobutyl-1-methylxanthine inhibits the mutagenic activity of 7,12-dimethylbenz[a]anthracene in epithelial liver cells in culture.

The mutagenic activity of 7,12-dimethylbenz[a]anthracene in epithelial liver cells (CHEL) in culture was unaffected by the enhancement of intracellular cAMP induced to different extents and with different mechanisms by forskolin and 3-isobutyl-1-methylxanthine. However, the latter compound exerted antimutagenic effects (> 60%), which may be tentatively ascribed to inhibition of the inducible monooxygenase isoform(s) responsible for the specific biotransformation of 7,12-dimethylbenz[a]anthracene to highly mutagenic metabolites in CHEL cells.