Measurement of and correction for incubation damage in radioimmunoassay

Growth hormone stimulates bone formation and strength of cortical bone in aged rats

The influence of growth hormone on bone formation, mechanical strength, and composition has been investigated in femur middiaphyseal cortical bone from 2-year-old male rats. The rats were given biosynthetic human growth hormone (bhGH) at 2.7 mg/kg/day in two daily injections for 20, 40, or 80 days, and all animals were killed 80 days after the start of bhGH administration. Control animals were given saline. All animals were labeled with tetracycline on days 41 and 69. Only in the bhGH-80-day group was subperiosteal tetracycline double labeling seen all around the femur diaphysis, and this pattern was found in all animals of the group. Double labeling subperiosteally at the posteromedial aspect was found in all animals of the experiment, but compared with the control group, a 400% and an 800% increase in mineral apposition rate was seen in the bhGH-40-day and bhGH-80-day groups, respectively. Light microscopy and polarization microscopy showed that this newly deposited bone was organized in the same concentric lammellae and had the same direction of the collagen fibers when compared with the surrounding bone formed before the start of bhGH injections. The cortical bone cross-sectional area was increased in the bhGH-40-day and bhGH-80-day groups. At the endosteum, scattered labeling was found in animals from all groups, and no differences in medullary cross-sectional areas were seen. The mechanical analysis revealed an increased mechanical strength of the whole diaphyseal bone after bhGH administration. When the data were corrected for dimensions of the diaphyseal bone, no differences in intrinsic mechanical properties of the bone tissue were found. No differences in apparent density of dry defatted bone, ash, and collagen were seen, whereas apparent density of dry defatted bone minus ash was decreased in all groups given bhGH. Correspondingly, a slight increase in ash concentrations of the bhGH-injected animals was seen. bhGH administration also increased the body weight, muscle mass, and total serum IGF-I and thyroxine concentrations.

Increased ornithine decarboxylase activity in kidneys undergoing hypertrophy in experimental diabetes

Renal hypertrophy and hyperfiltration are early manifestations of human and experimental diabetes that may contribute to the late development of diabetic nephropathy. The biochemical events resulting in kidney growth in the diabetic state are completely unknown. Since growth of various tissues is accompanied by increased formation of polyamines, we studied whether polyamines were involved in the growth of the kidney observed in diabetic rats. This was done by measuring the activity of the rate-limiting enzyme in the polyamine pathway (ornithine decarboxylase; ODC) in kidneys from control, diabetic and insulin-treated diabetic animals. The ODC activity in the kidney was increased in the diabetic animals with a maximal rise 24 h after diabetes induction (6-fold, P less than 0.01); the activity thereafter declined. However, on day 14 the activity was still significantly elevated (2.5-fold, P less than 0.05). In insulin-treated diabetic animals the kidney ODC activity was only increased 3-fold (P less than 0.05) after 24 h, and for the rest of the study period the activity was about 1.8-fold higher than in control rats. After 14 days the kidneys from diabetic rats were significantly larger than kidneys from both control and insulin-treated diabetic rats, 1066 +/- 43 mg vs. 904 +/- 16 mg and 959 +/- 36 mg, respectively (P less than 0.01). For comparison, the ODC activity was also investigated in muscle. However, in muscle from diabetic animals the ODC activity declined steadily during the 14 days to 34% of control values (P less than 0.01), and insulin treatment completely normalized the ODC activity in muscle.(ABSTRACT TRUNCATED AT 250 WORDS)

Octreotide administration in diabetic rats: effects on renal hypertrophy and urinary albumin excretion

Initial renal hypertrophy in experimental diabetes is prevented by administration of a long-acting somatostatin analogue octreotide (SMS). To investigate the long-term effects of SMS on renal hypertrophy and urinary albumin excretion (UAE), streptozotocin-diabetic and non-diabetic rats were treated with two daily subcutaneous injections of SMS (100 micrograms x 2) for six months. Untreated diabetic and non-diabetic animals were used as reference groups. No differences were seen between the two diabetic groups in respect to body weight, food intake, blood glucose levels, urinary glucose output, hemoglobin A1C(HbA1C), fructosamine, serum growth hormone (rGH) or creatinine clearance, but kidney weight (896 +/- 36 vs. 1000 +/- 24 mg, P less than 0.02), UAE (417 +/- 131 vs. 1098 +/- 187 micrograms/24 hr, P less than 0.02), kidney insulin-like growth factor I (IGF-I) (167 +/- 16 vs. 239 +/- 17 ng/g, P less than 0.01) and serum IGF-I (301 +/- 26 vs. 407 +/- 17 micrograms/liter, P less than 0.01) were all reduced in the SMS-treated diabetic animals when compared to the untreated diabetic group. In non-diabetic rats SMS reduced body weight (274 +/- 3 vs. 293 +/- 5 g, P less than 0.01), kidney weight (695 +/- 9 vs. 764 +/- 17 mg, P less than 0.01), UAE (83 +/- 29 vs. 364 +/- 114 micrograms/24 hr, P less than 0.02), kidney IGF-I (202 +/- 12 vs. 280 +/- 12 ng/g, P less than 0.01), serum IGF-I (428 +/- 21 vs. 601 +/- 54 micrograms/liter, P less than 0.01) and serum rGH (67 +/- 6 vs. 126 +/- 27 micrograms/liter, P less than 0.05) when compared to untreated controls. When kidney weights were expressed in relation to body weight no difference was found between SMS-treated and untreated controls, while the difference between SMS-treated and untreated diabetic animals was still present (P less than 0.01). In conclusion, chronic administration of SMS has abating effects on diabetic renal hypertrophy and UAE, and thus indicates that SMS may reduce development of diabetic kidney lesions in experimental diabetes. The long-term suppressive effects of SMS on renal enlargement and UAE may in part be mediated through reduction in circulating and kidney IGF-I levels.

Evidence that potassium deficiency induces growth retardation through reduced circulating levels of growth hormone and insulin-like growth factor I

Growth retardation and impaired protein synthesis are major characteristics of potassium (K)-deficiency in animals and man. We have evaluated the effect of K-deficiency on growth, serum growth hormone (s-GH), insulin-like growth factor I (s-IGF-I), and insulin (s-insulin) in young rats. After 10 days on K-deficient fodder, 4 1/2-week-old rats showed a 54% reduction in serum potassium (s-K) and a weight gain that was reduced by 97%, compared with pair-fed controls. In addition, tail length, tibia length, and muscle weight of soleus in K-depleted animals were all significantly reduced compared with pair-fed controls. The growth retardation was accompanied by a 46% reduction in s-IGF-I, while s-insulin showed no decrease. K-repletion in animals depleted for 7 days showed complete normalization of s-K within 24 hours, in addition to a significant increase in both s-IGF-I and weight. In 4-week-old rats maintained on K-deficient fodder with variable K-content (1 to 260 mmol/kg) for 1 week, a strong correlation between the K-content of fodder and s-IGF-I could be established (r = .88, P less than .001), as well as between s-IGF-I and weight gain (r = .90, P less than .001). Furthermore, a stepwise reduction in basal s-GH was seen with the graded reduction of dietary K-content.(ABSTRACT TRUNCATED AT 250 WORDS)

Low somatostatin content in cerebrospinal fluid in multiple sclerosis. An indicator of disease activity?

In 27 patients with multiple sclerosis (MS), and in 10 control subjects of comparable age, percent ideal body weight and sex ratio, the cerebrospinal fluid (CSF) content of somatostatin was measured by radioimmunoassay. The results showed that the group of patients in relapse (n = 16) had significantly lower somatostatin content in CSF (95 +/- 4.1 (SEM) pg/ml) than both the control group (142 +/- 8.4 pg/ml) and the group of MS patients (n = 11), who had been in a clinical stable phase for more than 6 months (131 +/- 3.2 pg/ml). Duration of the disease and degree of neurological impairment were apparently without relation to the reduction of somatostatin content in the CSF. There was no relationship between CSF content of somatostatin and the content of total protein or IgG, neither of which showed any relationship to the activity of the disease.

Neutralization of glucagon by antiserum as a tool in glucagon physiology. Lack of depression of basal blood glucose after antiserum treatment in rats

The method of producing experimental glucagon deficiency by administration of glucagon antiserum was evaluated in rats. A pool of antisera was prepared, the affinity of which exceeded that of the glucagon receptors of liver cell membranes, whereas the binding capacity of the volume used amounted to more than one-third of the total glucagon content in the rat pancreas. That rapid, extensive, and lasting neutralization of glucagon had taken place after antiserum treatment was indicated by the following findings: When examined more than 1 h after the injection and after 60 min of exercise-stimulated glucagon production, all rats had excess free antibodies in plasma. The concentration of free glucagon was lowered to one-third of the concentration in control rats; at 37 degrees C plasma samples could bind 25% of additional 300 pmol/liter of glucagon in 10 s, and 69% in 120 s; the glycemic response to exogenous glucagon was abolished. Antiserum treatment, however, had no effect on blood glucose in rats fasted for 3 and 10 h, in chemically sympathectomized and adrenomedullectomized rats, and in 48-h-fasted, acutely adrenalectomized rats. The antiserum was found to contain 460 nmol/liter of antibody-bound glucagon, originating in the rabbit in which the antiserum was raised. However, antibody preparations from which the bound glucagon had been effectively removed were equally ineffective in lowering the basal blood glucose in rats, although in three-fourths of the rats the concentration of free glucagon was lowered beyond detection limit. The data indicate that the absolute concentration of glucagon in plasma is of minor importance for the maintenance of basal blood glucose in the rat.