Acute infections are accompanied by tissue insulin resistance, as manifested by worsening of metabolic control in diabetic patients and decreased glucose tolerance in non-diabetic subjects. To clarify the potential role of altered insulin receptor status in this phenomenon, we studied [125I]insulin binding to monocytes in 7 otherwise healthy subjects during acute bacterial and viral infections of moderate severity. The values were compared to those obtained after convalescence (five patients) and those of 24 normal subjects. Insulin binding during infection, at a time when insulin resistance was demonstrable, was indistinguishable from convalescent or normal values. Plasma glucose and insulin levels, the insulin to glucose ratio, as well as plasma GH, cortisol, and FFA were significantly elevated during infection, while plasma glucagon, epinephrine, and norepinephrine levels were normal. We conclude that insofar as monocyte receptors are representative of other tissues, insulin resistance in infection is mediated at the postreceptor level.
Human GH (hGH) consists of several molecular forms. Monomeric forms present in pituitary extracts include the single chain, 22,000 mol wt form (22K; hGH-B); a 20,000 mol wt, single chain variant (20K); three proteolytically cleaved, two-chain forms (hGH-C, -D, and -E), acetylated, deaminated, and slow-migrating forms. It is not known which of these forms are secreted in vivo or whether peripheral organs contribute to the interconversion between some of these hGH forms. To answer these questions, we studied the molecular forms of hGH excreted in urine from normal volunteers and from an acromegalic patient, as urinary hGH presumably reflects integrated plasma hGH. hGH was extracted from urine by hollow fiber diafiltration and concentration, followed by immunoadsorbent chromatography. The extracted hGH was examined by polyacrylamide gel electrophoresis under native as well as denaturing and reducing conditions and by isoelectric focusing. The predominant form of hGH in both normal urine and urine from the acromegalic patient was 22K, with small quantities (approximately 10%) of 20K and an unidentified acidic form also present. Cleaved forms with enhanced bioactivity (hGH-D and -E) and big hGH forms were not detectable. We conclude that 1) the pattern of urinary hGH suggests that spontaneously secreted and circulating hGH is composed of at least three hGH forms, with 22K predominating; 2) the pattern of urinary hGH is similar to that of plasma hGH after L-dopa stimulation; 3) hGH excreted in acromegaly is indistinguishable from hGH excreted by normal subjects; 4) only a minute fraction (less than 0.01%) of the hGH secreted reaches the final urine; and 5) renal interconversion among hGH forms does not appear quantitatively important.
We have established a model for malignancy-associated humoral hypercalcemia (MAHH) in athymic mice, utilizing a human squamous cell lung carcinoma. In the present studies, we evaluated cis-platinum (DDP), a cytotoxic agent known to produce hypomagnesemia, and occasionally hypocalcemia, in the treatment of MAHH. Upon development of significant hypercalcemia, defined as serum calcium (Ca) greater than or equal to 11.5 mg/dl, tumor-bearing mice received either normal saline (NS) alone (1.5 ml/day, i.p.), or NS + DDP. The DDP was given as a single dose of 6 micrograms/g body weight i.p. Serum Ca was determined on day 6 in surviving mice (6 of 10 survived in the NS-alone group; 7 of 10 survived in the NS + DDP group). Serum Ca (mean +/- SE) decreased from 14.3 +/- 0.46 to a nadir of 12.7 +/- 0.33 mg/dl in the NS-alone group, and from 13.5 +/- 0.46 to a nadir of 10.4 +/- 0.48 mg/dl in the NS + DDP group. Nadir serum Ca levels were significantly lower in the NS + DDP group (P = 0.003). Three of 7 surviving NS + DDP mice achieved normocalcemia, whereas none of the NS-alone animals became normocalcemic. Tumor volumes increased in all animals. There was no change in the serum Ca in 5 tumor-free mice treated with NS + DDP. There were no significant differences in serum magnesium levels among groups of control mice, tumor-free mice treated with NS + DDP, tumor-bearing mice treated with NS + DDP, and tumor-bearing mice treated with NS-alone.(ABSTRACT TRUNCATED AT 250 WORDS)
Tumor tissue from a patient with squamous cell carcinoma of the lung and hypercalcemia has been serially implanted into athymic mice. Tumor-bearing mice develop cachexia, hypercalcemia without bone metastases, hypophosphatemia, increased urinary cyclic adenosine monophosphate (cAMP) to creatinine ratio, and undetectable human immunoreactive parathyroid hormone levels. Radiographs of spines in the tumor-bearing mice demonstrate demineralization, suggesting skeletal resorption as the source of the hypercalcemia. Within 4-8 hours following tumor removal, hypercalcemia is reversed, suggesting that a relatively short-acting humoral substance is responsible for the hypercalcemia. The animals gain weight and become essentially normal within 4 days following tumor removal. The studies demonstrate that this animal model is similar in many aspects to human malignancy-associated humoral hypercalcemia (MAHH) and can provide a useful tool for further investigation of the pathogenesis and treatment of this syndrome.
Hypercalcemia is a frequent complication of cancer. Recently, parathyroid hormone-related protein has been isolated from tumors associated with this syndrome. In the present study, the effects of tumor-derived hypercalcemic factor and bovine parathyroid hormone (PTH) on bone were compared in an organ culture system using calvarial bones from newborn mice. Mouse calvaria were incubated for 72 h with control medium or media containing 0.15 mg/ml tumor extract (TE) or 2 × 10–9M PTH. Bone resorption as assessed by the amount of calcium released into the medium and the number of osteoclasts counted on light microscopy, was increased by both PTH and TE. On electron microscopy areas for cytoplasm ruffled border and clear zone were statistically increased in PTH- and TE-treated calvaria as compared to control. These values were not significantly different between PTH- and TE-treated calvaria. The study therefore demonstrates that the ultrastructural changes in osteoclasts induced by the hypercalcemia-producing TE are similar to those induced by PTH.
We evaluated nephrogenous cyclic adenosine monophosphate ( NcAMP ) levels in 61 normocalcemic patients with documented cancer of various organs and cell types. NcAMP levels were elevated in 17 (28%) and decreased in 13 (21%) of the cancer patients. Both high and low NcAMP levels were seen within the various cancer groups. There was a significant correlation (r = 0.383, P less than 0.01) between NcAMP and serum parathyroid hormone (PTH) levels, suggesting that tumor-related factors affecting NcAMP , may be partially related to native PTH. Alternatively, these factors might be altering the effect of endogenous PTH on renal tubules. A significant negative correlation was also observed between NcAMP and tubular maximum for phosphate (r = -0.356, P less than 0.02) suggesting that either cAMP per se or factors affecting NcAMP alter phosphate excretion. Follow up serum calcium data was available on 48 of the 61 patients. Subsequent hypercalcemia developed independent of the initial nephrogenous cAMP levels. It therefore appears that NcAMP elevation and development of hypercalcemia are two separate paraneoplastic phenomena.
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