We studied expression and functional characteristics of the insulin- and insulin-like-growth-factor-I (IGF-I) receptors in human renal carcinoma. Ligand-binding properties and tyrosine-kinase activity of both receptors, as well as the expression of the 2 isoforms of the human insulin receptor (HIR-A and -B) were analyzed in renal carcinoma and normal adjacent kidney tissue of 8 adult patients. Partially purified insulin- and IGF-I receptors from normal and renal cell carcinoma tissue possessed identical affinities for their ligands. Renal cell carcinoma, however, contained 3- to 4-fold more specific insulin-binding sites and 2-fold more IGF-I binding sites than adjacent normal kidney tissue. In addition, we determined the relative content of insulin/IGF-I receptor hybrids in both tissues. Renal cell carcinoma and adjacent normal tissue revealed similar amounts of insulin/IGF-I receptor hybrids, i.e., 44 +/- 8.2% of tracer IGF-I binding in normal tissue and 46 +/- 12.0% in renal cell carcinoma. When equal amounts of insulin- and IGF-I receptor protein were studied, we found significantly increased receptor autophosphorylation and elevated substrate phosphorylation in carcinoma tissue. To assess whether the differences in insulin-receptor tyrosine-kinase activity were caused by an altered pattern of insulin receptor isoform expression, we determined mRNA levels for HIR-A and -B. The 2 insulin receptor isoforms were, however, expressed in highly variable ratios in both normal and tumor tissue. Our experiments show that renal carcinoma expresses an elevated amount of insulin- and IGF-I receptor protein with increased specific autophosphorylation and tyrosine-kinase activity each. The increase of insulin-receptor tyrosine-kinase activity in renal carcinoma cannot be explained by an altered expression pattern of insulin receptor isoforms.
Myeloperoxidase (MPO) is an essential component of the oxygen-dependent microbicidal system of neutrophils and monocytes. Hereditary deficiency of MPO occurs in 1 in 2,000 to 4,000 individuals in the general population and has been generally considered an autosomal recessive trait. Previous studies have used the peroxidase activity of blood leukocytes to assess the phenotype of affected family members. Eosinophil peroxidase (EPO) also contributes to the peroxidase activity of blood leukocytes. Because EPO expression is normal in MPO-deficient subjects, eosinophil contamination can significantly contribute to peroxidase activity in leukocytes from family members of an MPO-deficient subject and thereby undermine correct interpretation of the inheritance pattern. To avoid this potential problem, we used cytochemical, immunochemical, and genetic techniques to assess the inheritance pattern of MPO deficiency in sixteen individuals from five unrelated kindreds. Each kindred had an index case with MPO deficiency and the R569W missense mutation, a genotype that causes MPO deficiency. Our analysis demonstrated that MPO deficiency was not inherited as a simple autosomal recessive trait. Most subjects were compound heterozygotes with respect to the R569W mutation and demonstrated a spectrum of phenotypes. Our data demonstrate the broad phenotypic impact of compound heterozygosity on the expression and function of a multimeric protein such as MPO.
After we had established that the IGFBP-3 gene is expressed in normal human kidney we examined renal adenocarcinoma tissue for alterations of the expression of this gene. For this purpose we prepared poly(A)+ RNA from normal kidney tissue and adjacent renal adenocarcinoma of 18 adult patients and compared the levels of IGFBP-3 mRNA by Northern analysis in both samples. The mean content by densitometry was markedly increased in the carcinoma tissues; in 17 of 18 patients the carcinoma contained significantly more IGFBP-3 mRNA than the normal kidney sample. The highest mRNA levels were found in patients with N2 and N3 lymph node extensions. Comparative Southern analysis of paired samples of four of these patients did not reveal amplification of the gene as the cause of these increased mRNA levels. In one patient, however, we identified a restriction fragment length polymorphism (RFLP) present in normal and malignant cellular DNA. This suggests a participation of the IGFBP-3 gene in the development of human renal cell cancer.
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