Fibroblast growth factor 23 (FGF23) is a major endocrine regulator of phosphate and 1,25 (OH) vitamin D metabolism and is mainly produced by osteocytes. Its production is upregulated by a variety of factors including 1,25 (OH) vitamin D, high dietary phosphate intake, and parathyroid hormone (PTH). Recently, iron deficiency and hypoxia have been suggested as additional regulators of FGF23 and a role of erythropoietin (EPO) was shown. However, the regulation of FGF23 by EPO and the impact on phosphate and 1,25(OH) vitamin D are not completely understood. Here, we demonstrate that acute administration of recombinant human EPO (rhEPO) to healthy humans increases the C-terminal fragment of FGF23 (C-terminal FGF23) but not intact FGF23 (iFGF23). In mice, rhEPO stimulates acutely (24 h) C-terminal FGF23 but iFGF23 only after 4 days without effects on PTH and plasma phosphate. 1,25 (OH) D levels and αklotho expression in the kidney decrease after 4 days. rhEPO induced FGF23 mRNA in bone marrow but not in bone, with increased staining of FGF23 in CD71 erythroid precursors in bone marrow. Chronic elevation of EPO in transgenic mice increases iFGF23. Finally, acute injections of recombinant FGF23 reduced renal EPO mRNA expression. Our data demonstrate stimulation of FGF23 levels in mice which impacts mostly on 1,25 (OH) vitamin D levels and metabolism. In humans, EPO is mostly associated with the C-terminal fragment of FGF23; in mice, EPO has a time-dependent effect on both FGF23 forms. EPO and FGF23 may form a feedback loop controlling and linking erythropoiesis and mineral metabolism.
The gene coding for the human homologue of the Drosophila segment polarity gene patched (PTCH1) is mutated in several common human tumors. In mice, haplodeficiency at the Ptch1 locus results in severe histologic defects in mammary ductal structure. We found no mutations within the coding region of PTCH1 in 17 human primary breast carcinomas. However, the biallelic Pro1315Leu (C3944T ) polymorphism of PTCH1 was significantly associated with breast cancer in 41 Bavarian patients compared to 85 healthy controls. We investigated whether this variant influences susceptibility for breast cancer in 611 breast cancer patients diagnosed by age 50 years and 1,057 controls matched by age and study region in Germany and in 1,093 breast cancer patients from the United Kingdom. Allele and genotype frequencies were not different between cases and controls. However, multivariate logistic regression analysis revealed an effect modification of oral contraceptive use (OC) on breast cancer risk by Leu-carrier status. Compared to women who have Pro/Pro and never used OC, Pro/Pro OC users had an increased odds ratio for breast cancer of 1.7. The odds ratio was also 1.7 for Leu-carriers who never used OC, but this was attenuated among Leu-carriers who ever used OC by 20%. Key words: genetic polymorphism; breast cancer; gene-environment interaction; oral contraceptivesThe tumor suppressor gene PTCH1 is a downstream receptor in the hedgehog family of cell signaling proteins and plays an essential role in many aspects of cell growth and cell differentiation. Germline mutations in PTCH1 have been detected in patients with nevoid basal cell carcinoma syndrome (NBCCS), in which patients are predisposed to developmental abnormalities and a variety of neoplasms including basal cell carcinoma and medulloblastoma. 1,2 In addition, somatic mutations in PTCH1 have been identified in sporadic cases of basal cell carcinomas and of medulloblastoma and in a variety of other tumors (see review). 3,4 Interestingly, nonsense mutations in PTCH1 have been reported in 2 of 7 breast carcinomas, 5 suggesting an involvement of the SHH/PTCH1 signaling pathway in development of this kind of tumor. Although a similar study in a larger sample of 45 breast carcinomas did not reveal any inactivating PTCH1 mutations, 6 the possible involvement of this gene in the formation of breast carcinoma has also been demonstrated in an animal model for Ptch1 haplodeficiency. 7 All postpubescent virgin mice heterozygous for Ptch1 developed ductal hyperplasia and dysplasia of the mammary glands, which reverted during late pregnancy and lactation but returned upon involution and gland remodeling. Treatment with estradiol and progesterone enhanced the mutant histologic phenotype. These data suggest a role for the Ptch1 signaling network in mammary growth and differentiation.To obtain further insights into the involvement of PTCH1 in breast carcinoma formation, we analyzed a series of breast carcinomas for PTCH1 mutations. In the process we observed that the biallelic Pro1315Leu (...
Inherited mutations of Patched (PTCH) in the nevoid basal cell carcinoma syndrome (NBCCS) lead to several developmental defects and contribute to tumor formation in a variety of tissues. PTCH mutations have been also identified in sporadic tumors associated with NBCCS including basal cell carcinoma (BCC) and medulloblastoma. Mice heterozygous for Ptch recapitulate the typical developmental symptoms of NBCCS and develop rhabdomyosarcoma (RMS) and medulloblastoma. PTCH is assumed to act as a tumor suppressor gene although inactivation of both alleles has been demonstrated only in a fraction of tumors. We have investigated the status of Ptch in RMS of heterozygous Ptch neo67/+ mice. Although the wild-type Ptch allele was retained in tumor tissue, the high levels of Ptch mRNA in these tumors result from overexpression of the mutant Ptch transcript. Our results suggest that the wild-type Ptch allele might be selectively silenced in RMS tissue or, alternatively, that haploinsufficiency of Ptch is sufficient to promote RMS formation in mice.
Mutations in the human homologue of Drosophila Patched1 (PTCH1) have been found in several common tumours including basal cell carcinoma, medulloblastoma, and rhabdomyosarcoma (RMS). Medulloblastoma and RMS are also present in the murine model for Ptch1 deficiency. Tumours in heterozygous Ptch1(neo67/+) mice consistently exhibit elevated transcript levels of the proto-oncogene Gli1, of Ptch1 itself, and of the insulin-like growth factor 2 (Igf2). The present study has investigated additional molecular changes in RMSs of Ptch1 mutant mice by means of microarray analysis and protein expression analysis. The data show activation of the cell survival-promoting Akt/protein kinase B (Pkb). Furthermore, RMSs express increased levels of the anti-apoptotic protein Bcl-2 and of genes and proteins known to inhibit cell proliferation, including Gadd45a and p27kip1. Taken together, the data suggest that the formation of RMSs in Ptch1 mutants is associated with the ability of tumour cells to resist apoptosis.
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