We report the largest series of the literature of patients with clinical AHO and multihormone resistance and no mutation in the Gsalpha gene. Our findings of frequent GNAS imprinting defects further confirm the existence of an overlap between molecular and clinical features of PHP-Ia and PHP-Ib and highlight the necessity of a new clinical classification of the disease that takes into account the recent knowledge on the molecular basis underlying these defects.
Adiponectin (ApN), an adipocytokine expressed in adipocytes with antidiabetic and antiatherogenic actions, has been detected in cord blood, suggesting a putative role in intrauterine fetal development. The aim of this study was to confirm the presence of ApN in the fetal circulation and directly investigate ApN expression in fetal tissues. The study showed high ApN levels in umbilical venous blood from fetuses [n = 44; 31.2 ± 14.1 (sd) mg/liter in umbilical vs. 8.4 ± 4.0 in maternal circulation (P < 0.0001)] that positively correlated with gestational age. By using RT-PCR, Western blotting, and immunohistochemistry, ApN was detected in several fetal tissues at mid- and late gestation (from 14 to 36 wk) but not in the placenta. ApN was expressed in tissues of mesodermic origin, i.e. brown and white adipocytes, skeletal muscle fibers of diaphragm and iliopsoas, smooth muscle cells of small intestine and arterial walls, perineurium and renal capsule, and tissues of ectodermal origin, i.e. epidermis and ocular lens. The distribution of ApN expression in nonadipose tissues showed a general decline during the progression of gestation. The unexpected pattern of ApN expression in the human fetus may account for the high ApN levels in cord blood and predicts novel roles for ApN during fetal development.
Mutations of the Gsalpha gene inherited from the mother lead to pseudohypoparathyroidism (PHP) type Ia (PHP Ia), in which Albright's hereditary osteodistrophy is associated to resistance to the action of different hormones, whereas the same mutations inherited from the father lead to isolated Albright's hereditary osteodistrophy [pseudo-PHP (PPHP)]. Accordingly, it has been suggested that Gsalpha is under tissue-specific imprinting control, and recent studies provided evidence for a predominant maternal origin of Gsalpha transcripts in different endocrine organs involved in the PHP Ia phenotype. To establish whether Gsalpha is imprinted also in tissues that are site of alteration both in PHP Ia and PPHP, we selected 20 bone and 10 adipose tissue samples, which were heterozygous for a known polymorphism in exon 5. Expression from both parental alleles was evaluated by RT-PCR and enzymatic digestion of the resulting fragments. By this approach, the great majority of the samples analyzed showed an equal expression of the two alleles. Our results provide evidence for the absence of Gsalpha imprinting in human bone and fat and suggest that the clinical finding of osteodystrophy and obesity in PHP Ia and PPHP patients despite the presence of a normal Gsalpha allele is likely due to Gsalpha haploinsufficiency in these tissues.
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