M. A. Satta scite author profile

Menstrual irregularity is common in women with acromegaly, occurring in 40-84%. Although it has been attributed to gonadotropin deficiency and/or PRL excess, it has not been evaluated in detail, and its pathogenesis is not well understood. To explore the various possible pathogenic mechanisms, we have analyzed the clinical, endocrinological, and radiological characteristics of 47 women with active acromegaly within the reproductive age range (15-41 yr) with respect to their menstrual pattern; 9 patients (19%) had normal cycles, 7 (15%) had oligomenorrhea, 29 (62%) had amenorrhea, and 2 (4%) had polymenorrhea. Compared to patients with normal cycles (n = 9), patients with menstrual irregularity (oligo/polymenorrhea or amenorrhea; n = 38) were more hirsute, had lower serum estradiol (normal: median, 76.5 pmol/L; range, 20-570; menstrual irregularity: median, 283; range, 140-431; P < 0.01), and sex hormone-binding globulin (SHBG; normal: median, 19.6 nmol/L; range, 5-52; menstrual irregularity: median, 48; range, 18-60; P < 0.01), but similar testosterone levels; in addition, patients with amenorrhea had higher serum GH (normal: median, 100 mU/L; range, 8.8-400; amenorrhea: median, 30; range, 10.7-120; P < 0.05). PRL levels in excess of 1000 mU/L were found in 16 of the 38 patients with menstrual irregularity compared to only 1 of the 9 patients with normal cycles. Patients with menstrual irregularity had a greater impairment of anterior pituitary function than patients with normal cycles. Acromegalic patients who were defined as estrogen sufficient (estradiol, >140 pmol/L) had clinical baseline endocrine profiles and LH responses to GnRH stimulation similar to those in patients with polycystic ovarian disease. There was a positive correlation between GH levels and tumor size (r = 0.35; P < 0.05) and an independent inverse correlation between GH and SHBG levels (r = -0.6; P < 0.01), which persisted even in patients who were estrogen sufficient, but there was no correlation between GH and estradiol levels; in addition, there was a negative correlation between estradiol levels and tumor size (r = -0.42; P < 0.05). Thirty-five of the patients with menstrual irregularity had meso- or macroadenomas and 3 had microadenoma, whereas 6 of the 9 patients with normal cycles had microadenomas. In conclusion, menstrual irregularity is common in women with acromegaly (81% of our patients). Amenorrheic patients have higher GH levels, are mainly estrogen deficient, and tend to have larger tumors than patients with normal cycles. However, the independent negative correlation between GH and SHBG levels suggests that GH may, directly or indirectly, lead to a fall in SHBG, possibly determined by the hyperinsulinemia known to occur in acromegaly. Low SHBG levels may contribute to the menstrual disturbance seen in acromegaly in addition to any gonadotropin deficiency or hyperprolactinemia and may account for hirsutism in the presence of normal testosterone levels.

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Metastatic parathyroid carcinoma in the MEN2A syndrome

Jenkins¹,

Satta²,

Simmgen³

et al. 1997

Clinical Endocrinology

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We report a patient with a metastatic parathyroid carcinoma and medullary carcinoma of the thyroid. This patient represents a variation of the multiple endocrine neoplasia syndrome (MEN) type 2A. There was no evidence of a phaeochromocytoma. The case illustrates the difficulties that may be encountered in localising the source of PTH secretion; the patient underwent four unsuccessful exploratory operations of the neck and mediastinum before further investigations revealed a single metastatic deposit of parathyroid carcinoma involving the first thoracic vertebra. PCR amplification and sequencing of the RET oncogene from the metastatic parathyroid carcinoma and genomic DNA revealed a heterozygous mutation (Cys634Tyr) in exon 11, as has previously been described to occur in MEN 2A. In addition, loss of tumour heterozygosity was demonstrated at loci from chromosomes 1, 2, 3p, 13q and 16p. This represents the first report of a parathyroid carcinoma in a MEN2A patient, in which the multiple allelic deletions are consistent with the generalised losses observed in aggressive tumours.

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Endotoxin Induces Interleukin-1β and Nitric Oxide Synthase mRNA in Rat Hypothalamus and Pituitary

et al. 1998

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The gases nitric oxide (NO) and carbon monoxide (CO) may be involved in hypothalamo-pituitary-adrenal axis (HPA) modulation. In the brain, NO is synthesized by two forms of NO synthase (NOS), a constitutive neuronal form (nNOS) and an inducible form (iNOS). There are also a constitutive heme oxygenase (HO₂) and an inducible form (HO₁) which generate CO. We have therefore investigated the effect of peripheral lipopolysaccharide (LPS) administration on the gene expression of these enzymes along with interleukin-1β (IL-1β) gene expression in the hypothalamus, pituitary and liver. Male Wistar rats (200–250 g body weight) were injected intraperitoneally with endotoxin (Escherichia coli, 055 B5) dissolved in sterile normal saline [250 µg/kg first group, 2.5 mg/kg (second group) and 6.25 mg/kg (third group)] in a final volume of 0.5 ml, or saline alone in the control group. The first and the second groups were studied 1, 3, 8 and 24 h after LPS (n = 4 per group); the third group was studied at 3 h. Total RNA was extracted from the hypothalamus, pituitary and liver, and cDNA was made using standard reverse transcriptase methods. Duplex polymerase chain reaction (PCR) was standardised in order to quantify the expression of a specific gene in relation to the ‘house-keeping’ gene β-actin. The specific genes studied were iNOS, nNOS, HO₁, HO₂ and IL-1β. The PCR products were separated on agarose gel and densitometric analysis of the bands allowed semi-quantification. In the second group, iNOS and IL-1β were induced in hypothalamus, pituitary and liver, showing a peak at 3 h (p < 0.001), returning to baseline levels at 24 h. Neuronal NOS was not expressed in the liver under basal conditions or after LPS; in the hypothalamus and pituitary, nNOS was expressed basally but there was no change after LPS. In the first group, iNOS and IL-1β were again induced in all three tissues studied, but with a delayed time course compared to the second and third groups; the peak change for IL-1β occurred at 8 h (p < 0.05), again returning to baseline levels at 24 h. The peak for iNOS occurred at 24 h. HO₁ and HO₂ were expressed in all three tissues under basal conditions; HO₁ was increased at 1 h in the liver in the second group, and at 3 h in the pituitary in the third group. There was no change in either HO₁ or HO₂ in the hypothalamus at any dose at any time point. We conclude that IL-1β and iNOS are induced in rat hypothalamus and pituitary following various doses of endotoxin. We speculate that while IL-1β may mediate stimulation of the HPA by endotoxin, NO generation may be involved in the counter-regulation of this response.

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M. A. Satta

Low dose aspirin and inhibition of thromboxane B2 production in healthy subjects

Menstrual Irregularity in Women with Acromegaly

Metastatic parathyroid carcinoma in the MEN2A syndrome

Endotoxin Induces Interleukin-1β and Nitric Oxide Synthase mRNA in Rat Hypothalamus and Pituitary

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