Ovarian dysfunction by activating mutation of GS alpha: McCune-Albright syndrome as a model.

The McCune-Albright syndrome is characterized by cafe-au-lait spots, precocious puberty, and fibrous dysplasia. It is due to mutations in the gene encoding the GS protein alpha subunit coupling 7-transmembrane-domain receptors to adenylate cyclase, leading to constitutive adenylate cyclase activation and cAMP overproduction. Endocrinologists and gynecologists are confronted with new issues when these children reach adulthood. Gonadal function and fertility are often abnormal in women in whom puberty was precocious, owing to the persistence of a variable degree of ovarian autonomy that hinders adequate follicular development and ovulation.

Congenital hypogonadotropic hypogonadism in females: clinical spectrum, evaluation and genetics.

Congenital hypogonadotropic hypogonadisms (CHH) are a well-known cause of pubertal development failure in women. In a majority of patients, the clinical spectrum results from an insufficient and concomitant secretion of both pituitary gonadotropins LH and FSH that impedes a normal endocrine and exocrine cyclical ovary functioning after the age of pubertal activation of gonadotropic axis. In exceptional but interesting cases, they can result from an elective deficit of one of the gonadotropins follicle-stimulating hormone (FSH) or luteinizing hormone (LH) by genetic anomaly of their specific ss sub-unit. CHH prevalence, estimated from teaching hospital series, is considered to be two to five fold less important in women compared to men bearing the disease. This frequency is probably under-estimated in reason of under-diagnosis of forms with partial pubertal development. Isolated or apparently isolated forms (i.e., Kallmann syndrome with anosmia or hyposmia not spontaneously expressed by the patients) of these diseases are most of the time discovered during adolescence or in adulthood in reason of lacking, incomplete or even apparently complete pubertal development, but with almost constant primary amenorrhea. In a minority of cases and mainly in familial forms, genetic autosomal causes have been found. These cases are related to mutations of genes impinging the functioning of the pituitary-hypothalamic pathways involved in the normal secretion of LH and FSH (mutations of GnRHR, GnRH1, KISS1R/GPR54, TAC3, TACR3), which are always associated to isolated non syndromic CHH without anosmia. Some cases of mutations of FGFR1, and more rarely of its ligand FGF8, or of PROKR2 or its ligand PROK2 have been shown in women suffering from Kallmann syndrome or its hyposmic or normosmic variant. In complex syndromic causes (mutations of CHD7, leptin and leptin receptor anomalies, Prader-Willi syndrome, etc.), diagnosis of the CHH cause is most often suspected or set down before the age of puberty in reason of the associated clinical signs, but some rare cases of paucisymptomatic syndromic causes can initially be revealed during adolescence, like isolated non syndromic CHH or Kallmann syndrome.

Diagnosis and treatment of pituitary adenomas.

Pituitary tumors cause symptoms by secreting hormones (prolactin, PRL, responsible for amenorrhea-galactorrhea in women and decreased libido in men; growth hormone, GH, responsible for acromegaly; adrenocorticotropic hormone, ACTH, responsible for Cushing's syndrome; thyroid-stimulating hormone, TSH, responsible for hyperthyroidism), depressing the secretion of hormones (hypopituitarism), or by mass-related effects (headaches, visual field abnormalities...). All patients with pituitary tumors should be evaluated for gonadal, thyroid and adrenal function as well as PRL and GH secretion. Specific stimulation and suppression tests for pituitary hormones are performed in selected situations for detecting the type of hypersecretion or the response to treatment. Imaging procedures (mainly magnetic resonance imaging, MRI, nowadays) determine the presence, size and extent of the lesion. The classification of pituitary tumors is based on the staining properties of the cell cytoplasm viewed by light microscopy and immunocytochemistry revealing the secretory pattern of the adenoma. Treatment of pituitary adenomas consists of surgery (performed in more than 99% of cases via a transphenoidal route) and radiotherapy, generally fractionated or, in selected cases, using stereotactic techniques such as gamma-knife. The availability of medical treatment (dopamine, DA, agonists, somatostatin analogs, GH-receptor antagonists...) has profoundly modified the indications of radiotherapy, drugs being now generally used as a second-line treatment, after surgery (or even as first-line treatment). Based on the results of the different treatment modalities for each type of pituitary adenoma, recommendations will be proposed. They may be summarized as follows. For treatment of GH-secreting adenomas, trans-sphenoidal surgery is the first-line therapy except when the macroadenoma is giant or if surgery is contra-indicated; postoperative radiation therapy (fractionated, or by gamma-knife) is performed for partially resected tumors or when GH levels remain elevated (eventually after a trial of somatostatin analog). Somatostatin analogs, now available in slow release form, are proposed when surgery is contra-indicated, or has failed to normalize GH levels, or in waiting for the delayed effects of radiation therapy. If the probability of surgical cure is low (e.g. in patients with very large and/or invasive tumors), then somatostatin analogs may be reasonable primary therapeutic modality provided that the tumor does not threaten vision or neurological function. Pegvisomant, the new GH-receptor antagonist, is indicated in case of resistance to somatostatin analogs. Patients with PRL-secreting microadenomas may be treated either with trans-sphenoidal surgery or medically with DA agonists. In patients with macroadenomas, even in the presence of chiasmatic syndrome, DA agonists are now proposed as primary treatment. Indeed, effects on visual disturbances are often very rapid (within a few hours or days) and tumoral shrinkage is usually very significant. For patients with ACTH-secreting adenomas, primary therapy is generally trans-sphenoidal surgery by a skilled surgeon, whether or not a microadenoma is visible on MRI. Radiotherapy is reserved for patients who are subtotally resected or remain hyper-secretory after surgery. In waiting for the effects of radiotherapy, adrenal steroidogenesis inhibitors (mitotane, ketoconazole) may be indicated. If drugs are not available or not tolerated, bilateral adrenalectomy may be proposed. For patients with clinically non functioning adenomas (generally gonadotropin-secreting adenomas on immunocytochemistry), trans-sphenoidal surgery with or without postoperative radiation therapy is performed for almost all patients whether or not they have visual consequences of their tumor. Selected patients with small, incidentally discovered microadenomas may be carefully followed without immediate therapy.

[Recent progress in the diagnosis, prognostic evaluation and treatment of pheochromocytomas]. / Progrès récents dans le diagnostic, l'évaluation pronostique et le traitement des phéochromocytomes.

INTRODUCTION: Pheochromocytoma is a catecholamine-secreting neoplasm of chromaffin tissue. It is a rare disease. Biochemical tests should be performed only in patients at high risk of pheochromocytoma, and an imaging procedure only in those with positive biochemical tests. CURRENT KNOWLEDGE AND KEY POINTS: The most specific and sensitive diagnostic test for the disease is the determination of plasma or urinary metanephrines. The tumor can be located by computerized tomography, magnetic resonance imaging, and specific scintigraphy. Ten to 20% of pheochromocytomas result from hereditary diseases, including multiple endocrine neoplasia type 2, von Hippel Lindau disease, and neurofibromatosis 1. Familial cases are diagnosed earlier, and are more frequently bilateral and recurring than sporadic cases. About 10% of the cases are malignant either at first operation or during follow-up, malignancy being diagnosed by the presence of lymph node, visceral or bone metastases. The probability of a recurrence is positively correlated with the urinary excretion of metanephrines and tumor size. Recurrences are more frequent in cases with ectopic tumors and in those with a low plasma epinephrine to total catecholamine ratio. Patients, especially those with familial tumors or low epinephrine secretion, should be followed-up indefinitely. FUTURE PROSPECTS AND PROJECTS: Treatment for malignant recurrences includes surgery, therapeutic embolization, chemotherapy, and the application of therapeutic doses of metaiodobenzylguanidine. Metyrosine, phenoxybenzamine, or somatostatin analogs may help to control blood pressure and to alleviate symptoms in patients with malignant pheochromocytoma; however such a treatment has no antiproliferative effect.