Ora Hirsch Pescovitz

Severe endocrine and nonendocrine manifestations of the McCune-Albright syndrome associated with activating mutations of stimulatory G protein Gs**

McCune-Albright syndrome (MCAS) is a sporadic disease classically including polyostotic fibrous dysplasia, café au lait spots, sexual precocity, and other hyperfunctional endocrinopathies. An activating missense mutation in the gene for the alpha subunit of GS, the G protein that stimulates cyclic adenosine monophosphate formation, has been reported to be present in these patients. The mutation is found in variable abundance in different affected endocrine and nonendocrine tissues, consistent with the mosaic distribution of abnormal cells generated by a somatic cell mutation early in embryogenesis. We describe three patients with MCAS who had profound endocrine and nonendocrine disease and who died in childhood. Two of the patients were severely ill neonates whose complex symptoms did not immediately suggest MCAS. A mutation of residue Arg201 of GS alpha was found in affected tissues from all three children. A review of the literature and unpublished case histories emphasizes the existence of other patients with severe and unusual clinical manifestations. We conclude that the manifestations of MCAS are more extensive than is generally appreciated, and may include hepatobiliary disease, cardiac disease, other nonendocrine abnormalities, and sudden or premature death.

Environmental Factors and Puberty Timing: Expert Panel Research Needs

Serono Symposia International convened an expert panel to review the impact of environmental influences on the regulation of pubertal onset and progression while identifying critical data gaps and future research priorities. An expert panel reviewed the literature on endocrine-disrupting chemicals, body size, and puberty. The panel concluded that available experimental animal and human data support a possible role of endocrine-disrupting chemicals and body size in relation to alterations in pubertal onset and progression in boys and girls. Critical data gaps prioritized for future research initiatives include (1) etiologic research that focus on environmentally relevant levels of endocrine-disrupting chemicals and body size in relation to normal puberty as well as its variants, (2) exposure assessment of relevant endocrine-disrupting chemicals during critical windows of human development, and (3) basic research to identify the primary signal(s) for the onset of gonadotropin-releasing hormone–dependent/central puberty and gonadotropin-releasing hormone–independent/peripheral puberty. Prospective studies of couples who are planning pregnancies or pregnant women are needed to capture the continuum of exposures at critical windows while assessing a spectrum of pubertal markers as outcomes. Coupled with comparative species studies, such research may provide insight regarding the causal ordering of events that underlie pubertal onset and progression and their role in the pathway of adult-onset disease.

Treatment of Familial Male Precocious Puberty with Spironolactone and Testolactone

Because the pubertal growth spurt in boys appears to be mediated by both androgens and estrogens, we hypothesized that blockade of both androgen action and estrogen synthesis would normalize the growth of boys with familial male precocious puberty. To test this hypothesis, we studied nine boys (age range, 3.3 to 7.7 years) during treatment with an antiandrogen (spironolactone) or an inhibitor of androgen-to-estrogen conversion (testolactone), followed by treatment with both agents. After six months of observation without treatment, the first four boys received spironolactone for six months, followed by spironolactone and testolactone. The next five boys received testolactone for six months, followed by spironolactone and testolactone. Neither spironolactone nor testolactone, given alone, was satisfactory as a treatment for this condition. However, a combination of spironolactone and testolactone, given for at least six months, restored both the growth rate and the rate of bone maturation to normal prepubertal levels and controlled acne, spontaneous erections, and aggressive behavior. The combined therapy was associated with a significantly lower growth rate than testolactone alone (P less than 0.05) and a significantly lower rate of bone maturation than spironolactone alone (P less than 0.05). No important adverse effects were observed during combined treatment. Six of the nine boys continued to receive the combined therapy for an additional 12 months and maintained normal prepubertal rates of growth and bone maturation. The mean predicted height (+/- SEM) increased progressively during the combined treatment although the difference between the pretreatment and post-treatment predictions was not significant (169.5 +/- 2.8 at the end of treatment vs. 166.2 +/- 4.5 cm before treatment; P = 0.29). We conclude that blockade of both androgen action and estrogen synthesis with the combination of spironolactone and testolactone is an effective short-term treatment for familial male precocious puberty. Further study will be required, however, to assess the long-term outcome in boys who receive this treatment.

Tamoxifen treatment for precocious puberty in McCune-Albright syndrome: a multicenter trial.

OBJECTIVE We undertook a 1-year multicenter trial of tamoxifen treatment for precocious puberty in girls with McCune-Albright syndrome (MAS). STUDY DESIGN Girls < or =10 years with classic or atypical MAS were recruited. Pretreatment history was collected for 6 months. Patients received 20 mg tamoxifen daily. Diaries were used to record bleeding. Evaluations included physical examination, bone age, pelvic ultrasound, hormone levels, and safety assessments. RESULTS A total of 28 girls (2.9-10.9 years of age) were enrolled from 20 centers, of whom 25 completed 12 months of tamoxifen treatment. Compared with before the study, vaginal bleeding episodes decreased (3.42+/-3.36/year vs 1.17+/-1.41/year), growth velocity slowed (SDS 1.22+/-2.65 vs -0.59+/-3.06, P=.005), and rate of bone maturation decreased (1.21+/-0.78 vs 0.72+/-0.36, P=.02). Ovarian volumes were enlarged and asymmetric throughout the study, and uterine volumes were increased. No adverse events occurred. CONCLUSIONS Tamoxifen treatment of precocious puberty in MAS results in a reduction of vaginal bleeding and significant improvements in growth velocity and rate of skeletal maturation.

Treatment of Precocious Puberty in the McCune–Albright Syndrome with the Aromatase Inhibitor Testolactone

The McCune-Albright syndrome is characterized by café au lait spots, fibrous dysplasia of bones, and sexual precocity. Girls with precocious puberty due to this syndrome have episodic increases in serum estrogen levels together with the formation of large ovarian cysts. The serum gonadotropin levels are typically suppressed, and the precocious puberty has not responded to treatment with long-acting analogues of luteinizing hormone-releasing hormone (LHRH). Encouraged by our initial success in a pilot study of one patient, we have now treated five girls with the McCune-Albright syndrome with the aromatase inhibitor testolactone, which blocks the synthesis of estrogens. Testolactone decreased the levels of circulating estradiol (P less than 0.05) and the ovarian volume (P less than 0.05), and there was a return to pretreatment levels after testolactone was stopped. During treatment, the peak responses of luteinizing hormone and follicle-stimulating hormone to stimulation by LHRH rose above suppressed pretreatment levels--significantly above pretreatment levels for follicle-stimulating hormone (P less than 0.02)--and then returned to pretreatment levels after testolactone was discontinued. Growth rates fell in three patients during treatment but could not be assessed in the other two because of bone deformities. The mean rate of bone maturation decreased and menses stopped in three of the four girls who were menstruating regularly. We conclude that testolactone is an effective treatment of precocious puberty in the McCune-Albright syndrome.

Bone mineral density during treatment of central precocious puberty

Treatment of adults with gonadotropin releasing hormone analogs has resulted in rapid loss in bone mineral density (BMD). We measured lumbar and femoral neck BMD by dual-energy x-ray absorptiometry during 2 years of depot leuprolide therapy in 13 girls (mean age, 7.5 years; mean bone age, 10.9 years). At baseline, BMD was elevated for age and concordant with the advanced skeletal age. During therapy with gonadotropin releasing hormone analog, BMD values increased and BMD standard deviation scores for age and skeletal age did not change.

Müllerian agenesis: an update.

Recently, many advances have been made in the study of sexual differentiation, including the discoveries of the gene for antimüllerian hormone as well as the gene for its receptor. However, the etiology of the clinical syndrome of müllerian agenesis remains elusive. We hypothesize that activating mutations of either the antimüllerian hormone gene or its receptor gene may cause müllerian duct regression in a genetic female during embryogenesis. This clinical commentary discusses the current management of the syndrome including the Abbe-McIndoe procedure, the most commonly used method of surgical correction, and the Frank vaginal dilation method, the most common nonsurgical method of correction.

Insulin-Like Growth Factors I and II Peptide and Messenger RNA Levels in Macrosomic Infants of Diabetic Pregnancies

Objective: Fetal macrosomia is a common complication of maternal diabetes mellitus and is associated with substantial morbidity, but the precise cellular and molecular mechanisms that induce fetal macrosomia are not well understood. We hypothesized that the macrosomia or accelerated fetal growth seen in infants of diabetic mothers is due to a perturbation of a putative placental-fetal growth axis involving growth hormone and insulin-like growth factors. Insulin-like growth factors I and II (IGF-I and IGF-II) are ubiquitous peptides that share structural homology with insulin and have been implicated in processes that control fetal growth. Studies of IGF levels in pregnancies complicated by diabetes and macrosomia have shown conflicting results. We set out to resolve these inconsistencies using molecular techniques to measure the placental IGF-I and IGF-II messenger RNA levels in placentas and a specific radioimmunoassay to measure IGF-I and IGF-II peptide levels in cord serum of normal and diabetic pregnancies. Methods: Placentas and cord blood were collected immediately after delivery at term from patients from each of three study groups: 1) nonmacrosomic infants of nondiabetic mothers (controls), 2) macrosomic infants of diabetic mothers, and 3) nonmacrosomic infants of diabetic mothers. Both IGF-I and IGF-II levels were measured in cord serum and placental tissue by a specific radioimmunoassay. Total RNA was extracted and analyzed by Northern gels hybridized to IGF-I or IGF-II riboprobes. Results: Levels of IGF-I in cord serum from the macrosomic diabetic group (83 ± 4.2 ng/mL) were significantly higher than levels from either the nonmacrosomic nondiabetic group (38 ± 1.9 ng/mL) or the nonmacrosomic diabetic group (13 ± 3.5 ng/mL). There was a direct linear correlation between cord serum IGF-I and infant birth weight, independent of diabetes (r2 = 0.61, P < .01). On the other hand, IGF-II cord serum levels were elevated in diabetic pregnancies (337 ± 12.2 ng/mL) compared with nondiabetic women (172 ± 19.8 ng/mL), but there was no correlation with birth weight (r2 = 0.035, P = .52). In contrast to cord blood levels, IGF-II peptide levels were significantly decreased in the placentas from mothers with diabetes compared with nondiabetic controls (116 ± 3.2 versus 158 ± 5.3 ng/mL, respectively). Levels of IGF-I peptide in placentas from both nondiabetic controls and diabetic mothers were below the sensitivity of the assay. levels of IGF-I and IGF-II mRNA did not differ in placentas from diabetic mothers versus nondiabetic controls. Conclusion: Cord serum IGF-II levels are elevated in diabetic pregnancies without a concomitant increase in placental IGF-II levels. This novel finding, combined with the finding that IGF-I levels are correlated with macrosomia independent of the diabetic state, contributes to our understanding of the possible mechanisms involved in fetal growth in pregnancies complicated by diabetes.

Pubertal Growth: Physiology and Pathophysiology

Publisher Summary This chapter provides an overview of pubertal growth. The current hypothesis is that pubertal growth in girls is driven by low levels of estrogen, on the order of about 4 μg/day, whereas pubertal growth in boys is driven both by low levels of estrogen and by high, that is, late pubertal levels of androgen. Earlier investigators have established that growth hormone and thyroxin play a permissive role in pubertal growth. The contribution of increased growth hormone and somatomedin C secretion at puberty to the pubertal growth spurt, however, is uncertain. Normal pubertal growth rates can be achieved without increased circulating growth hormone or somatomedin C in growth hormone-replaced, sex steroid-treated hypo pituitary children. Clinical evidence suggests that the adrenal androgens contribute little if anything to pubertal growth. In girls with Turner syndrome, who normally lack a pubertal growth spurt, low dose estrogen increases growth rate and improves predicted height. In the children with central precocious puberty, long-term LHRH analog treatment decreases growth rate and bone maturation and improves predicted height. In boys with familial male precocious puberty, control of pubertal growth appears to require removal of the effects of both androgens and estrogens. The potential to enhance height by delay of normal puberty is likely to be modest.

RNA interference (RNAi) for extracellular signal-regulated kinase 1 (ERK1) alone is sufficient to suppress cell viability in ovarian cancer cells.

While ovarian cancer is a leading cause of death in females today, the molecular, genetic, and environmental factors that initiate and support the progression of this disease are still only partially understood. The extracellular signal-regulated kinase (ERK) signaling pathway is a major contributor to cellular growth, differentiation and survival. Recently, we reported that this pathway is constitutively activated in ovarian cancer cells, and that by using RNA interference (RNAi) for ERK1 and ERK2, we were able to significantly suppress the number of viable tumor cells. In the present study, we have further investigated the mechanisms by which RNAi for the ERK kinases decreased viability in these cancer cells. It was determined that treatment of the cancer cells with small inhibitory RNAs (siRNAs) directed against ERK1 and ERK2 leads to the induction of apoptosis and necrosis by four hours following treatment. Additionally, we found that primary, non-malignant ovarian cells do not respond similarly to ERK siRNA treatment and that these cells fail to die following treatment. Data presented show that ERK2 expression is more difficult to silence, depending upon cell type being examined and that silencing ERK1 expression alone is sufficient to significantly decrease tumor cell viability.