HPV-negative Penile Intraepithelial Neoplasia (PeIN) With Basaloid Features.

Most human papillomavirus (HPV)-independent penile squamous cell carcinomas (PSCCs) originate from an intraepithelial precursor called differentiated penile intraepithelial neoplasia, characterized by atypia limited to the basal layer with marked superficial maturation. Previous studies in vulvar cancer, which has a similar dual etiopathogenesis, have shown that about one fifth of HPV-independent precursors are morphologically indistinguishable from high-grade squamous intraepithelial lesions (HSILs), the precursor of HPV-asssociated carcinomas. However, such lesions have not been described in PSCC. From 2000 to 2021, 55 surgical specimens of PSCC were identified. In all cases, thorough morphologic evaluation, HPV DNA detection, and p16, p53, and Ki-67 immunohistochemical (IHC) staining was performed. HPV-independent status was assigned based on both negative results for p16 IHC and HPV DNA. Thirty-six of the 55 PSCC (65%) were HPV-independent. An intraepithelial precursor was identified in 26/36 cases (72%). Five of them (19%) had basaloid features, morphologically indistinguishable from HPV-associated HSIL. The median age of the 5 patients was 74 years (range: 67 to 83 y). All 5 cases were p16 and DNA HPV-negative. Immunohistochemically, 3 cases showed an abnormal p53 pattern, and 2 showed wild-type p53 staining. The associated invasive carcinoma was basaloid in 4 cases and the usual (keratinizing) type in 1. In conclusion, a small proportion of HPV-independent PSCC may arise on adjacent intraepithelial lesions morphologically identical to HPV-associated HSIL. This unusual histologic pattern has not been previously characterized in detail in PSCC. p16 IHC is a valuable tool to identify these lesions and differentiate them from HPV-associated HSIL.

rhIGF-1 Treatment Increases Bone Mineral Density and Trabecular Bone Structure in Children with PAPP-A2 Deficiency.

AIM: Our objective was to determine changes in bone mineral density (BMD), trabecular bone score (TBS), and body composition after 2 years of therapy with recombinant human insulin-like growth factor-1 (rhIGF-1) in 2 prepubertal children with a complete lack of circulating PAPP-A2 due to a homozygous mutation in PAPP-A2 (p.D643fs25*) resulting in a premature stop codon. METHODS: Body composition, BMD, and bone structure were determined by dual-energy X-ray absorptiometry at baseline and after 1 and 2 years of rhIGF-1 treatment. RESULTS: Height increased from 132 to 145.5 cm (patient 1) and from 111.5 to 124.5 cm (patient 2). Bone mineral content increased from 933.40 to 1,057.97 and 1,152.77 g in patient 1, and from 696.12 to 773.26 and 911.51 g in patient 2, after 1 and 2 years, respectively. Whole-body BMD also increased after 2 years of rhIGF-1 from baseline 0.788 to 0.869 g/cm2 in patient 1 and from 0.763 to 0.829 g/cm2 in patient 2. After 2 years of treatment, both children had an improvement in TBS. During therapy, a slight increase in body fat mass was seen, with a concomitant increase in lean mass. No adverse effects were reported. CONCLUSION: Two years of rhIGF-1 improved growth, with a tendency to improve bone mass and bone microstructure and to modulate body composition.

Treatment With Recombinant Human Insulin-Like Growth Factor-1 Improves Growth in Patients With PAPP-A2 Deficiency.

CONTEXT: Pregnancy-associated plasma protein-A2 (PAPP-A2) is a metalloproteinase that specifically cleaves IGFBP-3 and IGFBP-5. Mutations in the PAPP-A2 gene have recently been shown to cause postnatal growth failure in humans, with specific skeletal features, due to the resulting decrease in IGF-1 bioavailability. However, a pharmacological treatment of this entity is yet to be established. CASE DESCRIPTION: A 10.5-year-old girl and a 6-year-old boy, siblings from a Spanish family, with short stature due to a homozygous loss-of-function mutation in the PAPP-A2 gene (p.D643fs25*) and undetectable PAPP-A2 activity, were treated with progressive doses (40, 80, 100, and 120 µg/kg) of recombinant human IGF-1 (rhIGF-1) twice daily for 1 year. There was a clear increase in growth velocity and height in both siblings. Bioactive IGF-1 was increased, and spontaneous GH secretion was diminished after acute administration of rhIGF-1, whereas serum total IGF-1 and IGFBP-3 levels remained elevated. No episodes of hypoglycemia or any other secondary effects were observed during treatment. CONCLUSION: Short-term treatment with rhIGF-1 improves growth in patients with PAPP-A2 deficiency.

Mutations in pregnancy-associated plasma protein A2 cause short stature due to low IGF-I availability.

Mutations in multiple genes of the growth hormone/IGF-I axis have been identified in syndromes marked by growth failure. However, no pathogenic human mutations have been reported in the six high-affinity IGF-binding proteins (IGFBPs) or their regulators, such as the metalloproteinase pregnancy-associated plasma protein A2 (PAPP-A2) that is hypothesized to increase IGF-I bioactivity by specific proteolytic cleavage of IGFBP-3 and -5. Multiple members of two unrelated families presented with progressive growth failure, moderate microcephaly, thin long bones, mildly decreased bone density and elevated circulating total IGF-I, IGFBP-3, and -5, acid labile subunit, and IGF-II concentrations. Two different homozygous mutations in PAPPA2, p.D643fs25* and p.Ala1033Val, were associated with this novel syndrome of growth failure. In vitro analysis of IGFBP cleavage demonstrated that both mutations cause a complete absence of PAPP-A2 proteolytic activity. Size-exclusion chromatography showed a significant increase in IGF-I bound in its ternary complex. Free IGF-I concentrations were decreased. These patients provide important insights into the regulation of longitudinal growth in humans, documenting the critical role of PAPP-A2 in releasing IGF-I from its BPs.

Principles and pitfalls in the differential diagnosis and management of childhood obesities.

Obesity is currently the most prevalent chronic childhood disease in Western countries. It is one of the most frequent consultations in general pediatrics and is even more common in pediatric endocrinology. As might be predicted, the prevalence of obesity-associated comorbidities is also increasing in children and adolescents. It is widely accepted that this increase in obesity results from an imbalance between energy intake and expenditure, with an increase in positive energy balance being closely associated with the current lifestyle in Western countries. However, there is increasing evidence indicating that an individual's genetic background is important in determining obesity risk. The physiologic mechanisms controlling appetite and energy expenditure are being revealed in part because of the identification of new causes of human monogenic, syndromic, and endocrine-related obesity. Thus, it is no longer appropriate to talk about obesity, but rather about "obesities" or "different diseases causing obesity," because their pathophysiologic bases differ. Moreover, these obesities require different diagnostic and management approaches. The pediatrician must be aware of this issue and focus the clinical history and physical examination toward specific clinical signs and symptoms to better exploit the available diagnostic and therapeutic resources when facing a child with obesity. Genetic, genomic, and metabolomic studies are often necessary to obtain a more appropriate diagnosis. Cognitive behavioral therapy is fundamental in obese children. The identification of potential targets will hopefully result in new pharmacologic approaches for translational and personalized medicine for obesity in the near future.

Familial short stature and intrauterine growth retardation associated with a novel mutation in the IGF-I receptor (IGF1R) gene.

CONTEXT: IGF-I is essential for normal human growth and mediates its effects through the IGF1R. IGF1R mutations have been associated with varying degrees of intrauterine and postnatal growth retardation. OBJECTIVE: To identify IGF1R gene mutations in a short-statured family with intrauterine growth retardation and microcephaly. METHODS: Direct DNA sequencing was used to identify IGF1R mutations. Multiplex ligation-dependent probe amplification analyses were performed for deletions and duplications of all IGF1R exons. Functional studies were conducted to assess mutation pathogenicity. RESULTS: A novel heterozygous IGF1R missense mutation in exon 7 (c.A1549T, p.Y487F) was identified in a short-statured girl with severe prenatal growth retardation and microcephaly. The same mutation was also identified in her mother, who presented prenatal and postnatal growth failure, and her short-statured maternal grandmother, both of whom exhibited microcephaly. The index case showed a partial response to rhGH. Functional studies performed in dermal fibroblasts from the index case and her mother showed normal IGF-I binding; however, IGF-I activation of intracellular signalling measured as AKT and extracellular signal-regulated kinase phosphorylation was markedly reduced, with patients' values being lower than those of her mother. IGF-I stimulation of DNA synthesis was significantly reduced compared with controls. CONCLUSION: Our results show a novel missense mutation in the IGF1R gene (c.A1549T, p.Y487F) associated with prenatal and postnatal growth failure and microcephaly in the context of familial short stature. The functional studies are in line with the inactivation of one copy of the IGF1R gene with variable expression within the same family.

Circulating kisspeptin levels exhibit sexual dimorphism in adults, are increased in obese prepubertal girls and do not suffer modifications in girls with idiopathic central precocious puberty.

The system KISS1-KISS1R is one of the main regulators of the hypothalamic-pituitary-gonadal axis and constitutes a link between metabolism and reproduction through its interaction with leptin. The aim of this study was to clarify the possible utility of kisspeptin as a pubertal marker and/or the possible influence of nutritional status in kisspeptin levels. To this end, we have studied kisspeptin plasma levels throughout sexual development and in prepubertal obese girls and girls affected by idiopathic central precocious puberty (CPP). Plasma kisspeptin concentrations were analyzed by RIA. An increase in kisspeptin levels was observed in adult females compared to healthy prepubertal and pubertal girls (p<0.001) and to adult males (p<0.001). Additionally, kisspeptin was increased in prepubertal obese girls compared to healthy prepubertal girls (p<0.01) and girls with idiopathic CPP (p<0.05). As revealed by the regression analysis, in prepubertal healthy and obese girls and girls with idiopathic CCP, the parameters that influenced kisspeptin levels were BMI (R(2)=0.10, p<0.05) and leptin levels (R(2)=0.14, p<0.01). In conclusion, kisspeptin levels do not seem to be a good pubertal marker. The results obtained in prepubertal and idiopathic CCP girls point to a relationship between leptin, BMI and kisspeptin at least in this group, and suggest a possible role for adipose tissue in the modulation kisspeptin synthesis.

[Hyperinsulinism-hyperammonemia syndrome due to a de novo mutation in exon 7 (G979A) of the glutamate dehydrogenase gene with excellent response to diazoxide]. / Síndrome de hiperinsulinismo-hiperamoniemia por mutación de novo en el exón 7 (G979A) del gen GLUD-1, con excelente respuesta a diazóxido.

Hyperinsulinism-hyperammonemia syndrome is characterized by recurrent and symptomatic hypoglycemias in childhood, secondary to hyperinsulinism associated with mild and asymptomatic hyperammonemia. This syndrome is caused by dominantly expressed mutations of the glutamate dehydrogenase gene (10q23.3). These mutations modify control of enzyme activity and represent the second cause of congenital hyperinsulinism of known genetic etiology. Moreover, this syndrome is the first genetic disorder due to an increase of function in an enzyme of intermediary metabolism to have been identified. We present the case of a 16-month-old boy with symptomatic recurrent hypoglycemias from the end of the first year of life, caused by a de novo mutation in exon 7 (G979A) of the GDH gene, with excellent outcome after diazoxide treatment.

[Graves' disease in children: management and review of 20 patients]. / Enfermedad de Graves: estado actual y revisión de 20 casos.

INTRODUCTION: Hyperthyroidism is a rare condition among children and the most common cause is Graves' disease. The best therapy for these patients continues to be debated. PATIENTS AND METHODS: The medical records of 20 patients with Graves' hyperthyroidism who were treated between 1989 and 2003 were reviewed. Clinical symptoms, thyroid function, thyroid autoantibodies, thyroid imaging tests, first line therapy, disease or treatment-induced complications and the need for a secondary treatment option, as well as outcomes, were analyzed. RESULTS: Age at diagnosis ranged from 5 to 16 years and there were more girls than boys (3:1). The most frequent symptom was hyperactivity (58 %). The most frequent sign was goiter (79 %). Thyroid-stimulating immunoglobulin antibodies were found in 90 % of the patients, at the beginning or during the course of the disease. All of the patients received antithyroid medication as first line therapy, but remission was achieved in just one patient. Surgical thyroidectomy was required in three patients, and two patients were treated with radioiodine. CONCLUSION: Because few children achieve remission with medical therapy, other types of treatment (surgery or radioiodine) are often required. Although antithyroid drugs are considered the first choice for treatment in Europe, some authors advocate radioiodine as the treatment of choice.