Novel heterozygous IGF1R mutation in two brothers with developing impaired glucose tolerance.

Infants born small for gestational age (SGA) are at risk to develop metabolic complications. Insulin-like growth factor 1 (IGF-1) resistance due to IGF-1 receptor (IGF1R) mutations is a rare genetic condition that causes proportionate growth retardation. The contribution of an impaired IGF1R function to the development of comorbidities such as disturbed glucose homeostasis is not well understood. Genetic analysis and detailed auxological, endocrine and psychological investigations in two male SGA siblings were performed. The two patients and their father bear a novel heterozygous mutation (p.Cys1248Tyr) in the IGF1R gene. Both brothers displayed very similar growth pattern before and during recombinant human growth hormone treatment, whereas oral glucose tolerance tests showed variable manifestations of progressive impaired glucose tolerance. The father had already developed type 2 diabetes mellitus. Growth retardation in our patients is likely caused by the IGF1R mutation that might predispose to disturbances of carbohydrate homeostasis. Therefore, a close metabolic monitoring of affected patients is indicated, particularly if growth hormone therapy is commenced.

Clinical and biochemical consequences of an intragenic growth hormone receptor (GHR) deletion in a large Chinese pedigree.

OBJECTIVE: Growth hormone insensitivity (GHI) may be caused by failure of GH receptor function. Some patients bearing specific GHR mutations differ from classical GHI individuals by extremely elevated GH-binding protein (GHBP) serum concentrations. We investigated clinical, genetic and biochemical characteristics of a severely growth-retarded Chinese boy with classical Laron syndrome manifestations. PATIENTS AND MEASUREMENTS: DNA and mRNA from blood cells of the patient and 11 family members were investigated for GHR mutations. Basal GH, GHBP, IGF-1 and IGFBP-3 concentrations were determined in serum samples. The impact of the aberrant mRNA on GHR protein expression and secretion was analysed in vitro by transfection studies in HEK293 cells. RESULTS: The proband and seven relatives had excessively elevated GHBP serum concentration. Basal GH in these individuals was significantly greater compared with family members with normal GHBP. The GHBP increase originated from a novel GHR intragenic deletion comprising parts of exon and intron 8 that caused exon 8 skipping from the GHR mRNA transcript. Transfection studies revealed that the predicted loss of plasma membrane anchorage results in direct secretion of the mutant GHR. CONCLUSIONS: The partial GHR deletion causes excessively elevated GHBP serum concentrations regardless of the state of zygosity of the mutation. The increase in GHBP is associated with significantly elevated basal GH levels. Clinically, only homozygous carriers exhibit classical GHI manifestations. The truncated GHR protein resulting from exon 8 skipping is directly secreted out of the cell.

Alu-mediated recombination defect in IGF1R: haploinsufficiency in a patient with short stature.

BACKGROUND: The insulin-like growth factor (IGF) receptor (IGF1R) is essential for normal development and growth. IGF1R mutations cause IGF-1 resistance resulting in intrauterine and postnatal growth failure. The phenotypic spectrum related to IGF1R mutations remains to be fully understood. METHODS: Auxological and endocrinological data of a patient identified previously were assessed. The patient's fibroblasts were studied to characterize the IGF1R deletion, mRNA fate, protein expression and signalling capabilities. RESULTS: The boy, who carries a heterozygous IGF1R exon 6 deletion caused by Alu element-mediated recombination and a heterozygous SHOX variant (p.Met240Ile), was born appropriate for gestational age but developed proportionate short stature postnatally. IGF-1 levels were low-normal. None of the stigmata associated with SHOX deficiency or sporadically observed in IGF1R mutation carriers were present. Nonsense-mediated mRNA decay led to a substantial decline of IGF1R dosage and IGF-1-dependent receptor autophosphorylation but not impaired downstream signalling. CONCLUSION: We present the first detailed report of an intragenic IGF1R deletion identified in a patient who, apart from short stature, deviates from all established markers that qualify a growth-retarded child for IGF1R analysis. Although such children will usually escape routine clinical mutation screenings, they can contribute to the understanding of factors and mechanisms that cooperate with the IGF1R.

A novel GH1 mutation in a family with isolated growth hormone deficiency type II.

BACKGROUND: Four distinct familial types of isolated GH deficiency (IGHD) have been described so far. OBJECTIVE: We report a novel nonsense GH1 mutation in a father and a son. PATIENTS: Father's height was 137.3 cm (-6.79 SDS); mother's height was 157.3 cm (-1.86 SDS). By the age of 8.25 years, his height was 104.3 cm (-4.82 SDS) and his weight was 18.3 kg (-3.35 SDS). GH stimulation tests had low peak GH value of 6.5 ng/ml (proband) and 6.3 ng/ml (father). Other pituitary hormones and magnetic resonance imaging (MRI) of the pituitary region was normal in both patients. The proband received recombinant human GH (rhGH) treatment (30 µg/kg/day) and he grew 15.4 cm in 15 months. RESULTS: Sequencing of the GH1 gene revealed a novel heterozygous nonsense mutation in both the father and the son (c.199A>T), which introduces a stop codon in exon 3. CONCLUSION: We present a family with IGHD II, with severe short stature, no phenotypic characteristics of GHD and a novel nonsense mutation in exon 3 of the GH1 gene. As fibroblasts were unavailable, we used computer analysis and we propose a unique mechanism that combines aberrant splicing and derogated GH release from the pituitary with residual secretion of a bioinactive truncated GH peptide.

A novel homozygous HESX1 mutation causes panhypopituitarism without midline defects and optic nerve anomalies.

OBJECTIVE: There are many genes reported to have been associated with combined pituitary hormone deficiencies, but mutations in HESX1 strongly correlate with septo-optic dysplasia. Our aim was to determine the cause of panhypopituitarism in our patient. PATIENTS AND METHODS: We studied an 8-month-old child having panhypopituitarism. The coding exons of PIT1, PROP1, LHX3, and HESX1 genes were amplified. Direct sequencing was done after denaturing HLPC. RESULTS: We identified a novel homozygous mutation (R160H) within the homeodomain of HESX1, which, to our knowledge, is the first to be described in humans. Neuroimaging studies revealed anterior pituitary aplasia, a normal posterior pituitary gland, and a thin pituitary stalk but no midline abnormalities. Optic nerve studies showed no pathology. This mutation is also carried in the parents of the affected child in a heterozygous pattern, suggesting an autosomal recessive inheritance. CONCLUSION: These data demonstrate that homozygous HESX1 mutation causing an R160H substitution can result in panhypopituitarism without midline defects.

Three novel missense mutations within the LHX4 gene are associated with variable pituitary hormone deficiencies.

CONTEXT: The LHX4 LIM-homeodomain transcription factor has essential roles in pituitary gland and nervous system development. Heterozygous mutations in LHX4 are associated with combined pituitary hormone deficiency. OBJECTIVES: Our objectives were to determine the nature and frequency of LHX4 mutations in patients with pituitary hormone deficiency and to examine the functional outcomes of observed mutations. DESIGN: The LHX4 gene sequence was determined from patient DNA. The biochemical and gene regulatory properties of aberrant LHX4 proteins were characterized using structural predictions, pituitary gene transcription assays, and DNA binding experiments. PATIENTS: A total of 253 patients from 245 pedigrees with GH deficiency and deficiency of at least one additional pituitary hormone was included in the study. RESULTS: In five patients, three types of heterozygous missense mutations in LHX4 that result in substitution of conserved amino acids were identified. One substitution is between the LIM domains (R84C); the others are in the homeodomain (L190R; A210P). The patients have GH deficiency; some also display reductions in TSH, LH, FSH, or ACTH, and aberrant pituitary morphology. Structural models predict that the aberrant L190R and A210P LHX4 proteins would have impaired DNA binding and gene activation properties. Consistent with these models, EMSAs and transfection experiments using pituitary gene promoters demonstrate that whereas the R84C form has reduced activity, the L190R and A210P proteins are inactive. CONCLUSIONS: LHX4 mutations are a relatively rare cause of combined pituitary hormone deficiency. This report extends the range of phenotypes associated with LHX4 gene mutations and describes three novel exonic mutations in the gene.

Four novel mutations of the LHX3 gene cause combined pituitary hormone deficiencies with or without limited neck rotation.

CONTEXT: The Lhx3 LIM-homeodomain transcription factor gene is required for development of the pituitary and motoneurons in mice. Human LHX3 gene mutations have been reported in five subjects with a phenotype consisting of GH, prolactin, TSH, LH, and FSH deficiency; abnormal pituitary morphology; and limited neck rotation. OBJECTIVE: The objective of the study was to determine the frequency and nature of LHX3 mutations in patients with isolated GH deficiency or combined pituitary hormone deficiency (CPHD) and characterize the molecular consequences of mutations. DESIGN: The LHX3 sequence was determined. The biochemical properties of aberrant LHX3 proteins resulting from observed mutations were characterized using reporter gene and DNA binding experiments. PATIENTS: The study included 366 patients with isolated GH deficiency or CPHD. RESULTS: In seven patients with CPHD from four consanguineous pedigrees, four novel, recessive mutations were identified: a deletion of the entire gene (del/del), mutations causing truncated proteins (E173ter, W224ter), and a mutation causing a substitution in the homeodomain (A210V). The mutations were associated with diminished DNA binding and pituitary gene activation, consistent with observed hormone deficiencies. Whereas subjects with del/del, E173ter, and A210V mutations had limited neck rotation, patients with the W224ter mutation did not. CONCLUSIONS: LHX3 mutations are a rare cause of CPHD involving deficiencies for GH, prolactin, TSH, and LH/FSH in all patients. Whereas most patients have a severe hormone deficiency manifesting after birth, milder forms can be observed, and limited neck rotation is not a universal feature of patients with LHX3 mutations. This study extends the known molecular defects and range of phenotypes found in LHX3-associated diseases.

The growth response to growth hormone (GH) treatment in children with isolated GH deficiency is independent of the presence of the exon 3-minus isoform of the GH receptor.

CONTEXT: A variant of the human GH receptor (GHR) lacks a 22-amino-acid sequence derived from exon 3 (d3-GHR). It was reported that pediatric patients, born small for gestational age or with idiopathic short stature who were homozygous or heterozygous for this variant responded better to GH treatment than those homozygous for the full-length allele (fl-GHR). OBJECTIVE: The objective was to study the impact of the GHR genotype on the phenotype and growth response in patients with isolated GH deficiency (IGHD) treated with GH. DESIGN: This was a retrospective, multinational, multicenter observational study. PATIENTS: Patients with IGHD (n = 107) were recruited. INTERVENTIONS: All patients received GH treatment at replacement doses. The GHR genotype (fl-GHR/fl-GHR, fl-GHR/d3-GHR, or d3-GHR/d3-GHR) was determined by PCR amplification. MAIN OUTCOME MEASURES: Measures included height sd score, height velocity, height velocity sd score at baseline and 1 yr of GH treatment, and their changes. RESULTS: There was no statistically significant difference of the main outcome measures between patients with the d3-GHR allele (n = 48) and patients who were homozygous for the fl-GHR allele (n = 59). Moreover, the genotype group did not contribute significantly to the growth prediction in multiple linear regression models. CONCLUSIONS: Our results indicate that the d3-GHR allele does not affect response to GH treatment or contribute to growth predictions in patients with IGHD who received replacement doses of GH aiming to restore a normal GH status. We did not confirm the previously reported data obtained in patients small for gestational age or with idiopathic short stature who received supraphysiological GH doses.

Auxological and endocrine phenotype in a population-based cohort of patients with PROP1 gene defects.

OBJECTIVE: Multiple pituitary hormone deficiency (MPHD) may result from defects of transcription factors that govern early pituitary development. We aimed to establish the prevalence of HESX1, PROP1, and POU1F1 gene defects in a population-based cohort of patients with MPHD and to analyse the phenotype of affected individuals. DESIGN AND METHODS: Genomic analysis was carried out on 74 children and adults with MPHD from the Czech Republic (including four sibling pairs). Phenotypic data were collected from medical records and referring physicians. RESULTS: One patient carried a heterozygous mutation of POU1F1 (71C > T), and 18 patients (including three sibling pairs) had a PROP1 mutation (genotypes 150delA/301delGA/9/, 301delGA/301-delGA/8/, or 301delGA/349T > A/1/). A detailed longitudinal phenotypic analysis was performed for patients with PROP1 mutations (n = 17). The mean ( +/-s.d.) birth length SDS of these patients (0.12 +/- 0.76) was lower than expected based on their mean ( +/-s.d.) birth weight SDS (0.63 +/- 1.27; P = 0.01). Parental heights were normal. The patients' mean ( +/-s.d.) height SDS declined to -1.5 +/- 0.9, -3.6 +/- 1.3 and -4.1 +/- 1.2 at 1.5, 3 and 5 years of age, respectively. GH therapy, initiated at 6.8 +/- 3.2 years of age (mean dose: 0.022 mg/kg per day), led to substantial growth acceleration in all patients. Mean adult height (n = 7) was normal when adjusted for mid-parental height. ACTH deficiency developed in two out of seven young adult patients. CONCLUSIONS: PROP1 defects are a prevalent cause of MPHD. We suggest that testing for PROP1 mutations in patients with MPHD might become standard practice in order to predict risk of additional pituitary hormone deficiencies.

PROP1 mutations cause progressive deterioration of anterior pituitary function including adrenal insufficiency: a longitudinal analysis.

Mutations in the PROP1 gene are the most frequent genetic defects in patients with combined pituitary hormone insufficiency. However, controversy exists about the timing and extent of pituitary insufficiency, and it remains unclear whether adrenal failure is a typical feature of this condition. We performed a retrospective longitudinal analysis of nine patients with PROP1 mutations who were under medical supervision at our clinic for 15.7 +/- 3.4 yr. All patients initially presented with growth failure (height sd score, -3.7 +/- 0.3) at a mean age of 4.9 +/- 0.8 yr. They were first diagnosed with GH and TSH deficiency, and replacement therapy was instituted at 6.1 +/- 1.1 and 6.8 +/- 1.2 yr, respectively. All seven patients who reached pubertal age required sex hormone substitution at 15.0 +/- 0.7 yr. Repeated functional testing of the anterior pituitary axes revealed a progressive decline with age in peak levels of GH, TSH, prolactin, and LH/FSH. All patients developed at least partial adrenal insufficiency, with a gradual decline of the function of the pituitary adrenal axis and eventually required substitution with hydrocortisone at a mean age of 18.4 +/- 3.5 yr. It is concluded that anterior pituitary function in patients with PROP1 mutations deteriorates progressively and includes adrenal insufficiency as a feature of this condition, which has important clinical relevance in childhood and adolescence.

Tumor necrosis factor receptor-associated factor 1 gene overexpression in B-cell chronic lymphocytic leukemia: analysis of NF-kappa B/Rel-regulated inhibitors of apoptosis.

B-cell chronic lymphocytic leukemia (B-CLL) is characterized by a resistance toward apoptosis-inducing agents. Nuclear factor-kappaB (NF-kappaB)/Rel has been shown to regulate the expression of antiapoptotic genes, such as members of the inhibitor of apoptosis protein (IAP) and tumor necrosis factor receptor-associated factor (TRAF) gene families. Expression and regulation of NF-kappaB/Rel-dependent inhibitors of apoptosis have not been collectively studied in B-CLL. We examined expression of known NF-kappaB/Rel-regulated antiapoptotic genes by RNAse protection assay, real-time polymerase chain reaction, and immunoblotting in patients with B-CLL. TRAF1 and to a lesser extent TRAF2 were overexpressed in B-CLL lymphocytes as compared with normal CD19(+) B cells. TRAF1 overexpression did not correlate with markers of disease progression or overall survival. Furthermore, we found high constitutive expression of the IAP genes c-IAP-1, c-IAP-2, and XIAP both in normal and B-CLL lymphocytes. Focusing on the regulation of TRAF1, NF-kappaB/Rel activity in B-CLL nuclear extracts was shown to bind to TRAF1 promoter elements. However, IkappaB kinase (IKK) activity was not increased in CLL lymphocytes as compared with normal CD19(+) B cells. The known IKK inhibitor sulfasalazine did not compromise TRAF1 expression. Thus, although our study revealed a common expression pattern of NF-kappaB/Rel-regulated inhibitors of apoptosis, our findings indicate an IKK-independent regulation of TRAF1 in B-CLL.