Pseudoautosomal deletions encompassing a novel homeobox gene cause growth failure in idiopathic short stature and Turner syndrome.

Growth retardation resulting in short stature is a major concern for parents and due to its great variety of causes, a complex diagnostic challenge for clinicians. A major locus involved in linear growth has been implicated within the pseudoautosomal region (PAR1) of the human sex chromosomes. We have determined an interval of 170 kb of DNA within PAR1 which was deleted in 36 individuals with short stature and different rearrangements on Xp22 or Yp11.3. This deletion was not detected in any of the relatives with normal stature or in a further 30 individuals with rearrangements on Xp22 or Yp11.3 with normal height. We have isolated a homeobox-containing gene (SHOX) from this region, which has at least two alternatively spliced forms, encoding proteins with different patterns of expression. We also identified one functionally significant SHOX mutation by screening 91 individuals with idiopathic short stature. Our data suggest an involvement of SHOX in idiopathic growth retardation and in the short stature phenotype of Turner syndrome patients.

Accuracy and self-validation of automated bone age determination.

The BoneXpert method for automated determination of bone age from hand X-rays was introduced in 2009 and is currently running in over 200 hospitals. The aim of this work is to present version 3 of the method and validate its accuracy and self-validation mechanism that automatically rejects an image if it is at risk of being analysed incorrectly. The training set included 14,036 images from the 2017 Radiological Society of North America (RSNA) Bone Age Challenge, 1642 images of normal Dutch and Californian children, and 8250 images from Tübingen from patients with Short Stature, Congenital Adrenal Hyperplasia and Precocious Puberty. The study resulted in a cross-validated root mean square (RMS) error in the Tübingen images of 0.62 y, compared to 0.72 y in the previous version. The RMS error on the RSNA test set of 200 images was 0.45 y relative to the average of six manual ratings. The self-validation mechanism rejected 0.4% of the RSNA images. 121 outliers among the self-validated images of the Tübingen study were rerated, resulting in 6 cases where BoneXpert deviated more than 1.5 years from the average of the three re-ratings, compared to 72 such cases for the original manual ratings. The accuracy of BoneXpert is clearly better than the accuracy of a single manual rating. The self-validation mechanism rejected very few images, typically with abnormal anatomy, and among the accepted images, there were 12 times fewer severe bone age errors than in manual ratings, suggesting that BoneXpert could be safer than manual rating.

Metacarpal thickness, width, length and medullary diameter in children--reference curves from the First Zürich Longitudinal Study.

SUMMARY: Metacarpal thickness (T), width (W), length (L) and medullary diameter (M) were measured in 3,121 X-rays from 231 healthy Caucasian children aged 3 to 19 years and analysed for bone age, age, height, weight and gender-related characteristics, showing highly differentiated growth patterns with prepubertal dips. Reference data for the four metacarpal measures are presented. INTRODUCTION: The aim of the study was to create and explore a reference database for metacarpal T, W, L and M in children. METHODS: Three thousand one hundred twenty-one left-hand X-rays (1,661 from boys) from 231 healthy Caucasian subjects (119 boys) aged 3 to 19 years were analysed by BoneXpert, a programme for automatic analysis of hand X-rays and bone age (BA; in years). RESULTS: In boys, growth of T, W and L shows a prepubertal decrease from BA 7 to 13 and then accelerates again. In girls, the same is seen only for T starting from BA 8 to 11, whereas W and L grow at a declining rate. M shows steady growth until BA 10.5 in girls and BA 13.5 in boys and then grows smaller in both. W is greater in boys from BA 6 onwards, while L is greater in girls from BA 9 to 13 and T from BA 11 to 14. BA is reflected best by L until start of puberty and by T and L thereafter. CONCLUSION: T, W, L and M show highly differentiated growth patterns. These reference data provide a basis for further research into skeletal development and the management of hormone therapies in children.

Validation of functional insulin-like growth factor binding protein-3 measurement by a ligand immunoassay.

BACKGROUND: Proteolysis of Insulin-like Growth Factor Binding Protein (IGFBP)--3 is a well known mechanism regulating IGF-I bioavailability and IGF-independent actions of IGFBP-3 fragments. Measurement of functional IGFBP-3 can be of use in diagnostics of growth failure or renal impairment. We herein characterize the properties of a commercially available immunoassay for the measurement of functional (IGF-I binding) IGFBP-3. METHOD: Fragmentation of IGFBP-3 is analyzed by gel filtration, SDS-PAGE, and western ligand and immunoblotting and compared with subsequent measurement of total and functional IGFBP-3 by ELISA/IFA. Furthermore, assay characteristics such as reproducibility, linearity, and sensitivity are surveyed. RESULTS: Functional IGFBP-3 was reproducibly measured (6.8/5.6% Inter-/Intra assay variance). A broad range of linearity (1:50-1:300) and a high sensitivity (0.18 microg/L) allowed reliable measurement of IGF-binding IGFBP-3. Analysis of IGFBP-3 fragments reveals that the assay described only detects intact IGFBP-3. Analysis of 189 serum samples from healthy blood donors showed that on average 84% and 69% of total IGFBP-3 was functional in men and women, respectively (p < 0.01). CONCLUSIONS: Functional IGFBP-3 can be measured reliably by the assay system used. Thus, this assay system is suited for the investigation of the diagnostic value of functional IGFBP-3 in human body fluids.

Prevalence and incidence of endocrine disorders in children: results of a survey in Baden-Wuerttemberg and Bavaria (EndoPrIn BB) 2000-2001.

BACKGROUND: Sparse data is available on the incidence of endocrine disorders among children in Germany. AIM: A pioneer study was established to analyse, in the German states of Baden-Wuerttemberg (BW) and Bavaria (BY), the incidence and prevalence of congenital adrenal hyperplasia (AGS; CAH), precocious puberty (PP), primary congenital hypothyreosis (PCH), Graves disease (MB), and growth disorders related to the Ullrich-Turner syndrome (UTS) and growth hormone deficiency (GHD). METHODS: Participation in the study involved each paediatric hospital in BW and BY (n = 63),and all regional paediatricians belonging to the Association of Statutory Health Insurance Physicians (SHI) practising in these states (n = 1 443). Data collection was done from January 1, 2000, to December 31, 2001, and included all patients in the 0- < 18 age range. RESULTS: Completeness of data was 81 % for CAH and 55 % for UTS (capture-mark-recapture method).The incidence rate (IR, per 100 000 / year)versus prevalence rate (per 100 000 at the time point December 31, 2001) was: CAH 0.64 vs.9.60; PP 2.42 vs. 10,85; PCH 1.88 vs. 14.97; MB 0.89 vs. 3.25; UTS 2.15 vs. 29.07; and GHD 3.47(IR). Among neonates, the incidence of CAH was 1 / 7 794; PCH 1 / 2 629 and UTS 1 / 2 300. CONCLUSIONS: A pioneer study has been established in Germany for investigating the frequency of AGS (CAH), PP, PCH, MB, UTS, and GHD among children and adolescents. Our data shows that these disorders occur in approx. 2,700 children per year in total Germany, and about 12 000 of these children need to be treated in specialized paediatric endocrinological centres.

Is the response to growth hormone in short children born small for gestational age dependent on genetic or maternal factors?

BACKGROUND/AIMS: We investigated whether genetic or maternal/environmental risk factors for being born small for gestational age (SGA), e.g. Silver-Russell syndrome, congenital heart defects, infections of mothers or smoking during pregnancy, explain the variation in the first-year growth response to GH therapy. METHODS: Secondary analysis was made of growth response in 135 short prepubertal German children (66% males) enrolled in a SGA phase III trial. Initial mean patient age was 6.8 +/- 2.6 years; mean patient height SDS -3.8 +/- 1.2, and GH treatment dose was 0.066 mg/kg body weight per day. RESULTS: Growth velocity increased by 4.5 +/- 2.0 cm/year and height SDS by 1.0 +/- 0.5 SDS. Although patient number was limited and variation was high, both growth response (cm/year) and change in height SDS did not appear to differ between subgroups which also did not differ in terms of Studentized residuals set up in the KIGS growth prediction model for SGA. Likewise, in a step-forward multivariate analysis, the variables Silver-Russell syndrome, congenital heart defects, infections of mothers and smoking were not identified as independent factors influencing growth velocity. CONCLUSION: The retrospectively analyzed genetic and maternal/environmental risk factors for SGA do not appear to explain the observed patient variance in response to GH. Larger prospective studies are needed, however, to substantiate these preliminary findings.

Use of multiplex ligation-dependent probe amplification increases the detection rate for 11p15 epigenetic alterations in Silver-Russell syndrome.

Silver-Russell syndrome (SRS) describes a malformation syndrome with severe intrauterine and postnatal growth retardation. Currently, two major (epi)mutations have been described: while approximately 10% of patients carry a maternal uniparental disomy of chromosome 7 (UPD7), 35-60% show a hypomethylation at the H19 differentially methylated regions (DMRs) in 11p15. Until recently, a Southern-blot based test was routinely used to identify epimutation carriers. Nevertheless, this test was time consuming and hampered by the huge amount of genomic DNA needed. With the methylation-specific multiplex ligation-dependent probe amplification assay (MLPA) for SRS, a PCR-based test is now available, allowing the analysis also of small amounts of DNA. Probes in this assay hybridize to the H19 DMRs but do not cover the genomic target of the Southern-blot probe. We now screened 72 patients with SRS by MLPA. Hypomethylation of the H19 DMRs was confirmed in all patients analyzed by Southern blot. In addition, we identified six individuals with hypomethylation of the H19 DMR who had previously normal blot results. This discrepancy can be explained by the observed generally lower degree of demethylation in this group, possibly not detectable by the less sensitive Southern-blot method but also with a varying degree of methylation at different DMRs in the same individual. Apart from hypomethylation in the H19 DMR, we observed a slight demethylation for one of the IGF2 probes. The total detection rate of 11p15 hypomethylation is now increased to >38%. Considering maternal UPD7 and chromosomal aberrations, (epi)genetic alterations now account for more than 50% of SRS patients. In summary, MLPA represents an easy, low cost and reliable system in the molecular diagnostics of SRS.

Continuous rise in incidence of childhood Type 1 diabetes in Germany.

AIMS: To assess the incidence and the trend in incidence of Type 1 diabetes (T1DM) in children and adolescents < 15 years of age in Baden-Württemberg (BW), Germany. METHODS: BW is Germany's third largest federal state. All 31 paediatric departments in BW and one diabetes centre participated in the study. Case registration was done according to the EURODIAB criteria. The degree of ascertainment was 97.2%. RESULTS: From 1987 to 2003, the age- and sex-standardized incidence rate was 14.1/100,000 per year [95% confidence interval (CI) 13.7, 14.6, n = 4017]. The estimated annual increase in incidence was 3.8% (95% CI 1.1, 6.6). Compared with the first years of our registry, the current mean number of new cases of T1DM has doubled (1987-1989, n = 153; 2000-2003, n = 302). Generally, the highest rise in incidence occurred in the youngest age group of 0-4-year-old patients (5.8%; 95% CI 2.5, 9.3), followed by the age groups 5-9 (3.4%; 95% CI 0.8, 6.0) and 10-14 (2.7%; 95% CI 0.3, 5.1). CONCLUSIONS: In Germany, the number of children and adolescents with new-onset T1DM has been rising at a faster pace than expected. A distinct shift to younger age at onset has been observed in Germany.

Mutant and misfolded human growth hormone is rapidly degraded through the proteasomal degradation pathway in a cellular model for isolated growth hormone deficiency type II.

Autosomal dominant isolated growth hormone deficiency type II (IGHD II) is mainly caused by splice site mutations of the GH-1 gene, leading to deletion of amino acids 32-71 of the human growth hormone (hGH). The severe hGH deficit in IGHD II suggests a dominant negative effect of the partially deleted del(32-71)-hGH on the production, storage or secretion of normal wild-type (wt)-hGH in somatotrophic cells of the pituitary. To shed more light on the cellular and molecular basis of IGHD II, we established and analysed diverse clones of the rat somatotrophic cell line GH(4)C(1) stably expressing either wt-hGH, del(32-71)-hGH, or both proteins concomitantly. The cellular morphology of all transfected GH(4)C(1) cell clones showed moderate differences to untransfected GH(4)C(1) cells. On the molecular level, both cDNA-constructs induced transcription but, under normal culture conditions, only wt-hGH protein was found to be synthesised and secreted in readily detectable amounts. By contrast, only after inhibition of proteasomes did high amounts of del(32-71)-hGH show up. The solubility of del(32-71)-hGH in nondenaturing buffer was poor compared to wt-hGH, hinting at molecular aggregation, and several epitopes recognised by monoclonal hGH antibodies were not present on del(32-71)-hGH, confirming the assumption that del(32-71)-hGH must be severely misfolded. Expression of both proteins in Escherichia coli mirrored the findings from the GH(4)C(1) cell clones in terms of solubility and immunological reactivity. The results of the present study indicate that, in IGHD II, somatotrophs continuously have to remove misfolded del(32-71)-hGH via the proteasomal degradation pathway, suggesting a mechanism that may result in chronic cellular stress.

Catch-up growth in autosomal dominant isolated growth hormone deficiency (IGHD type II).

OBJECTIVE: Data on the GH-induced catch-up growth of severely GH-deficient children affected by monogenetic defects are missing. PATIENTS: Catch-up growth of 21 prepubertal children (6 females, 15 males) affected with IGHD type II was analyzed in a retrospective chart review. At start of therapy, mean age was 6.2 years (range, 1.6-15.0), mean height SDS was -4.7 (-7.6 to -2.2), mean IGF-I SDS was -6.2 (-10.1 to -2.2). GH was substituted using a mean dose of 30.5microg/kg*d. RESULTS: Catch-up growth was characterized by a mean height gain of +0.92, +0.82, and +0.61 SDS after 1, 2, and 3 years of GH therapy, respectively. Mean height velocities were 10.7, 9.2 and 7.7cm/year during the first three years. Mean duration of complete catch-up growth was 6 years (3-9). Mean height SDS reached was -0.97 (-2.3 to +1.1), which was within the range of the estimated target height of -0.60 SDS (-1.20 to -0.15). The younger and shorter the children were at start of therapy the better they grew during the first year independent of the dose. Mean bone age was delayed at start by 2.1 years and progressed by 2.5 years during the first two years of therapy. Incomplete catch-up growth was caused by late initiation or irregular administration of GH in four cases. CONCLUSIONS: Our data suggest that GH-treated children with severe IGHD show a sustained catch-up growth over 6 years (mean) and reach their target height range. This response to GH is considered to be characteristic for young children with severe growth retardation due to IGHD.

Pegvisomant treatment in gigantism caused by a growth hormone-secreting giant pituitary adenoma.

BACKGROUND: Gigantism is rare with the majority of cases caused by a growth hormone (GH)-secreting pituitary adenoma. Treatment options for GH-secreting pituitary adenomas have been widened with the availability of long-acting dopamine agonists, depot preparations of somatostatin analogues, and recently the GH receptor antagonist pegvisomant. CASE REPORT: A 23-year-old male patient presented with continuous increase in height during the past 6 years due to a GH-secreting giant pituitary adenoma. Because of major intracranial extension and failure of octreotide treatment to shrink the tumour, the tumour was partially resected by a trans-frontal surgical approach. At immunohistochemistry, the tumour showed a marked expression of GH and a sparsely focal expression of prolactin. Somatostatin receptors (sst) 1-5 were not detected. Tumour tissue weakly expressed dopamine receptor type 2. The Gs alpha subunit was intact. Conversion from somatostatin analogue to pegvisomant normalized insulin-like-growth-factor-I (IGF-I) levels and markedly improved glucose tolerance. CONCLUSION: Pegvisomant is a potent treatment option in patients with pituitary gigantism. In patients who do not respond to somatostatin analogues, knowledge of the SST receptor status may shorten the time to initiation of pegvisomant treatment.

Epigenetic mutations in 11p15 in Silver-Russell syndrome are restricted to the telomeric imprinting domain.

INTRODUCTION: Silver-Russell syndrome (SRS; also know as Russell-Silver syndrome) is a heterogeneous syndrome which is characterised by severe intrauterine and postnatal growth retardation and typical dysmorphic features. Recently, the first SRS patients with (epi)genetic mutations in 11p15 affecting the telomeric imprinting domain have been identified. Interestingly, opposite mutations are associated with Beckwith-Wiedemann syndrome (BWS). However, the general significance of epigenetic mutations in 11p15 for the aetiology of SRS remained unclear. METHODS: We screened a cohort of 51 SRS patients for epimutations in ICR1 and KCNQ1OT1 by methylation sensitive Southern blot analyses. RESULTS: ICR1 demethylation could be observed in 16 of the 51 SRS patients, corresponding to a frequency of approximately 31%. Changes in methylation at the KCNQ1OT1 locus were not detected. DISCUSSION: Combining these data with those on maternal duplications in 11p15, nearly 35% of SRS cases are associated with detectable (epi)genetic disturbances in 11p15. We now have to also consider a general involvement of 11p15 alterations in growth retarded patients with only minor or without further dysmorphic features. SRS and BWS may now be regarded as two diseases caused by opposite (epi)genetic disturbances of the same chromosomal region displaying opposite clinical pictures.

The course of neonatal cholestasis in congenital combined pituitary hormone deficiency.

BACKGROUND: Neonatal cholestatic hepatitis is frequently associated with congenital combined pituitary hormone deficiency (CCPHD). Data on the course of this hepatopathy are scarce. AIM: We retrospectively analyzed the data of all CCPHD infants with cholestasis who presented at the University Children's Hospital, Tuebingen. RESULTS: All infants (n = 9; 2 females) presented with early and prolonged jaundice, failure to thrive and recurrent hypoglycemia. All males had micropenis and 3/7 cryptorchidism. Median age at diagnosis was 1.4 months. Cholestasis began at a median age of 13 days (range 5-31) and resolved at 88 days (54-174). Maximum direct bilirubin level was 6.9 mg/dl (2.4-11.6). Peaks of ALP (median 721 U/l), ALT (148 U/l) and AST (195 U/l) occurred 2-4 weeks later, while GGT levels were elevated in only two infants (167 U/l). Functional liver parameters were always normal. Liver biopsies (n = 4) showed canalicular cholestasis and mild portal eosinophilic infiltration. TEBIDA radioisotope excretion into the intestinal tract was blocked. Substitution with Lthyroxine, hydrocortisone and growth hormone seemed to accelerate the cure from cholestasis. Liver function at follow-up (median 4 yr) stayed normal. CONCLUSION: Cholestasis in CCPHD follows the course described here, frequently with normal GGT levels.

The d3-growth hormone (GH) receptor polymorphism is associated with increased responsiveness to GH in Turner syndrome and short small-for-gestational-age children.

CONTEXT: A protein polymorphism of the GH receptor (GHR) based on the genomic deletion of exon 3 (d3-GHR) has recently been linked to the magnitude of growth response to high-dose recombinant human GH (rhGH) therapy of short children without GH deficiency. OBJECTIVE: This study tests the novel association in two distinct groups of rhGH-treated patients, short girls with Turner syndrome and short children born small for gestational age (SGA). DESIGN: The retrospective study included all children who were treated with rhGH during the last 18 yr at our hospital. PATIENTS: Patients with Turner syndrome were defined by the specific karyotype (n = 53), short children born SGA were determined by birth length and/or weight less than -2.0 sd score and a height at start of rhGH therapy less than -2.0 sd score (n = 60). Exclusion criteria were puberty, an age less than 3.5 or more than 14 yr, and GH deficiency. MATERIALS AND METHODS: Growth prediction for the first year of therapy was calculated on the basis of rhGH dose, age, weight, height, and gender-adjusted midparental height according to the prediction models by Ranke et al. The GHR-exon 3 locus was genotyped using a PCR multiplex assay. GH, IGF-I, and IGF binding protein 3 (IGFBP-3) were measured by RIA. INTERVENTION: For growth promotion, a mean rhGH dose of 38 mug/kg.d (sd, +/-8) was administered in Turner syndrome patients and 56 mug/kg.d (sd, +/-11) in short children born SGA. RESULTS: No significant difference in height, spontaneous height velocity, IGF-I, and IGFBP-3 levels was found at the start of rhGH therapy in the three GHR genotype groups studied. At the first year of treatment, girls with Turner syndrome carrying one or two d3-GHR alleles showed a significantly higher increment in height velocity (P = 0.019) and exceeded their growth prediction significantly (P = 0.007), whereas their increments of IGF-I and IGFBP-3, weight, and height were not significantly different. Carriers of d3-GHR in the group of short children born SGA grew significantly faster than predicted (P = 0.023). However, in comparison to the carriers of full-length GHR, gain of height velocity was not significantly higher (P = 0.067). The mean gain of height associated with d3-GHR accounted for approximately 0.75 cm in SGA and 1.5 cm in Turner syndrome during the first year of rhGH therapy. CONCLUSIONS: Our data support the theory that there is increased responsiveness to high-dose rhGH in association with the d3-GHR genotype. The magnitude of this effect may depend on the primary origin of the short stature.

IGF-II serum levels are normal in children with Silver-Russell syndrome who frequently carry epimutations at the IGF2 locus.

CONTEXT: Epigenetic mutations of 11p15 encompassing IGF2 are present in short children with Silver-Russell syndrome (SRS) with high frequency (31-50%). It has been speculated that these mutations characterized by demethylation of ICR1 cause diminished IGF2 expression. OBJECTIVE: We aimed to determine the prevalence of pathologically low IGF-II serum levels in children with SRS. SUBJECTS: SRS was defined by birth weight or length below the 3rd percentile, lack of postnatal catch-up growth, and the presence of two of the following characteristics: typical face, relative macrocephaly, and skeletal asymmetry. Serum samples of 30 patients were available. Mean age was 5.4 +/- 2.1 yr. METHODS: The serum levels of IGF-I, IGF-II, IGF binding protein (IGFBP)-2, and IGFBP-3 were measured by RIA and compared with age-related reference values and with serum concentrations measured in age- and gender-matched controls born small for gestational age (SGA), but lacking major dysmorphic features. Analysis of genomic DNA was possible in a subgroup of children with SRS: the methylation status of the ICR1 locus on 11p15 and the parental origin of chromosome 7 were analyzed in 9 and 23 children, respectively. RESULTS: Demethylation of ICR1 was found in 44% and uniparental disomy in 17% of the tested children with SRS. The median IGF-II serum level in SRS was 441 microg/liter (range, 238-875). This was significantly higher than in the SGA controls: 387 microg/liter (range, 265-596) (P < 0.03), but below the median value of the age-related reference, which was 532 microg/liter. The four children with SRS and ICR1 demethylation had high-normal and normal IGF-II serum levels that were higher than the levels of their SGA controls. IGF-I, IGFBP-2, and IGFBP-3 serum levels were not different between the SRS children and their SGA controls. CONCLUSIONS: Our data render it unlikely that demethylation of ICR1 on 11p15 does cause diminished IGF-II serum levels in children with SRS. This observation does not exclude deficient IGF-II action before birth.

(Epi)mutations in 11p15 significantly contribute to Silver-Russell syndrome: but are they generally involved in growth retardation?

(Epi)mutations affecting chromosome 11p15 are meanwhile well known to be associated with growth disturbances. The finding of 11p15 mutations in the overgrowth disease Beckwith-Wiedemann syndrome (BWS) led to the identification of imprinted growth-promoting genes which are expressed paternally and of imprinted growth-suppressing genes in the same region that are expressed maternally. Recently, the opposite (epi)mutations of the same region have been reported to result in growth retardation: maternal duplications of 11p15 as well as hypomethylation of the telomeric 11p15 imprinting domain (ICR1) could be identified in patients with Silver-Russell syndrome (SRS), a disease which is in particular characterised by intrauterine and postnatal growth retardation. To elucidate whether 11p15 mutations are generally involved in growth retardation we screened 125 growth retarded patients, among them 47 patients with SRS-like features and 20 with isolated growth retardation. Additional 58 patients were presented with clinical signs not consistent with SRS. We excluded 11p15 duplications in all 123 families by short tandem repeat typing. ICR1 hypomethylation was investigated by Southern-blot analyses and was therefore restricted to samples with a large amount of DNA. We identified ICR1 hypomethylation in 20% of the patients with SRS-like features (n=25). No further cases were detectable in the other two subgroups with isolated growth retardation (n=20) and with clinical signs not consistent with SRS (n=23), respectively. Our data show that 11p15 duplications are rare in growth retardation in general and that they seem to be restricted to patients with SRS features. Furthermore, testing for the ICR1 hypomethylation should also be focused on patients with SRS features. While the ICR1 epimutation is detectable with a significant frequency only in SRS patients, its role for isolated growth retardation remains to be elucidated.

Molecular features and clinical phenotypes in androgen insensitivity syndrome in the absence and presence of androgen receptor gene mutations.

Androgen insensitivity syndrome (AIS) is characterized by deficient or absent virilization in 46,XY individuals despite normal or even elevated androgen levels. AIS is usually caused by mutations in the androgen receptor (AR) gene. We aimed at contrasting clinical, biochemical, and molecular genetic characteristics of three patients (P1-P3) with clinically evident partial (P1) and complete (P2, P3) AIS with and without AR gene mutations. AR expression was studied in cultured genital skin fibroblasts (GSF) by Western immunoblotting, ligand binding analyses, Northern blotting, semiquantitative reverse transcription-polymerase chain reaction (RT-PCR), and RT-PCR spanning exons 1-8. AR gene DNA sequence was analyzed by single-strand conformation analysis (SSCA), and DNA sequencing. GSF revealed reduced (P1) or absent (P2, P3) ligand binding. Northern blots showed either slightly reduced hybridization of the 10.5-kb AR transcript (P3) or no hybridization (P1, P2), as confirmed by semiquantitative RT-PCR. RT-PCR spanning exons 1-8 detected single AR mRNA bands in P1-P3 excluding splicing errors. Western analyses showed either low (P1) or no (P2, P3) AR protein. While SSCA initially did not reveal any molecular abnormality, sequencing showed a novel CAG (Gln) to TAG (stop) mutation at codon 59 (P3) and a previously described 2-bp deletion at codon 472, leading to a frameshift and premature stop in codon 499 (P2). Intriguingly, P1 showed an unaltered DNA sequence of the coding region of the AR gene including all intron-exon boundaries. In conclusion, patients with clinically evident complete AIS are likely to harbor an AR gene mutation, demanding that the two polymorphic regions must always be included in molecular analyses of the AR gene. Moreover, our data support the concept that in a subset of AIS patients, particularly those with partial AIS, molecular alterations outside the coding region of the AR gene must be presumed.

Acromegaly and end-stage renal disease: a diagnostic challenge.

Chronic renal failure is associated with an impairment of the GH/IGF-I axis. We report the diagnostic challenges in a 72-yr-old female suffering from end-stage renal disease and presenting with clinical findings suggestive of acromegaly. GH was not suppressed during an oral glucose tolerance test, but rose paradoxically. However, serum IGF-I levels were within the normal range. IGF-binding proteins (IGFBP)-2 and -3 were markedly elevated and GH-binding protein (GHBP) was diminished. Clinical findings suspicious of acromegaly could be ascribed to pre-existing characteristics and consequences of end-stage renal disease. This suggested that the disturbances of the GH/IGF-I axis in our patient were due to chronic renal disease, rather than acromegaly. In the work-up for acromegaly, clinicians should be alerted to GH resistance in chronic renal failure.

Is maternal duplication of 11p15 associated with Silver-Russell syndrome?

BACKGROUND: Silver-Russell syndrome (SRS) is a heterogeneous malformation syndrome characterised by intrauterine and postnatal growth retardation (IUGR, PGR) and dysmorphisms. The basic causes are unknown, however in approximately 10% of patients a maternal uniparental disomy (UPD) of chromosome 7 or chromosomal aberrations can be detected. Four growth retarded children, two with SRS-like features, associated with maternal duplications of 11p15 have been described. Considering the involvement of this genomic region in Beckwith-Wiedemann overgrowth syndrome (BWS), we postulated that some cases of SRS--with an opposite phenotype to BWS--might also be caused by genomic disturbances in 11p15. METHODS: A total of 46 SRS patients were screened for genomic rearrangements in 11p15 by STR typing and FISH analysis. RESULTS: Two SRS patients with duplications of maternal 11p material in our study population (n = 46) were detected. In patient SR46, the duplicated region covered at least 9 Mb; FISH analysis revealed a translocation of 11p15 onto 10q. In patient SR90, additional 11p15 material (approximately 5 Mb) was translocated to the short arm of chromosome 15. CONCLUSIONS: We suggest that diagnostic testing for duplication in 11p15 should be offered to patients with severe IUGR and PGR with clinical signs reminiscent of SRS. SRS is a genetically heterogeneous condition and patients with a maternal duplication of 11p15.5 may form an important subgroup.

Insulin-like growth factor binding protein-2 binding to extracellular matrix plays a critical role in neuroblastoma cell proliferation, migration, and invasion.

IGF binding proteins (IGFBPs) modulate IGF cellular bioavailability and may directly regulate tumor growth and invasion. We have previously shown that IGFBP-2 binds and localizes IGF-I to the pericellular matrix and have provided some evidence suggesting that the heparin binding domain (HBD) or the arginine-glycine-aspartic acid (RGD) integrin binding motif may be involved in these interactions. However, the precise mechanisms involved remain to be elucidated. We therefore mutated the HBD or RGD sequence of IGFBP-2 and investigated consequent effects on extracellular matrix (ECM) binding, IGF-induced proliferation, and migration of neuroblastoma cells. IGFBP-2 and its arginine-glycine-glutamic acid (RGE) mutant similarly bound ECM components, whereas binding of mutant HBD-IGFBP-2 to each of the ECM substrates was markedly reduced by 70-80% (P < 0.05). IGF-I (100 ng/ml) increased incorporation of 3H-thymidine in neuroblastoma SK-N-SHEP cells by approximately 30%, an effect blunted by exogenously added native or either mutant IGFBP-2. Overexpression of IGFBP-2 and its RGE mutant potently promoted SHEP cell proliferation (5-fold), whereas SHEP cell proliferation was negligible when HBD-IGFBP-2 was overexpressed. Addition or overexpression of IGFBP-2 and its RGE mutant potently (P < 0.05) enhanced SHEP cell migration/invasion through the ECM. However, overexpression of the HBD-IGFBP-2 mutant potently inhibited (50-60%) SHEP cell invasion through ECM. Thus, IGFBP-2, which binds to the ECM, enhances proliferation and metastatic behavior of neuroblastoma cells, functions that directly or indirectly use the HBD but not the integrin binding sequence. Our novel findings thus point to a key role for the HBD of IGFBP-2 in the control and regulation of neuroblastoma growth and invasion.