Amygdala and hippocampal volumes in Turner syndrome: a high-resolution MRI study of X-monosomy.

Turner syndrome (TS) results from partial or complete X-monosomy and is characterized by deficits in visuospatial functioning as well as social cognition and memory. Neuroimaging studies have demonstrated volumetric differences in the parietal region of females with TS compared to controls. The present study examined amygdala and hippocampus morphology in an attempt to further understand the neural correlates of psychosocial and memory functioning in TS. Thirty females with TS age 7.6-33.3 years (mean = 14.7 +/- 6.4) and 29 age-matched controls (mean age = 14.8 +/- 5.9; range = 6.4-32.7) were scanned using high resolution MRI. Volumetric analyses of the MRI scans included whole brain segmentation and manual delineation of the amygdala and hippocampus. Compared to controls, participants with TS demonstrated significantly larger left amygdala gray matter volumes, irrespective of total cerebral tissue and age. Participants with TS also showed disproportionately reduced right hippocampal volumes, involving both gray and white matter. Amygdala and hippocampal volumes appear to be impacted by X-monosomy. Aberrant morphology in these regions may be related to the social cognition and memory deficits often experienced by individuals with TS. Further investigations of changes in medial temporal morphology associated with TS are warranted.

Association of single nucleotide polymorphisms in the thrombopoietin-receptor gene, but not the thrombopoietin gene, with differences in platelet count.

Little is known about the mechanisms explaining the wide variation in platelet counts (PLT) and other hematologic parameters in humans. We previously showed that the sex-based difference in hematocrit was associated with nucleotide variation in the erythropoietin receptor gene (EPOR). We sought to identify new polymorphisms of the human thrombopoietin (TPO) and thrombopoietin receptor (TPOR) genes to determine any associations with blood PLT counts. We screened TPO and TPOR for polymorphisms using single-strand conformation polymorphism (SSCP) and DNA sequencing. Association of polymorphisms was studied in 304 normal subjects with low or high PLT counts. Distribution of allelic frequency was analyzed by the Chi-square statistic. Single nucleotide polymorphisms (SNPs) with two alleles were found in TPO and TPOR. The TPO SNP was a G to A transition at nucleotide 5753, and the TPOR SNP was a C to A transversion at position 550 in the 5'-promoter area. The allelic frequencies were 0.54 for G and 0.46 for A of TPO, and 0.62 for C and 0.38 for A of TPOR in a Caucasian population. The frequency of the TPOR allele "C" was significantly higher in subjects with high PLT count (>258 k/mm3) versus low PLT count (<224 k/mm3) and in males with high PLT count (>258 k/mm3) versus males with low PLT count (<212 k/mm3). In contrast, the frequency of the TPO alleles was not related to blood PLT counts. An association of TPO and TPOR allele distribution to red and white blood cell parameters was seen. These new SNPs found for the human TPO and TPOR genes help explain variations in blood PLT counts and may be useful in patient studies related to the roles of TPO and/or TPOR in disease.

Effects of X-monosomy and X-linked imprinting on superior temporal gyrus morphology in Turner syndrome.

BACKGROUND: Turner syndrome (TS) results from complete or partial monosomy X. The cognitive phenotype of TS involves preservation of verbal skills with visuospatial functioning deficits. The superior temporal gyrus (STG), which is involved in language capacities, has not been investigated in TS. METHODS: The STG was measured in 30 female subjects (mean age = 14.73 +/- 6.41; range = 7.56-33.30) with TS and 30 age-matched control subjects (mean age = 14.63 +/- 5.90; range = 6.35-32.65) using volumetric magnetic resonance imaging analyses. RESULTS: -Right STG, including both gray and white matter volumes, was significantly larger in TS compared with control subjects. Overall left STG volume was not significantly different between groups, although left white matter volume was increased in the TS subjects. The TS subgroup with a maternally derived X chromosome (Xm) demonstrated more aberrant STG volumes compared with subjects with a paternally (Xp) derived X and control subjects. The difference in STG volumes between Xm and control subjects involved both white and gray matter. The Xm subjects differed from Xp subjects only in terms of gray matter. CONCLUSIONS: These findings suggest that X-monosomy and X-linked imprinting negatively affect STG development, possibly by disrupting neural pruning mechanisms.

Sequence-based polymorphisms in members of the apoptosis Bcl-2 gene family and their association with hematocrit level.

OBJECTIVE: The Bcl-2 family mediates erythropoietin-dependent survival of erythroid progenitor cells and regulates erythropoiesis. We assessed for any association between Bcl-2 family nucleotide variation and hematocrit (HCT) in healthy blood donors. METHODS: We screened Bcl-w, Bcl-x, and Bax (members of Bcl-2 family) using polymerase chain reaction and singlestrand conformation polymorphism analysis. One polymorphism each was found in Bax and Bcl-w. Using these markers, we genotyped the 100 males and 100 females with the highest or lowest HCT in a population of 819 healthy people in Iowa. A comparison of the allelic frequencies and distribution of each polymorphism was made in males versus females, individuals with low versus high HCT, and other subgroups. RESULTS: One sequence-based polymorphism was found in Bax and Bcl-w having three and two alleles, respectively. No polymorphism was found for Bcl-x. The Bax polymorphism is caused by variation in nucleotide A repeat number (19, 25, 27) at position 360 in 5'-region of Bax. The Bcl-w polymorphism is a G to A transition at 123. The allelic frequencies of Bax polymorphism were significantly different between males and females (P = 0.004). There were no significant associations for Bcl-w polymorphism by gender or HCT level (P > 0.05). CONCLUSIONS: Polymorphism in the 5'-region of Bax was associated with gender-based HCT differences. This is theoretically due to gender-based hormonal effects on gene transcription mediated by the different polymorphisms.

Brain development in Turner syndrome: a magnetic resonance imaging study.

Turner syndrome (TS) results from the absence of an X chromosome in females. This genetic condition is associated with specific cognitive deficits and variations in brain volumes. The goal of this study was to use high-resolution magnetic resonance imaging (MRI) to determine morphological variations in TS and to investigate the effects of parental origin of the X chromosome on brain development in TS. MRI brain scans were acquired from 26 girls with TS and 26 age- and gender-matched controls. Seventeen of the TS subjects had a maternally inherited X chromosome (Xm), and nine of the subjects had a paternally inherited X chromosome (Xp). Rater-blind morphometric analyses were conducted to compare tissue volume differences between girls with TS and controls. Three-way analyses were used to compare subgroups and controls. Subjects with TS demonstrated bilateral decreases in parietal gray and occipital white matter accompanied by increased cerebellar gray matter. Subjects with Xm showed decreased occipital white matter and increased cerebellar gray matter compared to controls. No differences were found in comparisons between subjects with Xp and controls or between subjects with Xm and Xp. Results suggest that X monosomy affects posterior cerebral and cerebellar anatomy in TS. While differences between comparisons of Xm and Xp to controls might suggest an imprinting effect, no significant differences were found when the two subgroups were directly compared to each other. Further investigation into the possible role of genomic imprinting is therefore warranted.

Conjoined twins in a monozygotic triplet pregnancy: prenatal diagnosis and X-inactivation.

BACKGROUND: The etiology of monozygotic twinning is not known. Some investigators have implicated abnormal X-inactivation, which could also be related to the increased female:male ratio in higher order multiple gestations in general, and in monozygotic and conjoined twins (CTS) in particular. CTS are rare, and even more unusual when part of a triplet pregnancy. METHODS: DNA polymorphism analysis using 13 markers in the buccal cells of the triplets and the lymphocytes of the parents were used to evaluate zygosity. We investigated the X-inactivation pattern of the triplets by analyzing methylation at the androgen receptor gene. RESULTS: We found a female triplet gestation consisting of CTS and a normal singleton. The thoracopagus CTS were joined from the clavicles to the umbilicus. Congenital heart disease was suspected antenatally, but the precise delineation of the heart defects required extensive postnatal evaluation. There was a single placental mass with a thin dividing membrane. Cesarean section was carried out at 32 weeks after the onset of labor. Histologically, the placenta was diamniotic monochorionic. The normal singleton did well after delivery; the CTS died at 35 days from cardiopulmonary collapse. The babies were monozygotic (>99.99% probability). Each baby in this triplet set exhibited a random and symmetric X-inactivation pattern. The degree of X-inactivation skewing fell in the range of 50-65%. CONCLUSION: Genetic or environmental factors other than abnormal X-inactivation must be involved in causing monozygous multiple gestation or CTS. Despite prenatal diagnosis, shared myocardium or cardiac anomalies in CTS often determine the prognosis.