Clinical aspects of the MASA syndrome in a large family, including expressing females

We have evaluated, both clinically and by linkage analysis, a large family with 22 known affected males with the MASA syndrome (McKusick 303300). Clinical findings varied widely amongst the affected family members, with some appearing initially to have the MASA syndrome and others to have X-linked hydrocephalus (HSAS) (McKusick 307000). Important findings included the presence of adducted thumbs in two obligate carriers, learning problems or mild mental retardation in three females, two of whom were obligate carriers, and hydrocephalus with neonatal death in three females born to obligate carriers. X-inactivation analysis in lymphocytes from the two women with adducted thumbs revealed preferential inactivation of one X chromosome, suggesting that nonrandom X-inactivation may be responsible for clinical expression in females. The presence of HSAS in some individuals of this family and the MASA syndrome in others further supports the hypothesis that these two conditions are the result of a mutation in the same gene.     

Nonspecific X-linked mental retardation II: The frequency in British Columbia

Data on nonspecific mental retardation in two or more sibs ascertained from the British Columbia Health Surveillance Registry are utilized to calculate the frequency of X-linked mental retardation in the population of British Columbia (B.C.). In the 1950–1969 birth cohort there are 107 sibships with only males affected and 35 sibships with only females affected giving an excess of 72 male-affected sibships. Family histories of the sibships with two or more mentally retarded males provide evidence that the mothers of the excess of male-affected sibships are carriers of X-linked mental retardation. Thus, a frequency of 1.83 per 1,000 males for X-linked mental retardation and a carrier frequency of 2.44 per 1,000 females are calculated. This frequency can account for all of the excess of males in the population who are affected with nonspecific mental retardation. We estimate that seven to 19 X-linked genes exist to cause nonspecific mental retardation, and that the frequency of the marker-X chromosome, associated with X-linked mental retardation in some families, may be 0.92 per 1,000 male births.     

Paracentric inversion X(q21.2q24) associated with mental retardation in males and normal ovarian function in females

We describe a familial paracentric inversion (X)(q21.2 q24) in a family with 2 male and 2 female carriers. The males were mentally retarded and the females were normal with normal ovarian function. It is suggested that a recessive mental retardation (MR) gene was disrupted by one of the inversion breakpoints, although an X-linked MR gene which by chance is linked to the inv(X) could not be ruled out. In the female carriers of the paracentric inversion a random X-inactivation was demonstrated. The normal ovarian function is an exception to the concept of “critical region” at Xq13-q26. © 1995 Wiley-Liss, Inc.     

Cataracts, ataxia, short stature, and mental retardation in a Chinese family mapped to Xpter-q13.1

Six males in a Chinese family affected by congenital cataracts, cerebellar ataxia, short stature, and mental retardation, which were tentatively named CASM syndrome. Eight female carriers in the family had cataracts alone. Linkage analysis demonstrated that the disease is transmitted through X-linked inheritance, either by setting the syndrome in males as an X-linked recessive trait, or by setting cataracts in the family as an X-linked dominant trait. The gene responsible for the syndrome is mapped to Xpter-Xq13.1, with the highest lod score of 3.91 for DXS1226, DXS991, and DXS1213 at θ = 0. Haplotype analysis identified that the allele harboring the disease gene co-segregated with all female carriers as well as affected males in the family. Clinically and genetically, the disease in this family is different from any known disease. Major features of CASM syndrome that distinguish it from other diseases are X-linked inheritance and cataracts in carrier females.Xiangming Guo, Huangxuan Shen, Xueshan Xiao, Qilin Dai, Fielding Hejtmancik, and Qingjiong Zhang contributed equally to this work     

X-linked mental retardation: A study of 7 families

Seven families with X-linked mental retardation (MR) have been studied clinically and cytogenetically. All affected males in six of the families were found to have a fragile site on Xq in a number of their peripheral lymphocytes. The fragile site was not seen in any of the affected males in the seventh family. The affected males in the six families with the fragile X had a syndrome characterized by a variable degree of MR, macro-orchidism, a characteristic repetitive, jocular speech, normal body proportions, and large jaws and ears. The fragile X chromosome could only be detected in a proportion of female carriers and its frequency in females was found to be correlated with their mental status and to be inversely correlated with their age.     

Non-skewed X-inactivation may cause mental retardation in a female carrier of X-linked alpha-thalassemia/mental retardation syndrome (ATR-X): X-inactivation study of nine female carriers of ATR-X

X-linked alpha-thalassemia/mental retardation syndrome (ATR-X) is a syndromic form of X-linked mental retardation. We investigated the X-inactivation status of nine female ATR-X carriers by methylation-specific PCR of the HUMARA gene. Six carriers demonstrated a skewed X-inactivation pattern (>90:10) and one showed a non-skewed pattern (72:28), while two were uninformative because of homozygosity for the CAG repeat polymorphic alleles in the HUMARA. Only the carrier mother who showed non-skewed X-inactivation had moderate mental retardation. These findings suggest that mutations in ATRX may cause mental retardation in females, if the X chromosome carrying mutated ATRX is not properly inactivated.     

PAK3 related mental disability: further characterization of the phenotype

We report clinical, neuropsychological and molecular findings in affected males and carrier females in the fourth reported family with mental retardation caused by mutation in the PAK3 gene (Xq22.3-q23), W446S. In contrast to previous reports, carrier females manifested learning problems and mild mental disability. Skewed X-inactivation was observed here for the first time in carriers of PAK3 mutation. Neuropsychological tests in affected males and carrier females suggested a common neuropsychological profile of impaired spatial cognitive abilities and defects in attentional and executive functions. The five affected males examined herein had a proportionally small head size or microcephaly, large ears, oral motor hypotonia with drooling and inarticulate speech and short attention span, anxiety, restlessness, and aggression. Brain imaging showed signs of chronic non-progressive hydrocephalus in one patient who manifested psychosis and fluctuant gait deterioration, while two other patients showed no abnormalities. EEG recordings were available from four affected males and one carrier female, and all showed similar posterior slow wave activity without epileptic discharges. Only one affected male in the family suffered from epilepsy. When comparing the affected males in this family and the three previously reported families with mental retardation due to a PAK3 mutation, similarities in their characteristics were small head size or microcephaly, large ears, speech defects, behavioral abnormalities, and psychiatric disease.     

X-linked mental retardation with thin habitus,osteoporosis, and kyphoscoliosis: Linkage to Xp21.3-p22.12

We reevaluated a family previously described as having nonspecific X-linked mental retardation (XLMR) by Snyder and Robinson [1969: Clin Pediatr 8:669–674] (MIM 309583). Clinical and DNA studies were conducted on 17 relatives, including 6 males with mild-to-moderate mental retardation, 3 carrier females, and 8 normal males. In contrast to the normal appearance and minimal clinical findings reported 22 years ago, affected males were found to have a characteristic set of clinical findings. These developed gradually over the first 2 decades, and included thin body build with diminished muscle mass, osteoporosis and kyphoscoliosis, slight facial asymmetry with a prominent lower lip, nasal speech, high narrow or cleft palate, and long great toes. Carrier females were clinically normal. Multipoint linkage analysis indicated linkage to markers distal to the 3′ end of DMD (DXS41 and DXS989), with a maximal lod score of 4.7. On the basis of these findings, this entity is redefined as XLMR syndrome. © 1996 Wiley-Liss, Inc.     

FG syndrome: Report of three new families with linkage to xq12-q22.1

FG syndrome is a rare X-linked recessive form of mental retardation, first described by Opitz and Kaveggia in 1974 in five related males with mental retardation, disproportionately large heads, imperforate anus, and congenital hypotonia. Partial agenesis of the corpus callosum was noted in at least one of the initial cases and has been seen in a number of subsequently-reported cases. The associated congenital hypotonia with joint hyperlaxity tends to progress to contractures with spasticity and unsteady gait in later life. The presence of subtle facial abnormalities and the characteristic behavior in midchildhood facilitate diagnosis at this age, particularly when there are other affected male relatives in the maternal family. Recently, Briault et al. [1997[ mapped a gene for FG syndrome to the Xq12-q21.31 region. We describe three additional families (six additional patients) with FG syndrome on whom we have conducted linkage analysis. Our findings support the localization of a gene for the FG syndrome in Xq12-q21. In addition, we have noted skewed X-inactivation in carrier females, as well as new associated findings in affected males of sagittal craniosynostosis and split hand malformation. Am. J. Med. Genet. 80:145–156, 1998. © 1998 Wiley-Liss, Inc.     

Linkage analysis in a large family with nonspecific X-linked mental retardation.

We report on a large 5-generation family with "nonspecific" X-linked mental retardation. Nine living affected males have an IQ between 50 and 70 but have normal stature, facial appearance, and testicular volumes and no other abnormalities. Two obligate carrier females had borderline intellectual abilities and visual-psychomotor difficulties similar to those seen in affected males. Results of chromosome studies, including fragile X, were normal in males and females. Linkage analysis was undertaken, with 19 X-specific chromosomal restriction fragment length polymorphisms (RFLPs), giving a maximal LOD score of 1.60 at a 0.10 recombination fraction for F9, suggesting a localization to distal Xq for the mutant gene in this family.     

X-linked α-thalassemia/mental retardation (ATR-X) syndrome: A new kindred with severe genital anomalies and mild hematologic expression

We report a new kindred containing 4 patients with X-linked α-thalassemia/mental retardation syndrome ((ATR-X). Like previously reported ATR-X patients, these children are all genetic males with severe developmental delay and characteristic facial appearance. The genital anomalies are more severe than in most previous cases and have led to a female sex of rearing for 3 of the 4 patients. The hematologic expression is extremely mild and was not demonstrable on routine hematologic studies including hemoglobin electrophoresis, but the three living patients all had hemoglobin H inclusions on brilliant cresyl blue stained peripheral smears. The combination of skewed X-inactivation and haplotype analysis at Xq12-q21.3 confirmed carrier status in the 3 obligate carriers in the kindred and led to identification of an additional carrier. Two other women in the kindred appear to be noncarriers on the basis of normal X-inactivation and/or inheritance of a different Xq12-21.3 haplotype. More widespread use of brilliant cresyl blue staining for HbH inclusions in individuals with the facial phenotype of ATR-X and/or ambiguous genitalia may lead to the identification of more affected patients and improved understanding of the clinical spectrum of ATR-X. © 1995 Wiley-Liss, Inc.     

Significance of phenotypic and chromosomal abnormalities in X-linked mental retardation (Martin-Bell or Renpenning syndrome)

With the exception of macro-orchidism, three families with X-linked mental retardation showed diagnostic concordance of clinical features among the affected males. Since macro-orchidism was a variable feature among the otherwise identically affected males in one family, we question the existence of a separate entity of X-linked mental retardation characterized only by testicular enlargement. The X chromosome marker of Lubs was expressed, under the culture conditions of Sutherland, in lymphocytes of the affected males of two families, one with and the other without megalotestes. Two affected members of the third family, with megalotestes, did not show the marker. Telomeric structural changes similar to the mar(X) (qter) formation were found on certain autosomes, notably, chromosome 6 in some of the affected males, potential and obligate carrier females, and in both related and unrelated normal males. These autosomal markers appear to represent a nonspecific response to either in vivo or in vitro folate deficiency. Caution against premature introduction of this test for prenatal diagnosis, in the face of current ignorance regarding diagnostic specificity, is urged.     

Nonspecific X-linked mental retardation I: A review with information from 24 new families

Clinical manifestations and other aspects of nonspecific X-linked mental retardation are reviewed using data from the literature and information on affected males in 24 new families ascertained in British Columbia. A great degree of variability was apparent in the mental abilities of affected males. Speech defects, other CNS disorders and minor physical changes such as “big” ears or a highly arched palate were not present in many cases. Evidence for the existence of a clinical entity of mental retardation associated with the fragile site at Xq27 or 28 and macro-orchidism is discussed. Genetic phenomena of reduced penetrance in males and of partial expression in females with respect to X-linked recessive genes are examined. Consideration is given to the question of whether this type of mental retardation is due to X-linked recessive or autosomal dominant sex-limited genes. Most ascertained cases of X-linked mental retardation are from families of northern European extraction. Recommendations are made regarding the diagnosis and counseling of X-linked mental retardation cases.     

X linked severe mental retardation, craniofacial dysmorphology, epilepsy, ophthalmoplegia, and cerebellar atrophy in a large South African kindred is localised to Xq24-q27

To date over 150 X linked mental retardation (XLMR) conditions have been documented. We describe a five generation South African family with XLMR, comprising 16 affected males and 10 carrier females. The clinical features common to the 16 males included profound mental retardation (100%), mutism despite apparently normal hearing (100%), grand mal epilepsy (87.5%), and limited life expectancy (68.8%). Of the four affected males examined, all had mild craniofacial dysmorphology and three were noted to have bilateral ophthalmoplegia and truncal ataxia. Three of 10 obligate female carriers had mild mental retardation. Cerebellar and brain stem atrophy was shown by cranial imaging and postmortem examination. Linkage analysis shows the gene to be located between markers DXS424 (Xq24) and DXS548 (Xq27.3), with a maximum two point lod score of 3.10.     

Mental retardation locus in Xp21 chromosome microdeletion

Xp21 microdeletion syndrome is associated with variable size Xp21 deletions that usually include the glycerol kinase locus. The clinical phenotypes we studied in this chromosome region include: Xpter – Åland Island eye disease (AIED) -adrenal hypoplasia (AH) -glycerol kinase (GKD) -Duchenne muscular dystrophy (DMD) -retinitis pigmentosa (RP) -ornithine transcarbamylase (OTC) -centromere. In a compilation of 18 individuals in 14 families with the AH, GKD, and DMD loci deleted, 17 were male and all were developmentally delayed. In contrast, we report mentally retarded female carriers in two Xp21 deletion syndrome families with DMD, GKD, and AH in affected males. In the first family with normal karyotypes, a submicroscopic deletion was associated with DMD in the retarded male and with retardation in carrier females. In the second family an X chromosome with a cytogenetically deleted Xp21 distal to the OTC and RP genes segregated in the affected male and retarded female carriers. DNA analysis at the DMD locus verified the cytogenetic findings. This report of mental retardation in otherwise asymptomatic female carriers of Xp21 deletion classifies one form of mental retardation in females. © 1993 Wiley-Liss, Inc.     

Mutations in the RSK2(RPS6KA3) gene cause Coffin-Lowry syndrome and nonsyndromic X-linked mental retardation

We describe three families with X-linked mental retardation, two with a deletion of a single amino acid and one with a missense mutation in the proximal domain of the RSK2(RPS6KA3) (ribosomal protein S6 kinase, 90 kDa, polypeptide 3) protein similar to mutations found in Coffin-Lowry syndrome (CLS). In two families, the clinical diagnosis had been nonsyndromic X-linked mental retardation. In the third family, although CLS had been suspected, the clinical features were atypical and the degree of intellectual disability much less than expected. These families show that strict reliance on classical clinical criteria for mutation testing may result in a missed diagnosis. A less targeted screening approach to mutation testing is advocated.     

Systematic analysis of X-inactivation in 19XLMR families: extremely skewed profiles in carriers in three families

It has been demonstrated in several X-linked disorders, both with and without mental retardation, that the X-inactivation process plays a significant role in the expression of X-linked diseases in females. Moreover, in some disorders extremely skewed inactivation of the X chromosome is constant in carriers, and this is thought to result from a proliferation or a survival advantage for cells expressing the normal allele at this locus over cells expressing the mutated allele. X-linked mental retardation (XLMR) is heterogeneous, and cloning and characterization of the mutated genes are in progress. XLMR can be expressed in carrier females but often with milder manifestations. We report the systematic study of the X-inactivation profile of obligate carriers and other females in 19 multiplex XLMR pedigrees, using leucocyte-extracted DNA. Extremely skewed profiles were observed in carriers in three of 19 families.     

Nonsyndromic X-linked mental retardation: Mapping of MRX58 to the pericentromeric region

An Austrian family with nonsyndromic X-linked mental retardation (MRX) is reported in which the obligatory carrier females are normal, and 5 affected males have mild to moderate mental retardation. Linkage analysis indicated an X pericentromeric localization, with flanking markers DXS989 and DXS1111 and a maximum multipoint LOD score of 2.09 (θ = 0) for the 7 cosegregating markers DXS1243, CybB, MAOB, DXS988, ALAS2, DXS991, and AR. MRX58 thus mapped within a 50-cM interval between Xp11.3 and Xq13.1 and overlapped with 23 other MRX families already described. This pericentromeric clustering of MRX families suggests allelism, with a minimum of 2 X-linked mental retardation (XLMR) genes in this region. Am. J. Med. Genet. 86:102–106, 1999. © 1999 Wiley-Liss, Inc.     

X-linked intellectual handicap and precocious puberty with obesity in carrier females

Precocious puberty (PP) and intellectual handicap were present in 3 males in 2 generations of a Western Australian family. The 2 obligate carrier women were of normal intelligence but were grossly obese; one died of a cardiomyopathy at 55 years. The youngest affected male was found to have PP at 3 years. His mother was then pregnant, and because of her family history, was aware of the risk to have an affected male. Her mother had given birth to 2 sons with PP. By school age both of these males were mildly intellectually handicapped and this later became moderate. Apart from these 3 affected males, the 2 carriers lost 6 of their other 8 offspring, leaving only one normal woman and her unaffected son. The Fragile X test was negative on all males. This appears to be a new X-linked mental retardation syndrome, and a condition different from true idiopathic PP, or familial PP affecting both sexes, or PP with X-linked dominant inheritance.     

A form of X-linked mental retardation with marfanoid habitus

A kindred has been studied in which mental retardation and marfanoid clinical features are present in several individuals. The pedigree is consistent with X-linked recessive inheritance. Four affected males aged 12-18 years and four obligate carriers have been identified. Clinical findings in the 4 affected males included a tall slender habitus (3) (the fourth was tall but muscular), a long-narrow face (3), large head (4), highly arched palate (4), small mandible (4), abnormal speech (4), hypernasal voice (3), joint hyperextensibility (3), borderline to large testes (3), pectus excavatum (2), atrial septal defect (1), and a double row of teeth (1). Mental retardation (4) ranged from mild to severe; abnormal behavior included hyperactive and aggressive behavior (2), autistic-like (1) and jovial behavior (1). One and possibly two, males had absence of the corpus callosum. Chromosome studies on all were normal; no marker X was observed. We believe this family probably represents a new form of X-linked mental retardation.