Primary adhalin deficiency as a cause of muscular dystrophy in patients with normal dystrophin

In our experience, more than half of muscular dystrophy patients show a primary dystrophinopathy. The underlying cause of muscular dystrophy in the vast majority of patients with normal dystrophin is unknown. Recently, a French family with 4 young siblings showing a muscular dystrophy of unknown progression was shown to have a primary deficiency of ?adhalin,”? the 50-kd dystrophin-associated protein. Here we report the screening of the entire adhalin coding sequence in muscle biopsy specimens from 30 muscular dystrophy patients to (1) determine whether adhalin deficiency is restricted to the French population, (2) determine the incidence of adhalin deficiency in muscular dystrophy patients, and (3) characterize the clinical features and mutations in adhalin-deficient patients. We identified a single African-American girl with childhood-onset muscular dystrophy and adhalin gene mutations. We found her to be a compound heterozygote for two different mutations of the same amino acid (Arg98Cys; Arg98His), one of which was previously identified in the French family. Our results suggest that primary adhalin deficiency in patients with muscular dystrophy but normal dystrophin is relatively infrequent, and that adhalin-deficient patients are not restricted to the French population.     

LINKAGE TO CHROMOSOME 13Q11-12 OF AN AUTOSOMAL RECESSIVE CEREBELLAR ATAXIA IN A TUNISIAN FAMILY

OBJECTIVE: To report the clinical findings and the genetic linkage mapping of an autosomal recessive cerebellar ataxia associated to peripheral neuropathy, showing an early onset cerebellar ataxia with retained tendon reflexes (EOCA) phenotype. BACKGROUND: EOCA is a clinical syndrome delimited by Harding distinguished from Friedreich's ataxia (FA) mainly by the preservation of tendon reflexes. Molecular genetic study of patients with EOCA has demonstrated genetic heterogeneity. A form of autosomal recessive spastic ataxia has been described in Charlevoix Saguenay area in Quebec (ARSACS); the gene responsible has been mapped to chromosome 13q. METHODS: Genetic linkage analysis was performed on 18 members of a large family including 8 of 9 members with EOCA. After exclusion of FA and ataxia with vitamin E deficiency loci as well as loci of autosomal dominant cerebellar ataxias, we performed a linkage analysis to markers of 13q11-12 region. RESULTS: The 9 affected members of this family showed stereotyped clinical features with cerebellar ataxia, pyramidal syndrome, and a variable degree of axonal peripheral neuropathy. Linkage was detected between the disease locus and the microsatellite marker D13S232. Surrounding markers to D13S232 confirmed the linkage and showed the homozygosity of the affected members. CONCLUSION: The family reported here showed the same locus as autosomal recessive spastic ataxia Charlevoix Saguenay disease.     

Linkage to chromosome 13q11-12 of an autosomal recessive cerebellar ataxia in a Tunisian family

OBJECTIVE: To report the clinical findings and the genetic linkage mapping of an autosomal recessive cerebellar ataxia associated to peripheral neuropathy, showing an early onset cerebellar ataxia with retained tendon reflexes (EOCA) phenotype. BACKGROUND: EOCA is a clinical syndrome delimited by Harding distinguished from Friedreich's ataxia (FA) mainly by the preservation of tendon reflexes. Molecular genetic study of patients with EOCA has demonstrated genetic heterogeneity. A form of autosomal recessive spastic ataxia has been described in Charlevoix Saguenay area in Quebec (ARSACS); the gene responsible has been mapped to chromosome 13q. METHODS: Genetic linkage analysis was performed on 18 members of a large family including 8 of 9 members with EOCA. After exclusion of FA and ataxia with vitamin E deficiency loci as well as loci of autosomal dominant cerebellar ataxias, we performed a linkage analysis to markers of 13q11-12 region. RESULTS: The 9 affected members of this family showed stereotyped clinical features with cerebellar ataxia, pyramidal syndrome, and a variable degree of axonal peripheral neuropathy. Linkage was detected between the disease locus and the microsatellite marker D13S232. Surrounding markers to D13S232 confirmed the linkage and showed the homozygosity of the affected members. CONCLUSION: The family reported here showed the same locus as autosomal recessive spastic ataxia Charlevoix Saguenay disease.     

Abnormal expression of heparan sulfate proteoglycan on basal lamina of muscle fibers in two Japanese patients with adhalin deficiency

We recently reported the selective reduction of the BI subunit of laminin in two Japanese patients with adhalin deficiency. We here investigated immunohistochemically the expression of other components of the extracellular matrix (ECM), including collagen type IV, heparan sulfate proteoglycan (HSPG), chondroitin-4-sulfate proteoglycan, decorin, and fibronectin in adhalin deficiency, compared with other types of muscular dystrophy. We found a reduction of HSPG on the basal lamina surrounding each muscle fiber in adhalin deficiency compared with HSPG in other diseases. This finding may be characteristic evidence of the disturbance of the sarcolemma-ECM interaction and the sarcolemmal instability in adhalin deficiency. Recently, a direct role of HSPG in fibroblast growth factor (FGF) signal transduction was demonstrated. Further investigation is required to determine if the dysfunction of FGF is relevant to the pathogenesis of adhalin deficiency.     

DYT13, a novel primary torsion dystonia locus, maps to chromosome 1p36.13--36.32 in an Italian family with cranial-cervical or upper limb onset

Primary torsion dystonia (PTD) is a clinically and genetically heterogeneous group of movement disorders, usually inherited in an autosomal dominant fashion with reduced penetrance. The DYT1 gene on chromosome 9q34 is responsible for most cases of early limb-onset PTD. Two other PTD loci have been mapped to date. The DYT6 locus on chromosome 8 is associated with a mixed phenotype, whereas the DYT7 locus on chromosome 18p is associated with adult onset focal cervical dystonia Several families have been described in which linkage to the known PTD loci have been excluded. We identified a large Italian PTD family with 11 definitely affected members. Phenotype was characterized by prominent cranial-cervical and upper limb involvement and mild severity. A genome-wide search was performed in the family. Linkage analysis and haplotype construction allowed us to identify a novel PTD locus (DYT13) within a 22 cM interval on the short arm of chromosome 1, with a maximum lod score of 3.44 between the disease and marker D1S2667.     

Recurrent COLQ mutation in congenital myasthenic syndrome

Congenital myasthenic syndromes comprise clinically and genetically heterogeneous disorders resulting from presynaptic, synaptic, or postsynaptic defects. Mutations in the COLQ gene result in acetylcholinesterase deficiency and cause a rare, autosomal recessive synaptic form of congenital myasthenic syndrome, with variable age of onset and clinical severity. We present four unrelated patients with a homozygous W148X mutation in the COLQ gene. Signs began at birth in all, but subsequent severity ranged from independent ambulation to wheelchair use during childhood. Treatment was partly effective; one patient was asymptomatic with 3,4-diaminopyridine treatment. These cases illustrate the clinical features and treatment results associated with this particular genotype, which appears to be relatively frequent among Turkish patients with congenital myasthenic syndrome.     

Das Krankheitsbild der myotonen Muskeldystrophie bei Patienten mit großer CTG-Tripletexpansion

Myotonic dystrophy is an autosomal dominant multisystem disorder involving muscle, brain, heart, eyes, and endocrine organs. The underlying mutation is an expanding trinucleotide CTG repeat in the 3'prime untranslated region of a serine-threonine kinase gene on chromosome 19q. A statistical correlation exists between the CTG copy number and the severity of the disease. Infants with severe congenital myotonic dystrophy have been shown to have on average a greater amplification of the CTG repeat than is seen in the non-congenital myotonic dystrophy population. However, not all patients with many CTG copies develop congenital myotonic dystrophy. We present 13 patients with more than 1500 CTG trinucleotide repeats and show their variable clinical course.     

No evidence of association between apolipoprotein E genotype and phenotypic severity in childhood onset proximal spinal muscular atrophy.

The survival motor neuron (SMN) gene is present in two copies on chromosome 5q13 and the evidence is now compelling that mutations in the telomeric copy (SMNt) of the gene underlie childhood onset proximal spinal muscular atrophy (SMA). There is a correlation between the number of centromeric SMN gene copies (SMNc) and the clinical severity of the disease but this relationship is not absolute. Allelic variants of the apolipoprotein E (APOE) gene encoded on chromosome 19q are known to influence the prognosis and risk in a number of neurological disorders. We have therefore genotyped 166 unrelated cases of SMA to determine whether the presence of specific APOE genotypes correlates with severity of disease. The study failed to show the influence of any particular APOE genotype on disease severity, with specifically APOE epsilon4 being no more common in the milder SMA forms and APOE epsilon2 not over represented in type I SMA. A limited study of 23 SMA families also failed to show any influence of APOE genotype on SMA disease severity. Factors other than APOE genotype must therefore be responsible for determining SMA disease severity.     

Electron microscopic observations of triple immunogold labelling for dystrophin, β-dystroglycan and adhalin in human skeletal myofibers

Dystrophin is the Duchenne muscular dystrophy gene product and is a membrane cytoskeletal protein present in the network of the plasma membrane undercoat. Adhalin (50 kDa dystrophin-associated glycoprotein) and β-dystroglycan (43 kDa dystrophin-associated glycoprotein) are the transmembrane components of the normal muscle plasma membrane, and β-dystroglycan has been demonstrated to bind dystrophin at the inside surface of normal muscle plasma membrane. This investigation was undertaken to test whether the epitopes of dystrophin, β-dystroglycan and adhalin are closely associated with each other by using triple immunogold labelling electron microscopy on normal human skeletal myofibers. Although closely associated signals of triplet immunogold particles were observed, there were less numerous than expected. However, closely associated signals of two epitopes of dystrophin and β-dystroglycan, dystrophin and adhalin, or adhalin and β-dystroglycan were frequently observed. These ultrastructural findings are consistent with biochemical evidence implying that dystrophin, β-dystroglycan and adhalin are closely associated with each other at the normal muscle plasma membrane. Received: 15 January 1996 / Revised, accepted: 1 April 1996     

Leukodystrofia globoidalna dorosłych. Pierwszy przypadek w Polsce

Krabbe disease (globoid cell leukodystrophy) is a progressive, autosomal recessive disorder affecting peripheral and central nervous system. This disease is associated with mutation in GALC gene and its locus has been mapped to chromosome 14q31. GALC gene codes lysosomal hydrolytic enzyme: galactocerebroside β-galactosidase (galactosylceramidase) which is crucial for degradation of galactolipids, mostly galactosylceramide and galactosylsphingosine (psychosine). The disease may be subdivided into four types: infantile form with onset within the first six months, child form presenting between 6 months and 3 years, juvenile form presenting between 3 and 10 years and the rarest adult form with onset after 10 years. The diagnosis of Krabbe disease is based on clinical findings and confirmed with galactocerebroside β-galactosidase deficiency. We have found family with adult-onset disease. To our knowledge, this is the first observation of patient with adult form of Krabbe disease in Poland.     

The second kindred with autosomal dominant distal myopathy linked to chromosome 14q: genetic and clinical analysis

BACKGROUND: Distal myopathies (MPDs) are genetically heterogeneous. Genetic causes within this subgroup of muscle disorders remain largely unknown. An MPD linked to chromosome 14q11-q13 (MPD1) is rare, and to our knowledge, only one family with definitive linkage has been described. OBJECTIVE: To describe the results of clinical and genetic analysis of the second kindred with MPD1. PATIENTS AND METHODS: We have identified a family with an MPD segregating in an autosomal dominant fashion. We tested linkage to previously identified genetic loci on chromosomes 2p, 2q, and 14q. The coding sequence of PABP2 (the polyadenylate-binding protein 2 gene) was analyzed. RESULTS: Every affected individual had selective weakness of foot extensors, with the average age of symptom onset at 20 years. Some patients also had proximal weakness, but none had signs of finger or hand extensor muscle involvement, even in advanced stages of the disease. Two typically affected individuals had signs of idiopathic dilated cardiomyopathy. Genetic analysis detected a tight linkage to chromosome 14q11-q13. Recombination at the telomeric end of the 14q11-q13 locus was found in an unaffected individual who was not considered to be at risk, potentially reducing the locus interval by 2 centimorgans. No mutations in the PABP2 gene were identified. CONCLUSIONS: To our knowledge, our described family is only the second known kindred with a chromosome 14-linked MPD in whom the linkage has been unequivocally established. We did not detect signs of involvement of hand or finger extensors and neck muscles, seen in the original family with MPD1. The degree and frequency of proximal weakness seem to be more prominent than in other patients with MPD1. Haplotype analysis suggests that the gene is located between polymorphic microsatellite markers D14S283 and D14S1034 on chromosome 14q11-q13. The presence of cardiomyopathy in some affected individuals may help in the identification of candidate genes.     

Familial dyskinesia and facial myokymia (FDFM): a novel movement disorder

We describe here familial dyskinesia and facial myokymia (FDFM), a novel autosomal dominant disorder characterized by adventitious movements that sometimes appear choreiform and that are associated with perioral and periorbital myokymia. We report a 5-generation family with 18 affected members (10 males and 8 females) with FDFM. The disorder has an early childhood or adolescent onset. The involuntary movements are paroxysmal at early ages, increase in frequency and severity, and may become constant in the third decade. Thereafter, there is no further deterioration, and there may even be improvement in old age. The adventitious movements are worsened by anxiety but not by voluntary movement, startle, caffeine, or alcohol. The disease is socially disabling, but there is no intellectual impairment or decrease in lifespan. A candidate gene and haplotype analysis was performed in 9 affected and 3 unaffected members from 3 generations of this family using primers for polymorphic loci closely flanking or within genes of interest. We excluded linkage to 11 regions containing genes associated with chorea and myokymia: 1) the Huntington disease gene on chromosome 4p; 2) the paroxysmal dystonic choreoathetosis gene at 2q34; 3) the dentatorubral-pallidoluysian atrophy gene at 12p13; 4) the choreoathetosis/spasticity disease locus on 1p that lies in a region containing a cluster of potassium (K+) channel genes; 5) the episodic ataxia type 1 (EA1) locus on 12p that contains the KCNA1 gene and two other voltage-gated K+ channel genes, KCNA5 and KCNA6; 6) the chorea-acanthocytosis locus on 9q21; 7) the Huntington-like syndrome on 20p; 8) the paroxysmal kinesigenic dyskinesia locus on 16p11.2-q11.2; 9) the benign hereditary chorea locus on 14q; 10) the SCA type 5 locus on chromosome 11; and 11) the chromosome 19 region that contains several ion channels and the CACNA1A gene, a brain-specific P/Q-type calcium channel gene associated with ataxia and hemiplegic migraine. Our results provide further evidence of genetic heterogeneity in autosomal dominant movement disorders and suggest that a novel gene underlies this new condition.     

CLINICAL AND MOLECULAR PATHOLOGICAL FEATURES OF SEVERE CHILDHOOD AUTOSOMAL RECESSIVE MUSCULAR DYSTROPHY IN SAUDI ARABIA

The clinical, biochemical and histochemical features of 14 patients (nine females and five males) with severe childhood autosomal recessive muscular dystrophy (SCARMD) seen at a tertiary hospital in Riyadh from 1982 to 1993 arc described. Onset was at 3 (o 9 (median 3) years and four of five children aged >12 years lost ambulation. Five of the eight pairs of parents were closely consanguineous. The mean creatine kinase was 20 times the upper normal limit. Histochemistry of muscle showed dystrophic features in all cases, and dystrophin was positive in all cases examined (N=6). Three patients (two girls and a boy) were deficient in adhalin, the 50-kDa dystorphin-associated glycoprotein. A boy aged 13 years had rapidly progressing disease. Another boy of the same age (from a family characterized by early onset and slower progression) had normal dystrophin and adhalin. The clinical features conformed with previous observations from Sudan. North Africa and Qatar in the Arabian Peninsula. The disease is common in Saudi Arabia and seems to be more prevalent than Duchenne muscular dystrophy.     

Phenotypic characterization of DYT13 primary torsion dystonia.

We describe the phenotype of DYT13 primary torsion dystonia (PTD) in a family first examined in 1994. A complete neurological evaluation was performed on all available family members: 8 individuals were definitely affected by dystonia. The family was re-evaluated in March 2000: at that time, 3 more individuals had developed symptoms of dystonia. Inheritance of PTD was autosomal dominant, with affected individuals spanning three consecutive generations and male-to-male transmission. Age at onset ranged from 5 to 43 years. Onset occurred either in the craniocervical region or in upper limbs. Progression was mild, and the disease course was benign in most affected individuals; generalization occurred only in 2 cases. We did not find anticipation of age at onset or of disease severity through generations. Most subjects presented with jerky, myoclonic-like dystonic movements of the neck or shoulders. DYT13-PTD is an autosomal dominant disease, with incomplete penetrance (58%). Clinical presentation and age at onset were more variable than in DYT1-PTD, and the neck was involved in most of those affected. Moreover, the individuals with generalised dystonia were not severely disabled and were able to lead independent lives. To date, this is the only family with DYT13-PTD.     

Spinal muscular atrophy with progressive myoclonic epilepsy: report of new cases and review of the literature

Spinal muscular atrophy (SMA) is a clinically and genetically heterogeneous disease characterised by loss of motor function and muscle atrophy due to anterior horn cell degeneration. The most common variant is chromosome 5-linked proximal SMA, ranging in severity from congenital onset and infantile death to onset in adult life. Genetically separate variants with different distribution of weakness and/or additional features such as central nervous system involvement have been described. A rare variant with associated myoclonic epilepsy and lower motor neuron disease had been previously described in three families before the SMN gene, responsible for the common form of SMA, was isolated. We report four patients from two additional families affected by a syndrome characterised by severe and progressive myoclonic epilepsy and proximal weakness, tremor and lower motor neuron disease proven by electrophysiologic and muscle biopsy findings. Extensive metabolic investigations were normal and genetic analysis excluded the SMN gene. This study confirms that the association of myoclonic epilepsy and motor neuron disease represents a separate clinical and genetic entity from chromosome 5-linked SMA, the primary defect of which remains unknown.     

Genetic heterogeneity in Italian families with familial hemiplegic migraine.

OBJECTIVE: To verify linkage to chromosome 19p13, to detect mutations in the CACNA1A gene, and to correlate genetic results to their clinical phenotypes in Italian families with familial hemiplegic migraine (FHM). BACKGROUND: FHM is an autosomal dominant disease, classified as a subtype of migraine with aura. Only a proportion of FHM patients have been associated with chromosome 19p13. Among these, four missense mutations within the CACNA1A gene in five unrelated families have been described. METHODS: A linkage study was performed in 19 patients affected by FHM from five families by studying microsatellite markers associated with the 19p13 region. All familial and seven additional sporadic patients with FHM were analyzed to search for mutations within the CACNA1A gene by applying the double gradient-denaturant gradient electrophoresis technique. RESULTS: Lod score values did not establish significantly linkage to chromosome 19. However, seven new genetic variants were detected: six were new polymorphisms. The seventh was a missense mutation present in family 1, and it was associated with a hemiplegic migraine phenotype without unconsciousness and cerebellar ataxia. Because this missense mutation is absent in the general population and cosegregates with the disease, it may be a pathologic mutation. CONCLUSIONS: Genetic heterogeneity of FHM has been shown in familial and sporadic FHM patients of Italian origin. The new missense mutation-G4644T-is associated with milder clinical features compared with typical FHM.     

Sarcolemmal Alpha and Gamma Sarcoglycan Protein Deficiencies in Turkish Siblings With a Novel Missense Mutation in the Alpha Sarcoglycan Gene

BackgroundThe sarcoglycan alpha gene, also known as the adhalin gene, is located on chromosome 17q21; mutations in this gene are associated with limb-girdle muscular dystrophy type 2D. We describe two Turkish siblings with findings consistent with limb-girdle muscular dystrophy type 2D. The evaluation excluded a dystrophinopathy, which is the most common form of muscular dystrophy.PatientsBoth siblings had very high levels of creatinine phosphokinase and negative molecular tests for deletions and duplications of the dystrophin gene. The older boy presented at 8 years of age with an inability to climb steps and an abnormal gait. His younger brother was 5 years old and had similar symptoms. The muscle biopsy evaluation was performed only in the older brother.ResultsThe muscle biopsy showed dystrophic features as well as a deficiency in the expression of two different glycoproteins: the alpha sarcoglycan and the gamma sarcoglycan. Sarcolemmal expressions of dystrophin and other sarcoglycans (beta and delta) were diffusely present. DNA analysis demonstrated the presence of previously unknown homozygous mutations [c.226 C > T (p.L76 F)] in exon 3 in the sarcoglycan alpha genes of both siblings. Similar heterozygous point mutations at the same locus were found in both parents, but the genes of beta, delta, and gamma sarcoglycan were normal in the remaining family members.ConclusionsWe describe two siblings with limb-girdle muscular dystrophy type 2D with a novel missense mutation. These patients illustrate that the differential diagnosis of muscular dystrophies is impossible with clinical findings alone. Therefore, a muscle biopsy and DNA analysis remain essential methods for diagnosis of muscle diseases.     

Spinocerebellar ataxia with mental retardation (SCA13)

Spinocerebellar ataxia 13 is a slowly progressive and relatively pure autosomal dominant cerebellar ataxia with childhood onset and mental deficiency. The responsible gene has been assigned to a 5.2 Mbases interval on chromosome 19q in a single French family.     

Analysis of a variable number tandem repeat polymorphism in the huntingtin interacting protein-1 related gene for anticipation in bipolar affective disorder

The anticipation phenomenon, described as either an increase in disease severity, a decrease in age at onset, or both, in successive generations, has been suggested as a possibility of genetic transmission for bipolar affective disorder. We report here investigation of the stability of intergenerational transmission of a variable number tandem repeat (VNTR) polymorphism, found in the Huntingtin interacting protein-1 related gene (HIP12/HIP1R) that is mapped to the chromosome 12q24.31 region, in nine pedigrees showing decreased age at onset in successive generations. We did not observe any allelic instability but we report a deletion that includes this VNTR polymorphism. Allelic and genotypic association studies should be undertaken to verify the involvement of HIP12/HIP1R in bipolar disorder.