Successful aging: from phenotype to genotype.

Despite worldwide interest in the increasing human "healthspan," inadequate experimental attention has been dedicated to identifying genetic influences on successful aging beyond those that influence longevity alone. Although it is an under-studied topic, some promising leads have emerged from the existing genetic studies of successful aging. Here we describe the results of a systematic review of published family, twin, linkage, and association studies of successful aging that evaluated at least one other characteristic of healthy aging in addition to longevity. We identified 29 studies that met our criteria. Although methodological inconsistencies in sampling and phenotypes were frequent, we found evidence for a substantial genetic contribution to successful aging, including several specific genes (APOE, GSTT1, IL6, IL10, PON1, and SIRT3) that are promising candidates for future molecular genetic research. In addition to reviewing this literature, we provide recommendations for advancing our understanding of the genetic basis of successful aging.     

Genes of early-onset epileptic encephalopathies: from genotype to phenotype

Early-onset epileptic encephalopathies are severe disorders in which cognitive, sensory, and motor development is impaired by recurrent clinical seizures or prominent interictal epileptiform discharges during the neonatal or early infantile periods. They include Ohtahara syndrome, early myoclonic epileptic encephalopathy, West syndrome, Dravet syndrome, and other diseases, e.g., X-linked myoclonic seizures, spasticity and intellectual disability syndrome, idiopathic infantile epileptic-dyskinetic encephalopathy, epilepsy and mental retardation limited to females, and severe infantile multifocal epilepsy. We summarize recent updates on the genes and related clinical syndromes involved in the pathogenesis of early-onset epileptic encephalopathies: Aristaless-related homeobox (ARX), cyclin-dependent kinase-like 5 (CDKL5), syntaxin-binding protein 1 (STXBP1), solute carrier family 25 member 22 (SLC25A22), nonerythrocytic α-spectrin-1 (SPTAN1), phospholipase Cβ1 (PLCβ1), membrane-associated guanylate kinase inverted-2 (MAGI2), polynucleotide kinase 3′-phosphatase (PNKP), sodium channel neuronal type 1α subunit (SCN1A), protocadherin 19 (PCDH19), and pyridoxamine 5-prime-phosphate oxidase (PNPO).     

Dominant forms of Alzheimer's disease: from genotype to phenotype

This review is devoted to the relationships between phenotype and genotype of the autosomal dominant forms of Alzheimer's disease caused by mutations of presenilins (PSs) and amyloid precursor protein (APP) genes. A first part examines the clinical characteristics mainly the early age of onset and argues about the diversity of age of onset between different mutations and also between patients bearing the same mutation in large families. The second part reports several arguments demonstrating that the main effect of the PSs and APP mutations is the elevation of Ab42 peptide. The pathological and behavioral effects observed in transgenic APP or PSs animals suggest that intra cellular deposits of Ab42 play a role in the pathophysiological process.     

McLeod neuroacanthocytosis: genotype and phenotype.

McLeod syndrome is caused by mutations of XK, an X-chromosomal gene of unknown function. Originally defined as a peculiar Kell blood group variant, the disease affects multiple organs, including the nervous system, but is certainly underdiagnosed. We analyzed the mutations and clinical findings of 22 affected men, aged 27 to 72 years. Fifteen different XK mutations were found, nine of which were novel, including the one of the eponymous case McLeod. Their common result is predicted absence or truncation of the XK protein. All patients showed elevated levels of muscle creatine phosphokinase, but clinical myopathy was less common. A peripheral neuropathy with areflexia was found in all but 2 patients. The central nervous system was affected in 15 patients, as obvious from the occurrence of seizures, cognitive impairment, psychopathology, and choreatic movements. Neuroimaging emphasized the particular involvement of the basal ganglia, which was also detected in 1 asymptomatic young patient. Most features develop with age, mainly after the fourth decade. The resemblance of McLeod syndrome with Huntington's disease and with autosomal recessive chorea-acanthocytosis suggests that the corresponding proteins--XK, huntingtin, and chorein--might belong to a common pathway, the dysfunction of which causes degeneration of the basal ganglia.     

The diverse phenotype and genotype of pantothenate kinase-associated neurodegeneration

Pantothenate kinase-associated neurodegeneration (PKAN) is a rare autosomal-recessive disorder caused by mutations in the PANK2 gene. The authors report clinical and genetic findings of 16 patients with PKAN. The authors identified 12 mutations in the PANK2 gene, five of which were new. Only nine patients could be classified as classic or atypical PKAN, and intermediate phenotypes are described. Two patients presented with motor tics and obsessive-compulsive behavior suggestive of Tourette syndrome.     

帕金森病基因型和表型研究进展

帕金森病(PD)是常见的神经系统变性疾病之一,国外报道65岁以上的患病率达到2%,国内60岁以上为1%以上.目前认为PD的发病机制可能是环境因素和遗传因素共同作用的结果.近几年有关PD的基因发现,为研究PD发病的遗传基础燃起了新的希望.本文概括了目前与PD相关的基因研究状况以及和这些基因改变相关的PD病人临床特征.     

Huntington's disease: new aspects on phenotype and genotype

Huntington's disease typically presents with involuntary movements, cognitive decline and behavioural abnormalities; however, new data show a greater spectrum and more complexity in the mode of presentation than previously appreciated. On one hand efforts are under way to better assess all aspects of the evolving phenotype over the course of the disease, on the other hand large cohorts have been prospectively followed-up and similar efforts are now being started in China. In this communication, we briefly review the most salient findings from the last couple of years. The recently established large cohorts allow the performance of accurate studies examining correlation of genetic polymorphisms with specific aspects of the phenotype thus allowing for some mechanistic insight into the causes of phenotypic variation. While Huntington's disease is the most frequent hereditary cause of chorea, other disorders with similar clinical phenotypes, including neuroacanthocytosis, are now better known, including a better understanding of the primary cause as well as the pathophysiology at the molecular level. Studies on the mechanisms of disease in these different disorders may shed light on the respective pathomechanisms and may open new approaches to a better understanding and additional treatment options for choreatiform neurodegenerative disorders.     

Neuronal ceroid lipofuscinoses type 8: Expanding genotype/phenotype diversity-first report from Saudi Arabia

Neuronal ceroid lipofuscinoses (NCLs) are the most common group of neurodegenerative diseases that presents in childhood and are characterized by seizures and progressive neurological deterioration, which results in dementia, ataxia, visual failure, and various forms of abnormal movement. The most common form of neuronal ceroid lipofuscinoses is late infantile (LI-NCL), in association with the genes CLN2, CLN5, CLN6, and CLN8. We report the cases of neuronal ceroid lipofuscinoses type 8 in 3 patients from 2 unrelated families, which was confirmed by molecular testing in 2 of them. Multiple spontaneous abortions, early death, and early onset of motor disability were observed in our cases, reflecting a possible association of NCL 8 with other unrecognized neurodegenerative diseases. Our results expand the genotypic/phenotypic background of variant late Infantile-NCL in Arabic ethnicity.

Neuronal ceroid lipofuscinoses (NCLs) are a group of genetically inherited lysosomal neurodegenerative diseases that mainly presents in childhood.1 The NCL is characterized by permanent cell damage and ultimately multi-organ dysfunction due to intracellular accumulation of abnormal autofluorescent lipopigment materials in multiple cells, including neurons, skin, and skeletal muscle.2–3 Typically, NCL is clinically characterized by both motor and mental regression, seizures, visual impairment, and early death. Historically, NCL phenotypes were classified into 6 categories, based on both the clinical presentation of the patient and their age at onset (congenital, infantile, late infantile, variant late infantile, juvenile, and adult). To date, fourteen NCL genetic forms (CLN1 to CLN14) have been identified, which has led to a new classification system based on the associated gene.2,4 The NCL accounts for 5% of all neurodegenerative disorders in Saudi Arabia.5 The worldwide prevalence of NCL varies among different geographic and ethnic regions, but ranges from 1: 100,000 to 1: 1,000,000 live births.2 The most frequent form of NCL is late infantile NCL (LI-NCL), with a reported incidence of 0.78: 100,000 live births.6 The NCL type 8 can cause two main phenotypes: epilepsy progressive with mental retardation (EPMR), and variant LI-NCL (vLI-NCL). A new congenital CLN8 phenotype characterized by psychomotor retardation and epilepsy from birth was recently described by Pesola et al7 from Argentina. Here, we report the cases of 3 patients from 2 unrelated families who demonstrating the LI- NCL phenotype, 2 of whom were diagnosed through molecular testing to have a homozygous mutation of the CLN8 gene.     

Brain-derived neurotrophic factor genotype impacts the prenatal cocaine-induced mouse phenotype

Prenatal cocaine exposure leads to persistent alterations in the growth factor brain-derived neurotrophic factor (BDNF), particularly in the medial prefrontal cortex (mPFC) and hippocampus, brain regions important in cognitive functioning. BDNF plays an important role in the strengthening of existing synaptic connections as well as in the formation of new contacts during learning. A single nucleotide polymorphism in the BDNF gene (Val66Met), leading to a Met substitution for Val at codon 66 in the prodomain, is common in human populations, with an allele frequency of 20-30% in Caucasians. To study the interaction between prenatal cocaine exposure and BDNF, we have utilized a line of BDNF Val66Met transgenic mice on a Swiss Webster background in which BDNF(Met) is endogenously expressed. Examination of baseline levels of mature BDNF protein in the mPFC of prenatally cocaine-treated wild-type (Val66Val) and Val66Met mice revealed significantly lower levels compared to prenatally saline-treated mice. In contrast, in the hippocampus of prenatally saline- and cocaine-treated adult Val66Met mice, there were significantly lower levels of mature BDNF protein compared to Val66Val mice. In extinction of a conditioned fear, we found that prenatally cocaine-treated Val66Met mice had a deficit in recall of extinction. Examination of mature BDNF protein levels immediately after the test for extinction recall revealed lower levels in the mPFC of prenatally cocaine-treated Val66Met mice compared to saline-treated mice. However, 2 h after the extinction test, there was increased BDNF exons I, IV, and IX mRNA expression in the prelimbic cortex of the mPFC in the prenatally cocaine-treated BDNF Val66Met mice compared to prenatally saline-treated mice. Taken together, our results suggest the possibility that prenatal cocaine-induced constitutive alterations in BDNF mRNA and protein expression in the mPFC differentially poises animals for alterations in behaviorally induced gene activation, which are interactive with BDNF genotype and differentially impact those behaviors. Such findings in our prenatal cocaine mouse model suggest a gene X environment interaction of potential clinical relevance.     

家族性低钾型周期性麻痹的基因突变与临床特征

目的筛查家族性低钾型周期性麻痹相关基因突变位点,总结该病基因型和临床表型的相关性.方法应用聚合酶链反应（PCR）和DNA测序技术,对14个家族性低钾型周期性麻痹家系中的14例先证者进行候选基因CACNA1S、SCN4A、KCNE3的筛查,阳性者再对其家系中其他患者和健康亲属进行测序分析.结果14个家系中有3个家系其先证者存在已知的低钾型周期性麻痹相关突变（1个家系发生CACNA1S基因R1239H突变,2个家系发生SCN4A基因的R672H突变）.进一步对3个突变家系中4例其他患者和34名健康亲属测序分析发现,R1239H突变为完全外显率,R672H突变为不全外显率.同时还发现2种突变在发病年龄和乙酰唑胺的疗效等方面存在差异.结论中国低钾型周期性麻痹患者存在CACNA1S基因R1239H和SCN4A基因的R672H突变,2种突变的临床表型存在差异.     

Spinocerebellar ataxia type 6: genotype and phenotype in German kindreds

OBJECTIVE—Spinocerebellar ataxia type 6 (SCA6) isan autosomal dominant cerebellar ataxia (ADCA) of which the mutationcausing the disease has recently been characterised as an expanded CAGtrinucleotide repeat in the gene coding for theα_1A-subunit of the voltage dependent calcium channel. Theaim was to further characterise the SCA6 phenotype
METHODS—The SCA6 mutation was investigated in 69 German families with ADCA and 61 patients with idiopathic sporadiccerebellar ataxia and the CAG repeat length of the expanded allele wascorrelated with the disease phenotype.
RESULTS—Expanded alleles were found in nine of 69 families as well as in four patients with sporadic disease. Diseaseonset ranged from 30 to 71 years of age and was significantlylater than in other forms of ADCA. Age at onset correlated inverselywith repeat length. The SCA6 phenotype comprises predominantlycerebellar signs in concordance with isolated cerebellar atrophy onMRI. Non-cerebellar systems were only mildly affected with external ophthalmoplegia, spasticity, peripheral neuropathy, and parkinsonism. Neither these clinical signs nor progression rate correlated with CAGrepeat length.
CONCLUSIONS—This study provides the first detailedcharacterisation of the SCA6 phenotype. Clinical features apart fromcerebellar signs were highly variable in patients with SCA6. Bycomparison with SCA1, SCA2, and SCA3 no clinical orelectrophysiological finding was specific for SCA6. Therefore, themolecular defect cannot be predicted from clinical investigations. InGermany, SCA6 accounts for about 13% of families with ADCA. However,up to 30% of SCA6 kindreds may be misdiagnosed clinically as sporadicdisease due to late manifestation in apparently healthy parents.Genetic testing is therefore recommended for the SCA6 mutation also inpatients with putative sporadic ataxia.

     

Prion protein genotype and pathological phenotype studies in sporadic Creutzfeldt-Jakob disease

A comparative semi-automated morphometric study was performed on the distribution of prion protein, spongiform change and astrocytosis in the brains of nine cases of sporadic Creutzfeldt-Jakob disease of differing genotype at the methionine-valine polymorphism at codon 129 of the prion protein gene. Custom-designed image analysis software was used to produce objective figures for each of the different pathological features throughout 13 different areas of the brain used for analysis. A significant positive correlation was observed between prion protein deposition and astrocytosis in all cases and no significant correlation was observed between spongiform change and prion protein deposition. Different patterns of pathology were found to relate to codon 129 genotype; valine homozygosity favoured the targeting of pathology to deep grey matter structures, while methionine homozygosity favoured cortical targeting of pathology. These results provide evidence that prion protein deposition is closely associated with an astrocytic reaction and suggest that codon 129 genotype may influence the pathological phenotype.