J. M. Vance

Genetic linkage of von Recklinghausen neurofibromatosis to the nerve growth factor receptor gene

von Recklinghausen neurofibromatosis (VRNF) is one of the most common inherited disorders affecting the human nervous system. VRNF is transmitted as an autosomal dominant defect with high penetrance but variable expressivity. The disorder is characterized clinically by hyperpigmented patches of skin (café au lait macules, axillary freckles) and by multiple tumors of peripheral nerve, spinal nerve roots, and brain (neurofibromas, optic gliomas). These tumors can cause disfigurement, paralysis, blindness, and death. We have determined the chromosomal location of the VRNF gene by genetic linkage analysis using DNA markers. The VRNF gene is genetically linked to the locus encoding nerve growth factor receptor, located on the long arm of chromosome 17 in the region 17q12----17q22. However, crossovers with the VRNF locus suggest that a mutation in the nerve growth factor receptor gene itself is unlikely to be the fundamental defect responsible for the VRNF phenotype.

Identification of novel genes in late-onset Alzheimer's disease.

Four genes affecting Alzheimers Disease (AD)(AP, PS1, PS2, and APOE) have been identified and a fifth potential gene localized to chromosome 12. Collectively, these genes explain at most half of the genetic effect in AD. Understanding the genetics of AD is critical to developing new treatments. The quest to find the remaining AD genes led us to undertake a large genomic screen using over 466 families (730 affected sibpairs) in late-onset AD. In conjunction with this increase in power, we initiated several novel approaches to identify potential AD-related genes. This included stratification of the data into an autopsy-confirmed subset of 199 AD families. Each of these targeted analyses resulted in the identification of novel regions containing potential AD genetic risk factors. Our most significant finding was on chromosome 9 in the autopsy-confirmed subset where we obtained an MLS of 4.31. These approaches, together with new methodologies such as conditional linkage analysis, generalized family-based association tests (PDT), and a new generation of genetic markers (SNPs), opens the door for additional AD gene discovery. Such strategies are necessary if we are to understand the subtle and complex threads that, woven together, create the intricate tapestry of AD.

Genetic linkage studies in Alzheimer's disease families

Alzheimers disease is a devastating neurological disorder and the leading cause of dementia among the elderly. Recent studies have localized the gene for familial Alzheimers disease to chromosome 21 in a series of early onset AD families (mean age of onset less than 60). Familial late onset AD (mean age of onset greater than 60) is a more common clinical form of the disorder. Thirteen families with multiply affected Alzheimers disease family members were identified and sampled. Ten of these families were of the late onset Alzheimers disease type. Simulation studies were used to evaluate the usefulness of these pedigrees in linkage studies in familial Alzheimers disease. Linkage studies undertaken to test the localization of both early onset and late onset Alzheimers disease families to chromosome 21 failed to establish linkage and excluded linkage from a large portion of the region where the early onset Alzheimers disease gene was localized. These findings suggest that more than one etiology may exist for familial Alzheimers disease and indicate the need for continued screening of the genome in familial Alzheimers disease families.

Compound Heterozygosity for Loss-of-Function Lysyl-tRNA Synthetase Mutations in a Patient with Peripheral Neuropathy

Charcot-Marie-Tooth (CMT) disease comprises a genetically and clinically heterogeneous group of peripheral nerve disorders characterized by impaired distal motor and sensory function. Mutations in three genes encoding aminoacyl-tRNA synthetases (ARSs) have been implicated in CMT disease primarily associated with an axonal pathology. ARSs are ubiquitously expressed, essential enzymes responsible for charging tRNA molecules with their cognate amino acids. To further explore the role of ARSs in CMT disease, we performed a large-scale mutation screen of the 37 human ARS genes in a cohort of 355 patients with a phenotype consistent with CMT. Here we describe three variants (p.Leu133His, p.Tyr173SerfsX7, and p.Ile302Met) in the lysyl-tRNA synthetase (KARS) gene in two patients from this cohort. Functional analyses revealed that two of these mutations (p.Leu133His and p.Tyr173SerfsX7) severely affect enzyme activity. Interestingly, both functional variants were found in a single patient with CMT disease and additional neurological and non-neurological sequelae. Based on these data, KARS becomes the fourth ARS gene associated with CMT disease, indicating that this family of enzymes is specifically critical for axon function.

Apolipoprotein E controls the risk and age at onset of Parkinson disease

Background: Similarities between Alzheimer disease (AD) and Parkinson disease (PD) suggest a possible role for apolipoprotein E (APOE) in PD. Most previous studies seeking to establish such a link used case-control datasets and results have been inconsistent. Objective: To investigate APOE’s role in PD using family-based association analyses. Methods: APOE functional polymorphisms were genotyped for 658 PD affected families, including 282 multiplex and 376 singleton families. The pedigree disequilibrium test (PDT) and the genotype-PDT were used to test the risk effect of APOE. The Monks-Kaplan test was used to evaluate the effect of APOE on age at onset of PD. Results: APOE was significantly associated with risk of developing PD. Stratified analysis revealed that APOE was most strongly associated with families with a positive PD family history (global p = 0.003). Like AD, the APOE-4 allele increases disease risk while the APOE-3 allele decreases risk. We detected a positive association of APOE-3 (p = 0.019) and a negative association of APOE-4 (p = 0.015) with age at onset in PD. Conclusions: The APOE-4 allele increases risk and decreases age at onset of PD, an association that may not be dependent upon cognitive impairment.

Genetic studies in autistic disorder and chromosome 15

ABSTRACT¶Autistic disorder (AD) is a developmental disorder affecting social interactions, communication, and behavior. AD is a disease of complex genetic architecture. It is postulated that several genes contribute to the underlying etiology of AD. Chromosome 15 is of particular interest due to numerous reports of AD in the presence of chromosomal abnormalities, located mainly in the 15q11-q13 region. There are also a number of plausible candidate genes in this area, including the gamma-aminobutyric acid A (GABA A ) receptor gene complex. We have undertaken a study of this region of chromosome 15 in a data set of 63 multiplex families (with 2 or more AD affected individuals per family). We found evidence in support of linkage to the 15q11-q13 region, as well as evidence of increased recombination in this region. These findings provide further support for the involvement of chromosome 15q11-q13 in the genetic etiology of AD.

Charcot–Marie–Tooth with pyramidal signs is genetically heterogeneous: Families with and without MFN2 mutations

Charcot–Marie–Tooth neuropathy (CMT) is divided into two broad categories: demyelinating forms (CMT1), characterized by median motor conduction velocities of <38 m/s; and axonal forms (CMT2), characterized by axonal degeneration without demyelination and preserved or only mildly reduced motor conduction velocities.1 CMT with pyramidal features is an axonal form of CMT with variable pyramidal features (upper motor neuron signs) but without frank spasticity. The dominantly inherited form was classified as hereditary motor and sensory neuropathy type V (HMSN V [MIM 600361])2 and also defined as peroneal muscular atrophy with pyramidal features.3 The pyramidal signs include extensor plantar responses, mild increase in tone, flexor plantar weakness, and preserved or increased reflexes (knee and ankle). There is no frank spasticity differentiating this disorder from the spastic paraplegias. The disorder has not been mapped to a chromosomal locus. Eight loci have been reported for the autosomal dominant forms of CMT2. Genes with mutations have been identified for five of these loci. Recently, two closely mapped genes, MFN2 (MIM 608507) and KIF1B (MIM 6059950), were reported to cause CMT2A4,5, but mutations in KIF1B have not been independently …

Linkage and mutation analysis of Charcot‐Marie‐Tooth neuropathy type 2 families with chromosomes 1p35‐p36 and Xq13

A locus for autosomal dominant Charcot-Marie-Tooth disease type 2 (CMT2A) was assigned by linkage analysis to chromosome 1p35–p36. We examined 11 unrelated CMT2 families for linkage to CMT2A using short tandem repeat (STR) polymorphisms. Only one family showed suggestive evidence for linkage to 1p35–p36. Further, because of an overlap in electrophysiologic data between CMT2 and CMTX female patients, we screened 6 of 11 CMT2 families compatible with dominant X-linkage for mutations in the connexin 32 (Cx32) gene at Xq13. There was a Cx32 mutation in one family, whereas another family showed suggestive evidence for Xq13 linkage upon analysis with STR polymorphisms. Our results suggest that the CMT2A locus is a minor locus for CMT2, additional linkage studies are needed to localize other CMT2 loci, and Cx32 mutations may be the underlying genetic defect in some CMTS families.

Genetic studies in neural tube defects

Neural tube defects (NTD) are one of the most common birth defects and are caused by both environmental and genetic factors. The approach to identifying the genes predisposing to NTD, through linkage analysis and candidate gene analysis, is reviewed along with characteristics of a large, nationally ascertained cohort of families. Results from specific assessments of p53, PAX3 and MTHFR failed to suggest that these genes play a major role in NTD development in these families. Advances in genetic laboratory and statistical techniques have made this a prime opportunity for investigation into the causes of complex disorders, such as NTD. However, traditional approaches may prove to be challenging due to the difficulty of ascertaining samplable multiplex families.

Family-based case-control study of cigarette smoking and Parkinson disease

Objective: To determine whether people with Parkinson disease (PD) are less likely to report a history of cigarette smoking than their unaffected siblings. Background: Previous studies reported that individuals with PD are half as likely to have smoked as those unaffected by PD. Other studies reported that smoking modified the risk of PD due to polymorphisms in the MAO-B and nNOS genes. Thus, genetic studies of PD should consider confounding or interaction with smoking history as well. The authors have collected detailed smoking histories on a family-based case-control sample ascertained for genetic studies of PD. Methods: In a matched case-control study of 140 sibships, individuals with PD (n = 143) were compared to sibling controls (n = 168). Cigarette smoking history was collected by a structured telephone interview. Conditional logistic regression was used to examine the relationship between smoking and PD while controlling for confounding by age and sex. Results: Ever smoking, current smoking, and increasing duration (in years), dose (in packs/day), and intensity (in pack-years) of smoking were significantly inversely associated with PD (p < 0.05). The association was not modified by sex, age at onset, or recency of exposure. Conclusions: Consistent with previous studies, individuals with Parkinson disease are significantly less likely to have smoked regularly than their unaffected siblings. This association was detected even though discordant sibling pairs are more likely to be overmatched for environmental exposures than unmatched case and control groups.