P Raeymaekers

Duplication in chromosome 17p11.2 in Charcot-Marie-Tooth neuropathy type 1a (CMT 1a)

Hereditary motor and sensory neuropathy type I (HMSN I) or Charcot-Marie-Tooth disease type 1 (CMT 1) is an autosomal dominant disorder of the peripheral nervous system characterized by progressive weakness and atrophy of distal limb muscles. In the majority of HMSN I families, linkage studies localized the gene (CMT 1a) to the pericentromeric region of chromosome 17. We have detected with probe pVAW409R3 (D17S122) localized in 17p11.2 a duplication, co-segregating with the disease in 12 HMSN I families. In these families the duplication was present in all 128 patients but absent in the 84 unaffected and 44 married-in individuals (lod score of 58.44 at zero recombination). Further, on one HMSN I family the disease newly appeared simultaneously with a de novo duplication originating from an unequal crossing-over event at meiosis. Since different allelic combinations were found segregating with the duplication in different families linkage disequilibrium was not a significant factor. These findings led us to propose that the duplication in 17p11.2 itself is the disease causing mutation in all the HMSN I families analyzed.

Estimation of the size of the chromosome 17p11.2 duplication in Charcot-Marie-Tooth neuropathy type 1a (CMT1a). HMSN Collaborative Research Group.

We have previously shown a duplication in 17p11.2 with probe pVAW409R3 (D17S122) in 12 families with hereditary motor and sensory neuropathy type I (HMSN I) or Charcot-Marie-Tooth disease type 1 (CMT1). In this study we aimed to estimate the size of the duplication using additional polymorphic DNA markers located in 17p11.2-p12. Two other 17p11.2 markers, pVAW412R3 (D17S125) and pEW401 (D17S61), were found to be duplicated in all HMSN I patients tested. Furthermore, all HMSN I patients showed the same duplication junction fragment with probe pVAW409R3. On the genetic map the duplicated markers span a minimal distance of 10 cM while on the physical map they are present in the same NotI restriction fragment of 1150 kb. The discrepancy between the genetic and physical map distances suggests that the 17p11.2 region is extremely prone to recombinational events. The high recombination rate may be a contributing factor to the genetic instability of this chromosomal region.

Association analysis of the 5-HT2c receptor and 5-HT transporter genes in bipolar disorder

We selected 42 patients with bipolar disorder type I (BPI) and 40 healthy controls for genetic analysis of DNA polymorphisms in the serotonin receptor 2c (5-HTR2c) and serotonin transporter (5-HTT) genes. No significant associations were found in the total patient sample. However, when the individuals were divided according to gender, trends for association with both polymorphisms (P = 0.051 for 5-HTR2c and P = 0.049 for 5-HTT) in female patients were observed. These results suggest that variations in these genes may be responsible for a minor increase in susceptibility for bipolar disorder in women.

Positive Association between the GABRA5 Gene and Unipolar Recurrent Major Depression

The gamma-aminobutyric acid (GABA) neurotransmitter system has been implicated in the pathogenesis of mood disorders. To test this hypothesis we carried out an association study between a dinucleotide repeat polymorphism in the GABAA receptor alpha 5 subunit gene and bipolar and unipolar mood disorders. Our results suggest a possible involvement of this gene in unipolar but not in bipolar disorder.

Analysis of the tyrosine hydroxylase and dopamine D4 receptor genes in a Croatian sample of bipolar I and unipolar patients

We selected 83 patients with bipolar disorder type I or unipolar recurrent major depression and 71 healthy controls for genetic analysis of the tyrosine hydroxylase and the dopamine D4 receptor gene. No significant association was found between bipolar disorder type I and unipolar recurrent major depression and the polymorphisms located near these genes. Therefore, the hypothesis that the tyrosine hydroxylase and the dopamine D4 receptor genes may be involved in the etiology of bipolar disorder and unipolar recurrent major depression is not supported in our study.

Novel syndromic form of X‐linked complicated spastic paraplegia

This study presents a family with a syndromic form of X-linked mental retardation in which four males in two generations present severe mental retardation, slowly progressive spastic paraplegia, facial hypotonia, and maxillary hypoplasia. Multipoint linkage analysis with 24 highly polymorphic markers indicated two possible candidate regions: Xp21.1-Xq21.3 (flanking markers DXS1214 and DXS990) and Xq23-Xq27.1 (flanking markers DXS8020 and DXS984). The two known loci for X-linked mental retardation and spastic paraplegia are excluded: proteolipid protein in Xp21 and L1 cell adhesion molecule in Xq28. Therefore, the syndrome in this family appears to represent a previously undescribed X-linked spastic paraplegia-mental retardation syndrome.

Localisation of a new gene for non-specific mental retardation to Xq22-q26 (MRX35).

Non-specific mental retardation (MR) is a condition in which MR appears to be the only consistent manifestation. The X linked form (MRX) is genetically heterogeneous. We report clinical, cytogenetic, and linkage data on a family with X linked non-specific MR. Two point and multi-point linkage analysis with 18 polymorphic markers, covering the entire chromosome, showed close linkage to DXS1001 and DXS425 with a maximal lod score of 2.41 at 0% recombination. DXS178 and the gene for hypoxanthine phosphoribosyl-transferase (HPRT), located in Xq22 and Xq26 respectively, flank the mutation. All other chromosomal regions could be excluded with odds of at least 100:1. To our knowledge there is currently no other non-specific MR gene mapped to this region. Therefore, the gene causing MR in this family can be considered to be a new, independent MRX locus (MRX35).

Regional localization of two genes for nonspecific X-linked mental retardation to Xp22.3-p22.2 (MRX49) and Xp11.3-p11.21 (MRX50).

Two families with nonspecific X-linked mental retardation (XLMR) are presented. In the first family, MRX49, 5 male patients in 2 generations showed mild to moderate mental retardation. Two-point linkage analysis with 28 polymorphic markers, dispersed over the X-chromosome, yielded a maximal LOD score of 2.107 with markers DXS7107 and DXS8051 at theta = 0.0, localizing the MRX49 gene at Xp22.3-p22.2, between Xpter and marker DXS8022. Multipoint linkage analysis showed negative LOD values over all other regions of the chromosome. In the second family, MRX50, 4 males in 2 generations showed moderate mental retardation. Pairwise linkage analysis with 28 polymorphic markers yielded a LOD score of 2.056 with markers DXS8054, DXS1055, and DXS1204, all at theta = 0.0. Flanking markers were DXS8012 and DXS991, situating the MRX50 gene at Xp11.3-Xp11.21, in the pericentromeric part of the short arm of the X chromosome.

Linkage and association of the HLA gene complex with IDDM in 81 Danish families: strong linkage between DR beta 1Lys71+ and IDDM.

Many studies have shown an association of IDDM with polymorphisms in the HLA region on chromosome 6p21. Previously our case-control study in the Belgian population showed significant association between IDDM and certain HLA class II alleles, in particular Lys71+, encoding DRB1 alleles. In the present study, 81 Danish multiplex IDDM families and 82 healthy Danish controls were examined for polymorphisms in the HLA-DRB genes and 54 of the 81 families for polymorphisms in HLA-B, -DQA1, -DQB1, -TNFA, and -TNFB genes. The results confirm our previous studies in the Belgian population and show that DRB1Lya71+/+ homozygotes have a relative risk (RR) of 103.5. Linkage between IDDM and DRB1 alleles that encode Lys71+ was shown by affected zib pair analysis which showed strong linkage (p < 1 x 10(-6). By family based association studies, the DRB1Lys71+ was identified as the allale which increased susceptibility to develop IDDM most in the HLA region (haplotype relative risk = 8.38). Haplotype analysis confirmed the increased risk contributed by DRB1Lys71+ alleles and in addition showed that DRB1Lys71- provides protection against IDDM even in the presence of DQB1Aep47-. These results indicate that DRB1Lys71+ screening is a powerful test compared to full HLA typing to determine the risk for a random person to develop IDDM in the Danish population, with an even higher probability than shown previously for the Belgians.

Genetic Linkage Analysis in Two Large Belgian Alzheimer Families with Chromosome 21 DNA Markers

We previously reported two large Belgian Alzheimer families, AD/A and AD/B, with autosomal dominant transmission of the disease and early onset of the disease symptoms (< 35 years). Both pedigrees were used to examine the distance between the FAD and APP gene, using informative haplotypes of two DNA polymorphisms of the APP cDNA. Furthermore, we analysed possible linkage of both families with chromosome 21 using the markers D21S16 and D21S1/S11 and several other 21 probes. We found positive LOD scores with D21S13. Pulse field gel electrophoresis helped us to prove that D21S13 and D21S16 are closely related and may in fact be regarded as one locus in the linkage analysis of Alzheimer families. Linkage data indicate that the FAD gene is most likely located near D21S13/S16, closer to the centromere.