Positional Cloning of Disease Causing Genes : A Genetic Study of Obesity, Ichthyosis Prematurity Syndrome and Meniere's Disease

Klar, Joakim

January 2005

<p>Positional cloning is a method to identify genes from their position in the genome without prior knowledge about function. We used this approach to investigate the basis for three distinct genetic disorders; Obesity, Ichthyosis Prematurity Syndrome and Meniere's disease.</p><p>Obesity appears when energy intake exceeds energy expenditure which leads to an abnormal accumulation of fat in the adipocyte tissue. We have studied a family with a balanced chromosomal translocation t(4;15) segregating with severe obesity. The chromosomal breakpoints create a fusion gene involving the gene for isoform 1 of RAR-related orphan receptor A (<i>RORa1</i>) which is implicated in the regulation of adipogenesis and lipoprotein metabolism. We hypothesize that the obesity in this family is caused by haploinsufficiency of this gene or a gain of function of the fusion gene.</p><p>Ichthyosis prematurity syndrome (IPS) is a rare skin disorder belonging to a group of autosomal recessive congenital ichthyosis. We have mapped the locus for IPS to chromosome 9q34. Within the IPS locus, we identified a core haplotype with a high carrier frequency among affected, which indicate a possible founder mutation for the disease. The minimal shared region in affected patients contains seven genes which are candidates for IPS.</p><p>Meniere's disease (MD) is characterised by spontaneous attacks of vertigo, fluctuating sensorineural low frequency hearing loss, aural fullness, and tinnitus. We mapped the MD locus to chromosome 12p13 using three Swedish families. The linked region is 463 kb, containing only one gene, a phosphoinositide-3-kinase (<i>PIK3C2G</i>). Involvement of phosphatidylinositol 3-kinases (PI-3K) in the intra cellular signalling cascades of cells in mammalian balance epithelia makes this gene a good candidate gene for MD.</p>

Genetics

Positional cloning

Obesity

Ichthyosis

Meniere’s disease

RORa

PIK3C2G

Genetik

Clinical genetics

Klinisk genetik

Clinical and Genetic Studies of Hearing Impairment

Frykholm, Carina

January 2007

<p>Monogenic disorders offer a possibility for studies of genetic disturbances in hearing impairment—a knowledge which could be essential for development of future treatment options. In this thesis, the underlying genetic disturbances in neurofibromatosis 2 (NF2) and familial Meniere’s disease (FMD) were evaluated, and familial X-linked hearing impairment was described from a clinical point of view. </p><p>In paper I, constitutional DNA from 116 individuals with NF2 of variable severity was studied using the array-CGH method focusing on a 7.6-Mb area surrounding the NF2 gene on chromosome 22q. Deletions were found in 20.7% of samples. In mild NF2, the deletions were small, but variable sizes of deletions were found in cases that were moderately or severely affected. Disease phenotype could not be predicted from the size of the deletions.</p><p>In papers II and III, a single five-generation family with autosomal dominant FMD was described. Anticipation concerning age of onset was observed. Genome scan revealed five candidate gene regions with a LOD score of > 1. Two additional families with autosomal dominant MD were analyzed for linkage to these five regions. A cumulative Zmax of 3.46 was obtained for a single 463-kb region on chromosome 12p12.3, containing only one known gene: PIK3C2G. This encodes a protein with a proposed role in hair cell regeneration in mammalian ears. No mutations were found in protein-coding sequences or exon-intron borders. In two of the three families, a shared haplotype, suggested common ancestry, was found to extend over 1.7 Mb, which could be a genomic region of importance for FMD.</p><p>In paper IV, a family in which five males displayed progressive low- and mid-frequency hearing impairment from the first or second decade was described. Female carriers were affected by a high-frequency hearing impairment from the fourth decade. The family could represent a novel X-linked dominant audiophenotype.</p>

Otorhinolaryngology

NF2

array-CGH

Meniere’s disease

PIK3C2G

X-linked

progressive

hearing impairment

Otorhinolaryngologi

Positional Cloning of Disease Causing Genes : A Genetic Study of Obesity, Ichthyosis Prematurity Syndrome and Meniere's Disease

Klar, Joakim

January 2005

Positional cloning is a method to identify genes from their position in the genome without prior knowledge about function. We used this approach to investigate the basis for three distinct genetic disorders; Obesity, Ichthyosis Prematurity Syndrome and Meniere's disease. Obesity appears when energy intake exceeds energy expenditure which leads to an abnormal accumulation of fat in the adipocyte tissue. We have studied a family with a balanced chromosomal translocation t(4;15) segregating with severe obesity. The chromosomal breakpoints create a fusion gene involving the gene for isoform 1 of RAR-related orphan receptor A (RORa1) which is implicated in the regulation of adipogenesis and lipoprotein metabolism. We hypothesize that the obesity in this family is caused by haploinsufficiency of this gene or a gain of function of the fusion gene. Ichthyosis prematurity syndrome (IPS) is a rare skin disorder belonging to a group of autosomal recessive congenital ichthyosis. We have mapped the locus for IPS to chromosome 9q34. Within the IPS locus, we identified a core haplotype with a high carrier frequency among affected, which indicate a possible founder mutation for the disease. The minimal shared region in affected patients contains seven genes which are candidates for IPS. Meniere's disease (MD) is characterised by spontaneous attacks of vertigo, fluctuating sensorineural low frequency hearing loss, aural fullness, and tinnitus. We mapped the MD locus to chromosome 12p13 using three Swedish families. The linked region is 463 kb, containing only one gene, a phosphoinositide-3-kinase (PIK3C2G). Involvement of phosphatidylinositol 3-kinases (PI-3K) in the intra cellular signalling cascades of cells in mammalian balance epithelia makes this gene a good candidate gene for MD.

Genetics

Positional cloning

Obesity

Ichthyosis

Meniere’s disease

RORa

PIK3C2G

Genetik

Clinical genetics

Klinisk genetik

Clinical and Genetic Studies of Hearing Impairment

Frykholm, Carina

January 2007

Monogenic disorders offer a possibility for studies of genetic disturbances in hearing impairment—a knowledge which could be essential for development of future treatment options. In this thesis, the underlying genetic disturbances in neurofibromatosis 2 (NF2) and familial Meniere’s disease (FMD) were evaluated, and familial X-linked hearing impairment was described from a clinical point of view. In paper I, constitutional DNA from 116 individuals with NF2 of variable severity was studied using the array-CGH method focusing on a 7.6-Mb area surrounding the NF2 gene on chromosome 22q. Deletions were found in 20.7% of samples. In mild NF2, the deletions were small, but variable sizes of deletions were found in cases that were moderately or severely affected. Disease phenotype could not be predicted from the size of the deletions. In papers II and III, a single five-generation family with autosomal dominant FMD was described. Anticipation concerning age of onset was observed. Genome scan revealed five candidate gene regions with a LOD score of &gt; 1. Two additional families with autosomal dominant MD were analyzed for linkage to these five regions. A cumulative Zmax of 3.46 was obtained for a single 463-kb region on chromosome 12p12.3, containing only one known gene: PIK3C2G. This encodes a protein with a proposed role in hair cell regeneration in mammalian ears. No mutations were found in protein-coding sequences or exon-intron borders. In two of the three families, a shared haplotype, suggested common ancestry, was found to extend over 1.7 Mb, which could be a genomic region of importance for FMD. In paper IV, a family in which five males displayed progressive low- and mid-frequency hearing impairment from the first or second decade was described. Female carriers were affected by a high-frequency hearing impairment from the fourth decade. The family could represent a novel X-linked dominant audiophenotype.

Otorhinolaryngology

NF2

array-CGH

Meniere’s disease

PIK3C2G

X-linked

progressive

hearing impairment

Otorhinolaryngologi