Jamie S. Depelteau scite author profile

Inherited hydrocephalus in humans has received very little attention, most probably because known occurrences are sporadic and systematic investigation is difficult. The H-Tx rat, one of a number of rodent strains with inherited hydrocephalus, has a complex inheritance with more than one postulated susceptibility gene and 40% penetrance. The aim of this study was to perform a genome-wide scan on backcross progeny derived from H-Tx and Fisher F344 rats, to identify genomic regions associated with hydrocephalus. Penetrance of hydrocephalus in (H-Tx x F344) F1 x H-Tx was 12.3%. All severely hydrocephalic progeny (n = 185) and a subset of normal progeny (n = 128) were screened with 110 simple sequence length polymorphisms (SSLPs) with 83% coverage of the genome. A significant susceptibility locus was found on chromosome (Chr) 11 (LOD = 3.1). Three loci with suggestive linkage were found on Chr 17 (LOD = 2.4), on Chr 9 (LOD = 1.94), and on Chr 19 (LOD = 1.91). For the loci on Chr 11 and 19, hydrocephalus was associated with the heterozygous genotype, while the other two were recessive. Although none of the four loci was essential for the hydrocephalic phenotype, the additive effects of two, three, or four loci increased the penetrance in a linear fashion. Altogether these four loci accounted for 13.5% of the total variance. It is concluded that hydrocephalus in the H-Tx rat is associated with two, possibly four genetic loci, but that there may be additional undefined genetic and environmental influences.

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The Frequency of Inherited Hydrocephalus Is Influenced by Intrauterine Factors in H-Tx Rats

Jones

Depelteau

Carter

et al. 2002

Experimental Neurology

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How advances in cryo-electron tomography have contributed to our current view of bacterial cell biology

Liedtke

Depelteau

Briegel

2022

Journal of Structural Biology: X

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Untitled

Jones

Carter

Depelteau

et al. 2001

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Infantile hydrocephalus results in neurological deficits despite surgical treatment. Fetal-onset hydrocephalus in humans can be caused by developmental abnormalities that are genetic in origin. The H-Tx rat has hydrocephalus with 40% penetrance and a polygenic inheritance. A backcross with Fisher F344 inbred strain produced a total of 1500 progeny with 17.5% hydrocephalus. Of these, only 12.3% had overt disease and the remaining 5.2% had mild disease seen only after fixation of the brain. Disease severity was measured for all affected rats using the ratio of ventricle to brain width. The severity measure confirmed that there are two populations, mild hydrocephalus (M; ratio, <0.4) and severe hydrocephalus (S; ratio, >0.4), with a small overlap. For genotyping, the two populations were each subdivided based on the ratio measure to give a total of four groups of increasing severity. After an initial genome scan with microsatellite markers, all hydrocephalic rats and a subset of 128 normal progeny were genotyped on chromosomes 4, 9, 10, 11, 17 and 19. Rats in the mildest group had association with a locus on chromosome 4 (LOD 2.4), whereas those in the severest group were associated with a locus on chromosome 17 (LOD 3.2). All except the least affected group were associated with a heterozygous genotype on chromosomes 10 and 11 (LOD 4.5 and 3.5, respectively). Chromosomes 9 and 19 had weak linkage to hydrocephalus. The number of hydrocephalus-associated loci carried by each rat correlated with the severity of disease. It is concluded that the severity of hydrocephalus in H-Tx is influenced by different genetic loci.

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