Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice

<p>Abstract</p> <p>Background</p> <p>Several neurodegenerative diseases are influenced by complex genetics that affect an individual's susceptibility, disease severity, and rate of progression. One such disease is glaucoma, a chronic neurodegenerative condition of...

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Main Authors: Schlamp Cassandra L, Semaan Sheila J, Li Yan, Nickells Robert W
Format: Article
Language:English
Published: BMC 2007-03-01
Series:BMC Neuroscience
Online Access:http://www.biomedcentral.com/1471-2202/8/19
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spelling doaj-9b25d0e6f6df480fabedbbc1b876d73b2020-11-25T02:28:09ZengBMCBMC Neuroscience1471-22022007-03-01811910.1186/1471-2202-8-19Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in miceSchlamp Cassandra LSemaan Sheila JLi YanNickells Robert W<p>Abstract</p> <p>Background</p> <p>Several neurodegenerative diseases are influenced by complex genetics that affect an individual's susceptibility, disease severity, and rate of progression. One such disease is glaucoma, a chronic neurodegenerative condition of the eye that targets and stimulates apoptosis of CNS neurons called retinal ganglion cells. Since ganglion cell death is intrinsic, it is reasonable that the genes that control this process may contribute to the complex genetics that affect ganglion cell susceptibility to disease. To determine if genetic background influences susceptibility to optic nerve damage, leading to ganglion cell death, we performed optic nerve crush on 15 different inbred lines of mice and measured ganglion cell loss. Resistant and susceptible strains were used in a reciprocal breeding strategy to examine the inheritance pattern of the resistance phenotype. Because earlier studies had implicated <it>Bax </it>as a susceptibility allele for ganglion cell death in the chronic neurodegenerative disease glaucoma, we conducted allelic segregation analysis and mRNA quantification to assess this gene as a candidate for the cell death phenotype.</p> <p>Results</p> <p>Inbred lines showed varying levels of susceptibility to optic nerve crush. DBA/2J mice were most resistant and BALB/cByJ mice were most susceptible. F1 mice from these lines inherited the DBA/2J phenotype, while N2 backcross mice exhibited the BALB/cByJ phenotype. F2 mice exhibited an intermediate phenotype. A Wright Formula calculation suggested as few as 2 dominant loci were linked to the resistance phenotype, which was corroborated by a Punnett Square analysis of the distribution of the mean phenotype in each cross. The levels of latent <it>Bax </it>mRNA were the same in both lines, and <it>Bax </it>alleles did not segregate with phenotype in N2 and F2 mice.</p> <p>Conclusion</p> <p>Inbred mice show different levels of resistance to optic nerve crush. The resistance phenotype is heritable in a dominant fashion involving relatively few loci. <it>Bax </it>was excluded as a candidate gene for this phenotype.</p> http://www.biomedcentral.com/1471-2202/8/19
collection DOAJ
language English
format Article
sources DOAJ
author Schlamp Cassandra L
Semaan Sheila J
Li Yan
Nickells Robert W
spellingShingle Schlamp Cassandra L
Semaan Sheila J
Li Yan
Nickells Robert W
Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
BMC Neuroscience
author_facet Schlamp Cassandra L
Semaan Sheila J
Li Yan
Nickells Robert W
author_sort Schlamp Cassandra L
title Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
title_short Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
title_full Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
title_fullStr Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
title_full_unstemmed Dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
title_sort dominant inheritance of retinal ganglion cell resistance to optic nerve crush in mice
publisher BMC
series BMC Neuroscience
issn 1471-2202
publishDate 2007-03-01
description <p>Abstract</p> <p>Background</p> <p>Several neurodegenerative diseases are influenced by complex genetics that affect an individual's susceptibility, disease severity, and rate of progression. One such disease is glaucoma, a chronic neurodegenerative condition of the eye that targets and stimulates apoptosis of CNS neurons called retinal ganglion cells. Since ganglion cell death is intrinsic, it is reasonable that the genes that control this process may contribute to the complex genetics that affect ganglion cell susceptibility to disease. To determine if genetic background influences susceptibility to optic nerve damage, leading to ganglion cell death, we performed optic nerve crush on 15 different inbred lines of mice and measured ganglion cell loss. Resistant and susceptible strains were used in a reciprocal breeding strategy to examine the inheritance pattern of the resistance phenotype. Because earlier studies had implicated <it>Bax </it>as a susceptibility allele for ganglion cell death in the chronic neurodegenerative disease glaucoma, we conducted allelic segregation analysis and mRNA quantification to assess this gene as a candidate for the cell death phenotype.</p> <p>Results</p> <p>Inbred lines showed varying levels of susceptibility to optic nerve crush. DBA/2J mice were most resistant and BALB/cByJ mice were most susceptible. F1 mice from these lines inherited the DBA/2J phenotype, while N2 backcross mice exhibited the BALB/cByJ phenotype. F2 mice exhibited an intermediate phenotype. A Wright Formula calculation suggested as few as 2 dominant loci were linked to the resistance phenotype, which was corroborated by a Punnett Square analysis of the distribution of the mean phenotype in each cross. The levels of latent <it>Bax </it>mRNA were the same in both lines, and <it>Bax </it>alleles did not segregate with phenotype in N2 and F2 mice.</p> <p>Conclusion</p> <p>Inbred mice show different levels of resistance to optic nerve crush. The resistance phenotype is heritable in a dominant fashion involving relatively few loci. <it>Bax </it>was excluded as a candidate gene for this phenotype.</p>
url http://www.biomedcentral.com/1471-2202/8/19
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