Mutation, Point Clinical Trial
Official title:
Elucidating the Molecular and Biochemical Basis of the Human AhR-mutation Disease
In a previous study, we have identified a consanguineous family from Northern Israel with three children affected by idiopathic infantile nystagmus (IIN) and foveal hypoplasia, which follow an autosomal recessive mode of inheritance of AhR gene. in this study we will determine whether the disease phenotype is the consequence of a decrease in or absence of AHR-induced AHH activity
In a previous study, we have identified a consanguineous family from Northern Israel with
three children affected by idiopathic infantile nystagmus (IIN) and foveal hypoplasia, which
follow an autosomal recessive mode of inheritance of AhR gene. in this study we will:
1. To determine whether the disease phenotype is the consequence of a decrease in or
absence of AHR-induced AHH activity. To this end, basal and ligand-mediated AHH enzyme
activity will be compared in heterozygotic and homozygotic family members versus healthy
volunteers.
2. To examine steady state protein levels of the AHR protein in cells of homo- and
heterozygotic patients versus those of healthy volunteers. If no mutant protein is
detected, we will determine the effect of the mutation on mRNA stability.
3. To analyze steady state levels of related partner proteins (such as ANRT) and proteins
levels of transcriptional targets (AHH) in heterozygotic and homozygotic family members
versus healthy volunteers.
4. To investigate the ability of the mutant allele to induce transcriptional activation in
an engineered yeast test system. We will use a yeast strain engineered to contain human
AHR and AHR nuclear translocator together with a reporter gene to investigate whether
the mutation interferes with transcription activation.
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| Status | Clinical Trial | Phase | |
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| Recruiting |
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