G. Karbani scite author profile

The complete inability to sense pain in an otherwise healthy individual is a very rare phenotype. In three consanguineous families from northern Pakistan, we mapped the condition as an autosomal-recessive trait to chromosome 2q24.3. This region contains the gene SCN9A, encoding the alpha-subunit of the voltage-gated sodium channel, Na(v)1.7, which is strongly expressed in nociceptive neurons. Sequence analysis of SCN9A in affected individuals revealed three distinct homozygous nonsense mutations (S459X, I767X and W897X). We show that these mutations cause loss of function of Na(v)1.7 by co-expression of wild-type or mutant human Na(v)1.7 with sodium channel beta(1) and beta(2) subunits in HEK293 cells. In cells expressing mutant Na(v)1.7, the currents were no greater than background. Our data suggest that SCN9A is an essential and non-redundant requirement for nociception in humans. These findings should stimulate the search for novel analgesics that selectively target this sodium channel subunit.

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A centrosomal mechanism involving CDK5RAP2 and CENPJ controls brain size

Bond

et al. 2005

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Autosomal recessive primary microcephaly is a potential model in which to research genes involved in human brain growth. We show that two forms of the disorder result from homozygous mutations in the genes CDK5RAP2 and CENPJ. We found neuroepithelial expression of the genes during prenatal neurogenesis and protein localization to the spindle poles of mitotic cells, suggesting that a centrosomal mechanism controls neuron number in the developing mammalian brain.

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Identification of Microcephalin, a Protein Implicated in Determining the Size of the Human Brain

Jackson

Eastwood

Bell

et al. 2002

The American Journal of Human Genetics

384

345

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Primary microcephaly (MIM 251200) is an autosomal recessive neurodevelopmental condition in which there is a global reduction in cerebral cortex volume, to a size comparable with that of early hominids. We previously mapped the MCPH1 locus, for primary microcephaly, to chromosome 8p23, and here we report that a gene within this interval, encoding a BRCA1 C-terminal domain-containing protein, is mutated in MCPH1 families sharing an ancestral 8p23 haplotype. This gene, microcephalin, is expressed in the developing cerebral cortex of the fetal brain. Further study of this and related genes may provide important new insights into neocortical development and evolution.

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Consanguineous marriages, pearls and perils: Geneva International Consanguinity Workshop Report

Hamamy

Antonarakis

Cavalli-Sforza

et al. 2011

Genetics in Medicine

259

244

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Approximately 1.1 billion people currently live in countries where consanguineous marriages are customary, and among them one in every three marriages is between cousins. Opinions diverge between those warning of the possible health risks to offspring and others who highlight the social benefits of consanguineous marriages. A consanguinity study group of international experts and counselors met at the Geneva International ConsanguinityWorkshop from 3 rd to 7 th May 2010 to discuss the known and presumptive risks and benefits of close kin marriages, and to identify important future areas for research on consanguinity.The group highlighted the importance of evidence-based counselling recommendations for consanguineous marriages, and of undertaking both genomic and social research in defining the various influences and outcomes of consanguinity. Technological advances infor rapid high-throughput genome sequencing (HTS), and for the identification of copy number variants by comparative genomic hybridization (aCGH) offer a significantn unprecedented opportunity to identify genotype-phenotype correlations focusing on autozygosity, the hallmark of consanguinity. The ongoing strong preferential culture of close kin marriages in many societies, and among migrant communities in Western countries, merits an equivalently detailed assessment of the social and genetic benefits of consanguinity in future studies.

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The Essential Role of Centrosomal NDE1 in Human Cerebral Cortex Neurogenesis

Bakırcıoğlu¹,

Carvalho²,

Khurshid³

et al. 2011

The American Journal of Human Genetics

148

188

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We investigated three families whose offspring had extreme microcephaly at birth and profound mental retardation. Brain scans and postmortem data showed that affected individuals had brains less than 10% of expected size (≤10 standard deviation) and that in addition to a massive reduction in neuron production they displayed partially deficient cortical lamination (microlissencephaly). Other body systems were apparently unaffected and overall growth was normal. We found two distinct homozygous mutations of NDE1, c.83+1G>T (p.Ala29GlnfsX114) in a Turkish family and c.684_685del (p.Pro229TrpfsX85) in two families of Pakistani origin. Using patient cells, we found that c.83+1G>T led to the use of a novel splice site and to a frameshift after NDE1 exon 2. Transfection of tagged NDE1 constructs showed that the c.684_685del mutation resulted in a NDE1 that was unable to localize to the centrosome. By staining a patient-derived cell line that carried the c.83+1G>T mutation, we found that this endogeneously expressed mutated protein equally failed to localize to the centrosome. By examining human and mouse embryonic brains, we determined that NDE1 is highly expressed in neuroepithelial cells of the developing cerebral cortex, particularly at the centrosome. We show that NDE1 accumulates on the mitotic spindle of apical neural precursors in early neurogenesis. Thus, NDE1 deficiency causes both a severe failure of neurogenesis and a deficiency in cortical lamination. Our data further highlight the importance of the centrosome in multiple aspects of neurodevelopment.

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G. Karbani

An SCN9A channelopathy causes congenital inability to experience pain

A centrosomal mechanism involving CDK5RAP2 and CENPJ controls brain size

Identification of Microcephalin, a Protein Implicated in Determining the Size of the Human Brain

Consanguineous marriages, pearls and perils: Geneva International Consanguinity Workshop Report

The Essential Role of Centrosomal NDE1 in Human Cerebral Cortex Neurogenesis

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