The Bloom's syndrome (BS) gene, BLM, plays an important role in the maintenance of genomic stability in somatic cells. A candidate for BLM was identified by direct selection of a cDNA derived from a 250 kb segment of the genome to which BLM had been assigned by somatic crossover point mapping. In this novel mapping method, cells were used from persons with BS that had undergone intragenic recombination within BLM. cDNA analysis of the candidate gene identified a 4437 bp cDNA that encodes a 1417 amino acid peptide with homology to the RecQ helicases, a subfamily of DExH box-containing DNA and RNA helicases. The presence of chain-terminating mutations in the candidate gene in persons with BS proved that it was BLM.
Accumulation of macrophage foam cells in atherosclerotic blood vessel intima is a critical component of atherogenesis mediated by scavenger receptor-dependent internalization of oxidized LDL. We demonstrated by coimmunoprecipitation and pull-down assays that the macrophage scavenger receptor CD36 associates with a signaling complex containing Lyn and MEKK2. The MAP kinases JNK1 and JNK2 were specifically phosphorylated in macrophages exposed to oxLDL. Using cells isolated from SRA, TLR2, or CD36 null mice, and phospholipid ligands specific for either SRA or CD36, we showed that JNK activation was mediated by CD36. Both foam cell formation and activation of JNK2 in hyperlipidemic mice were diminished in the absence of CD36. Furthermore, inhibition of Src or JNK blocked oxLDL uptake and inhibited foam cell formation in vitro and in vivo. These findings show that a specific CD36-dependent signaling pathway initiated by oxLDL is necessary for foam cell formation and identify potential targets for antiatherosclerosis therapy.
Bloom syndrome (BS) is more frequent in the Ashkenazic Jewish population than in any other. There the predominant mutation, referred to as "blmAsh," is a 6-bp deletion and 7-bp insertion at nucleotide position 2281 in the BLM cDNA. Using a convenient PCR assay, we have identified blmAsh on 58 of 60 chromosomes transmitted by Ashkenazic parents to persons with BS. In contrast, in 91 unrelated non-Ashkenazic persons with BS whom we examined, blmAsh was identified only in 5, these coming from Spanish-speaking Christian families from the southwestern United States, Mexico, or El Salvador. These data, along with haplotype analyses, show that blmAsh was independently established through a founder effect in Ashkenazic Jews and in immigrants to formerly Spanish colonies. This striking observation underscores the complexity of Jewish history and demonstrates the importance of migration and genetic drift in the formation of human populations.
We have employed the baculovirus expression system for the production of insect cell membranes having GABA/benzodiazepine binding sites. Three recombinant baculoviruses each harboring a different GABAA receptor cDNA were introduced into insect cells by simultaneous infection. Infected cells expressed GABA responsive Cl- channels and benzodiazepine binding sites with the same pharmacological specificity as animal cells expressing these receptor subunits.
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