Recent studies have shown that all three subtypes of alpha2-adrenergic receptor (alpha2-AR) are found in brain. The purpose of this study was to map the subtype localization of the alpha2A- and alpha2B-ARs in brain structures. RNase protection shows that both the alpha2A- and alpha2B-ARs are detectable in cortex, cerebellum, pons-medulla, and hypothalamus. We tested probes derived from the alpha2A- and alpha2B-AR cDNAs on cell lines that express each of the alpha2-AR subtypes to establish the subtype specificity of these probes for in situ hybridization. Then we used the alpha2A- and alpha2B-AR probes for in situ hybridization on sagittal and coronal sections of rat brain. Both alpha2A and alpha2B mRNA were detected throughout the brain. Overall, there appears to be a greater expression of message for alpha2A- than alpha2B-AR in most brain areas, with the exception of the thalamus. Developing these probes for in situ hybridization is an important step for further studies on the exact role of the alpha2-AR subtypes in neurons that modulate cardiovascular function.
The SWI2/SNF2 gene family has been implicated in a wide variety of processes, involving regulation of DNA structure and chromatin configuration, mitotic chromosome segregation, and DNA repair. Here we report the characterization of the Zbu1 gene, also known as HIP116, located on human chromosome band 3q25, which encodes a DNA-binding member of this superfamily. Zbu1 was isolated in this study by its affinity for a site in the myosin light chain 1/3 enhancer. The protein has single-stranded DNA-dependent ATPase activity, includes seven helicase motifs, and a RING finger motif that is shared exclusively by the RAD5, spRAD8, and RAD16 family members. During mouse embryogenesis, Zbu1 transcripts are detected relatively late in fetal development and increase in neonatal stages, whereas the protein accumulates asynchronously in heart, skeletal muscle, and brain. In adult human tissues, alternatively spliced Zbu1 transcripts are ubiquitous with highest expression in these tissues. Gene expression is also dramatically induced in human tumor lines and in Li-Fraumeni fibroblast cultures, suggesting that it is aberrantly regulated in malignant cells. The developmental profile of Zbu1 gene expression and the association of the protein with a tissue-specific transcriptional regulatory element distinguish it from other members of the SWI2/SNF2 family and suggest novel roles for the Zbu1 gene product.
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