The p53 gene is currently thought to be a tumor suppressor gene, and its alterations have been suggested to be involved in the pathogenesis of several human malignancies, including some leukemias and lymphomas. We present here evidence for the possible involvement of p53 gene mutations in the myelodysplastic syndrome (MDS), although the incidence is relatively low. Forty-four patients with MDS and six patients with overt leukemias that developed from MDS were studied for p53 gene alterations using reverse transcriptase-polymerase chain reaction, single-strand conformation polymorphism analysis, and nucleotide sequencing. Three patients with MDS (2 RAEB and 1 RAEB in T) had missense point mutations in the conserved regions of the p53 coding sequence. Furthermore, expression of the wild-type p53 mRNA was not detected in these three patients. The probable absence of normal p53 function in the three cases studied here suggests that alterations in the p53 gene may occasionally play a role in MDS. These three MDS patients with p53 gene mutations and an MDS-derived erythroleukemia cell line that we had previously reported to carry a p53 gene mutation showed no N-ras gene mutations, suggesting heterogeneity in the oncogenic mechanism of MDS.
Expression patterns of paralogous genes in the functionally homologous cells sometimes show differences across species. However, no reasonable explanation for the mechanism underlying such phenomena has been discovered. To understand this mechanism, the present study focused on the hypophysiotropic GnRH neurons in vertebrates as a model. These neurons express eithergnrh1orgnrh3paralogs depending on species, and apparent switching of the expressed paralogs in them occurred at least four times in vertebrate evolution. First, we found redundant expressions ofgnrh1andgnrh3in a single neuron in piranha and hypothesized that this situation may indicate an ancestral condition. We tested this hypothesis by examining the activity of piranhagnrh1/gnrh3enhancers in zebrafish and medaka, in which the twognrhparalogs are not co-expressed. Here, thegnrh1/gnrh3enhancer of piranha induced reporter RFP/GFP co-expressions in a single hypophysiotropic GnRH neuron in both zebrafish and medaka. From these results, we propose that long-lasting (~550 My) redundancy aftergnrh1/3duplication in 1R/2R WGD may be the key to apparent switching of the paralog usage among the present-day species. Moreover, interspecies analyses of enhancers indicated that the loss of enhancers rather than changes in trans-regulatory elements drove the role-division of these paralogs.
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