A new model for studying tissue-specific mdr1a gene expression in vivo by live imaging.

Multidrug resistance continues to be a major impediment to successful chemotherapy in cancer patients. One cause of multidrug resistance is enhanced expression of the mdr1 gene, but the precise factors and physiological conditions controlling mdr1 expression are not entirely known. To gain a better understanding of mdr1 transcriptional regulation, we created a unique mouse model that allows noninvasive bioimaging of mdr1 gene expression in vivo and in real time. The model uses a firefly luciferase (fLUC) gene inserted by homologous recombination into the murine mdr1a genetic locus. The inserted fLUC gene is preceded by a neo expression cassette flanked by loxP sites, so that Cre-mediated recombination is required to configure the fLUC gene directly under the control of the endogenous mdr1a promoter. We now demonstrate that the mdr1a.fLUC knock-in is a faithful reporter for mdr1a expression in naive animals, in which fLUC mRNA levels and luminescence intensities accurately parallel endogenous mdr1a mRNA expression. We also demonstrate xenobiotic-inducible regulation of mdr1a.fLUC expression in real time, in parallel with endogenous mdr1a expression, resulting in a more detailed understanding of the kinetics of mdr1a gene induction. This mouse model demonstrates the feasibility of using bioimaging coupled with Cre/loxP conditional knock-in to monitor regulated gene expression in vivo. It represents a unique tool with which to study the magnitude and kinetics of mdr1a induction under a variety of physiologic, pharmacologic, genetic, and environmental conditions.

Isolation and characterisation of two multidrug resistance associated protein genes from maize.

Two genes encoding ATP-binding cassette (ABC) transporters were isolated from the crop plant Zea mays (maize). The clones, designated ZmMRP1 and ZmMRP2, were highly homologous to members of the multidrug resistance associated protein (MRP) subfamily. Genomic Southern analysis and characterisation of bacterial artificial chromosome (BAC) clones demonstrated that both genes are present in two copies in maize, which are located in proximity to each other, suggesting the occurrence of duplication events. The full-length genomic and cDNA sequences of ZmMRP1 and 2 were obtained, permitting analysis of the intron/exon structures and protein domains. Intron positions and phasing were conserved between ZmMRP1 and 2 and their closest Arabidopsis homologues. Both clones contained two copies each of the membrane spanning domains and nucleotide-binding folds diagnostic of the ABC superfamily, and ZmMRP1 contained an additional N-terminal membrane-spanning domain (MSD0) that is typical of MRP transporters but which is lacking in the most closely related Arabidopsis and rice MRPs. In contrast, ZmMRP2 and its closest rice but not Arabidopsis homologues lacked MSD0, suggesting the repeated loss of this domain in MRP family evolution. ZmMRP1 and 2 were expressed in all tissues examined but displayed distinct expression profiles in response to herbicide safeners and pro-oxidants. ZmMRP1 was induced by aminotriazole and to a lesser extent by menadione, whereas ZmMRP2 was expressed at a lower constitutive level and did not exhibit strong induction by any of the compounds tested. The characterisation of these clones represents an important step in the experimental analysis of the MRP subfamily in a monocotyledonous crop plant.

Yield reduction in Brassica napus, B. rapa, B. juncea, and Sinapis alba caused by flea beetle (Phyllotreta cruciferae (Goeze) (Coleoptera: Chrysomelidae)) infestation in northern Idaho.

Phyllotreta cruciferae is an important insect pest of spring-planted Brassica crops, especially during the seedling stage. To determine the effect of early season P. cruciferae infestation on seed yield, 10 genotypes from each of two canola species (Brassica napus L. and Brassica rapa L.) and two mustard species (Brassica juncea L. and Sinapis alba L.) were grown in 2 yr under three different P. cruciferae treatments: (1) no insecticide control; (2) foliar applications of endosulfan; and (3) carbofuran with seed at planting plus foliar application of carbaryl. Averaged over 10 genotypes, B. rapa showed most visible P. cruciferae injury and showed greatest yield reduction without insecticide application. Mustard species (S. alba and B. juncea) showed least visible injury and higher yield without insecticide compared with canola species (B. napus and B. rapa). Indeed, average seed yield of S. alba without insecticide was higher than either B. napus or B. rapa with most effective P. cruciferae control. Significant variation occurred within each species. A number of lines from B. napus, B. juncea, anid S. alba showed less feeding injury and yield reduction as a result of P. cruciferae infestation compared with other lines from the same species examined, thus having potential genetic background for developing resistant cultivars.