Gabrielle S. Le Provost scite author profile

Transgenic nmice with a A shuttle vector containing a lacI target gene were generated for use as a shortterm, in vivo mutagenesis assay. The gene is recovered from the treated mice by exposing mouse genomic DNA to in vitro packaging extracts and plating the rescued phage on agar plates containing 5-bromo-4-chloro-3-indolyl (3-D-galactopyranoside (X-Gal). Phage with mutations in the lacl gene form blue plaques, whereas phage with a nonmutated lacl form colorless plaques. Spontaneous background mutant rates using this system range from 0.6 x 10-S to 1.7 x i0-0, depending upon tissue analyzed, with germ cells exhibiting less than one-third the background rate of somatic tissue. Treatment of the miceor cyclophosphamide caused an induction of mutations over background. Recovery of the lacI target for sequence analysis was performed by genetic excision of a plasmid from the phage using partial filamentous phage origins. The predominant mutations identified from untreated and treated populations were base substitutions. Although it has been shown by others that 70% of all spontaneous mutations within the laI gene, when replicated in Escherichia cohi, occur at a hot spot located at bases 620-632, only 1 of 21 spontaneous mutations has been identified in this region in the transgenic mouse system. In addition, 5 of 9 spontaneous transitions analyzed occur at CpG dinucleotides, whereas no transition mutations were identified at the prokaryotic deamination hot spots occurring at dcm sites (CCA/TGG) within the WaI gene. For EtNU, approximately equal amounts of transitions and transversions were observed, contrasting with B[a]P-induced mutations, in which only transversions were obtained. In addition, B[a]P mutagenesis showed a predominance ofmutations (81 %) involving cytosines and/or guanines, consistent with its known mode of action. The discovery of a spontaneous mutation spectrum different from that of bacterial assays, coupled with the concordance of EtNU and B[a]P base mutations with the known mechanisms of activity for these mutagens, suggests that this transgenic system will be useful as a short-term, in vivo system for mutagen assessment and analysis of mechanisms leading to mutations.The lacd gene has been used extensively as a target for the identification and analysis of spontaneous and induced mutations, due in part to the ease of using a calorimetric assay to rapidly screen for mutations. Genetic and sequence analysis of spontaneous and induced mutations detected in several systems utilizing lacd (1-5) has resulted in an extensive accumulation of data regarding the sequence specificity of spontaneous and induced mutations in lacd, which can be of considerable comparative value through the use of the lacd target gene in whole animal assay systems.To combine the cost-saving aspects of short-term assays with the predictive power of whole animal assays, we previously described the development of a system that depends upon efficient recovery of a A phage shuttle vector from transgenic mouse genomic DNA thro...

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The HIF-1–Inducible Lysyl Oxidase Activates HIF-1 via the Akt Pathway in a Positive Regulation Loop and Synergizes with HIF-1 in Promoting Tumor Cell Growth

Pez

et al. 2011

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Adaptation to hypoxia is a driving force for tumor progression that leads to therapy resistance and poor clinical outcome. Hypoxic responses are mainly mediated by hypoxia-inducible transcription factor-1 (HIF-1). One critical HIF-1 target mediating tumor progression is lysyl oxidase (LOX), which catalyzes cross-linking of collagens and elastin in the extracellular matrix, thereby regulating tissue tensile strength. Paradoxically, LOX has been reported to be both upregulated and downregulated in cancer cells, especially in colorectal cancer. Thus, we hypothesized that LOX might regulate expression of HIF-1 to create a self-timing regulatory circuit. Using human colorectal carcinoma cell lines in which HIF-1 and LOX expression could be modulated, we showed that LOX induction enhanced HIF-1 expression, whereas LOX silencing reduced it. Mechanistic investigations revealed that LOX activated the PI3K (phosphoinositide 3-kinase)-Akt signaling pathway, thereby upregulating HIF-1a protein synthesis in a manner requiring LOX-mediated hydrogen peroxide production. Consistent with these results, cancer cell proliferation was stimulated by secreted and active LOX in an HIF-1a-dependent fashion. Furthermore, nude mice xenograft assays established that HIF-1 potentiated LOX action on tumor growth in vivo. Taken together, these findings provide compelling evidence that LOX and HIF-1 act in synergy to foster tumor formation, and they suggest that HIF-1/LOX mutual regulation is a pivotal mechanism in the adaptation of tumor cells to hypoxia.

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Gabrielle S. Le Provost

Spectra of spontaneous and mutagen-induced mutations in the lacI gene in transgenic mice.

The HIF-1–Inducible Lysyl Oxidase Activates HIF-1 via the Akt Pathway in a Positive Regulation Loop and Synergizes with HIF-1 in Promoting Tumor Cell Growth

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