2020
Interplay between APC and ALDH1B1 in a newly developed mouse model of colorectal cancer
Golla JP, Kandyliari A, Tan WY, Chen Y, Orlicky DJ, Thompson DC, Shah YM, Vasiliou V. Interplay between APC and ALDH1B1 in a newly developed mouse model of colorectal cancer. Chemico-Biological Interactions 2020, 331: 109274. PMID: 33007288, PMCID: PMC9201852, DOI: 10.1016/j.cbi.2020.109274.Peer-Reviewed Original ResearchConceptsColorectal cancerColonic adenomasPresent preliminary studyMouse modelConsecutive daysLarge colonic adenomaPresence of adenomasApc mouse modelColon tumor growthMouse xenograft modelColon epithelial cellsFurther mechanistic studiesCancer mortalityKO miceLeading causeColorectal adenomasCRC developmentImmunohistochemical analysisXenograft modelTumor growthColorectal tumorigenesisAdenomasExpression scoreMale ApcMice
2018
Engineered Animal Models Designed for Investigating Ethanol Metabolism, Toxicity and Cancer
Marshall S, Chen Y, Singh S, Berrios-Carcamo P, Heit C, Apostolopoulos N, Golla JP, Thompson DC, Vasiliou V. Engineered Animal Models Designed for Investigating Ethanol Metabolism, Toxicity and Cancer. Advances In Experimental Medicine And Biology 2018, 1032: 203-221. PMID: 30362100, PMCID: PMC6743736, DOI: 10.1007/978-3-319-98788-0_14.ChaptersMeSH KeywordsAcetaldehydeAlcohol DehydrogenaseAnimalsCytochrome P-450 CYP2E1Disease Models, AnimalEthanolMiceNeoplasmsConceptsExact molecular mechanismsMouse modelCellular proteinsEthanol-induced tissue injuryEthanol metabolismEngineered Animal ModelsMolecular mechanismsAldehyde dehydrogenasesLong-term alcohol abuseAlcohol-induced diseasesFurther tissue damageAntioxidant glutathioneImportant mouse modelsCurrent understandingLeading causeTissue injuryIntracellular generationAlcohol abuseAlcohol consumptionAnimal modelsPathogenic eventsPathophysiological consequencesTissue damageMetabolismDNA adducts
2015
St. John's Wort Attenuates Colorectal Carcinogenesis in Mice through Suppression of Inflammatory Signaling
Manna SK, Golla S, Golla JP, Tanaka N, Cai Y, Takahashi S, Krausz KW, Matsubara T, Korboukh I, Gonzalez FJ. St. John's Wort Attenuates Colorectal Carcinogenesis in Mice through Suppression of Inflammatory Signaling. Cancer Prevention Research 2015, 8: 786-795. PMID: 26069204, PMCID: PMC4584416, DOI: 10.1158/1940-6207.capr-14-0113.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnticarcinogenic AgentsAzoxymethaneCarcinogenesisCell Transformation, NeoplasticColonColorectal NeoplasmsDietDietary SupplementsDisease Models, AnimalExtracellular Signal-Regulated MAP KinasesHypericumInflammationMaleMiceNF-kappa BOligonucleotide Array Sequence AnalysisOligonucleotidesPlant ExtractsSignal TransductionConceptsDiet-fed miceSJW extractColorectal carcinogenesisAzoxymethane-induced colorectal carcinogenesisAIN-93G dietLong-term treatment regimensAzoxymethane-treated miceEffect of SJWNuclear factor kappa BBody weight lossWort extractTotal tumor volumeFactor kappa BSt. John's wort extractDose-dependent mannerAzoxymethane treatmentSJW administrationRectal bleedingOverall survivalTreatment regimensColorectal cancerProinflammatory processesTumor multiplicityLarge tumorsCholesterol levels