grant

Prevention of anal cancer in People Living with HIV (PLWH)

Organization WM S. MIDDLETON MEMORIAL VETERANS HOSPLocation MADISON, UNITED STATESPosted 1 Oct 2021Deadline 30 Sept 2026
VANIHUS FederalResearch GrantFY20261-Phosphatidylinositol 3-Kinase20S Catalytic Proteasome20S Core Proteasome20S Proteasome20S Proteosome21+ years old3-D3-Dimensional3DAIDS VirusAIDS/HIVAcquired Immune Deficiency Syndrome VirusAcquired Immunodeficiency Syndrome VirusAdultAdult HumanAdvanced DevelopmentAffectAnalAnal CancerAnal Intraepithelial NeoplasiaAnal carcinomaAnti-HIV PositivityAntioncogene Protein p53AntiproteasesAnusAnus CancerAnus CarcinomaAssayAutophagocytosisBackBioassayBiological AssayBody TissuesCD4 CellsCD4 Positive T LymphocytesCD4 T cellsCD4 helper T cellCD4 lymphocyteCD4+ T-LymphocyteCD4-Positive LymphocytesCancer InductionCancersCarcinomaCaringCell BodyCell Culture TechniquesCell LineCell SurvivalCell ViabilityCellLineCellsCellular Tumor Antigen P53Cervical dysplasiaCervix DysplasiaClinicClinicalClinical ResearchClinical StudyCollaborationsDataDevelopmentDiagnosisDiseaseDisorderDorsumDrug ScreeningDrug TargetingDysfunctionDysplasiaEndopeptidase InhibitorsEpidermoid CarcinomaEpithelial cancerEpitheliumFK506 Binding Protein 12-Rapamycin Associated Protein 1FKBP12 Rapamycin Complex Associated Protein 1FRAP1FRAP1 geneFRAP2Functional disorderGoalsGreen Fluorescent ProteinsHIVHIV InfectionsHIV PositiveHIV PositivityHIV Protease InhibitorsHIV SeroconversionHIV SeronegativitiesHIV SeronegativityHIV SeropositivityHIV antibody positiveHIV in patientsHIV individualsHIV infected individualsHIV infected personsHIV interventionHIV negativeHIV patientHIV peopleHIV positive individualsHIV positive patientHIV positive peopleHIV therapeuticHIV therapyHIV treatmentHIV viral infectionHIV virus infectionHIV+HIV-1 infectionHIV-1 interventionHIV-1 proteaseHIV-1 therapeuticHIV-1 therapyHIV-1 treatmentHIV/AIDSHIV1 proteaseHPVHPV 16HPV E6HPV E7HPV caused cancerHPV driven cancersHPV induced cancerHPV infectionHPV malignancyHPV positiveHPV preventionHPV(+)HPV+HPV+ cancerHPV-16HPV-Related MalignancyHPV-associated cancerHPV-associated malignancyHPV-related cancerHPV16HTLV-III SeroconversionHTLV-III SeronegativitiesHTLV-III SeronegativityHTLV-III SeropositivityHealth Care SystemsHumanHuman Immunodeficiency Virus therapyHuman Immunodeficiency Virus treatmentHuman Immunodeficiency VirusesHuman Papilloma VirusHuman Papilloma Virus-Related MalignancyHuman Papilloma Virus-Related Malignant NeoplasmHuman Papilloma Virus-associated cancerHuman Papilloma Virus-associated malignancyHuman Papilloma Virus-related cancerHuman PapillomavirusHuman immunodeficiency virus infected patientsHuman immunodeficiency virus positive patientsHuman papilloma virus infectionHuman papilloma virus type 16Human papillomavirus 16Human papillomavirus cancerHuman papillomavirus induced cancerHuman papillomavirus infectionHuman papillomavirus malignancyHuman papillomavirus preventionHuman papillomavirus type 16Human papillomavirus-Related MalignancyHuman papillomavirus-Related Malignant NeoplasmImmune responseImmune systemImmunologic StimulationImmunological StimulationImmunomodulationImmunostimulationIncidenceInfection by HIV-1Infection from HIV-1Infection of HIV-1Infectious Human Wart VirusKaletraKnowledgeLAV-HTLV-IIILaboratoriesLaboratory StudyLesionLinkLong-term infectionLopinavir/RitonavirLymphadenopathy-Associated VirusMacropainMacroxyproteinaseMalignant Anal NeoplasmMalignant Anal TumorMalignant Epithelial NeoplasmsMalignant Epithelial TumorsMalignant NeoplasmsMalignant TumorMalignant Tumor of the AnusMalignant neoplasm of anusMechanistic Target of RapamycinMediatingMethodologyModelingModern ManMolecularMulticatalytic ProteinaseOncogene ProductsOncogene ProteinsOncoprotein p53OncoproteinsP53PI-3 KinasePI3-KinasePI3CGPI3KGammaPI3kPIK3PIK3CGPIK3CG genePLWHPWHPapillomavirus Transforming Protein E6Pathway interactionsPatientsPatients living with HIVPatients suffering from HIVPeptidase InhibitorsPeptide Hydrolase InhibitorsPeptide Peptidohydrolase InhibitorsPeripheralPersonsPhosphatidylinositol 3-KinasePhosphatidylinositol-3-OH KinasePhosphoinositide 3-HydroxykinasePhosphoprotein P53Phosphoprotein pp53PhysiopathologyPlanocellular CarcinomaPopulationPositionPositioning AttributePre-Clinical ModelPreclinical ModelsPreventionProcessPropertyProsomeProtease AntagonistsProtease InhibitorProteasomeProteasome Endopeptidase ComplexProtein TP53Proteinase InhibitorsProteomeProteosomePtdIns 3-KinaseRAFT1RecurrenceRecurrentResearchRiskRisk FactorsSerotypingSexual TransmissionSquamous CarcinomaSquamous Cell EpitheliomaSquamous cell carcinomaStrains Cell LinesStudy modelsT-Cell DepletionT-cell depletion therapyT-lymphocyte depletion therapyT4 CellsT4 LymphocytesTP53TP53 geneTRP53TestingTherapeuticTherapeutic AgentsTissuesTopical Drug AdministrationTopical agentTopical applicationTransgenic MiceTransgenic ModelTumor Protein p53Tumor Protein p53 GeneType I Phosphatidylinositol KinaseType III Phosphoinositide 3-KinaseUnited StatesUnited States Department of Veterans AffairsUnited States Veterans AdministrationUniversitiesVeteransVeterans AdministrationVeterans AffairsViralViral Protein E6Virus-HIVWisconsinWorkadulthoodanal squamous cell carcinomaanti-canceranus intraepithelial neoplasiaapply topicallyautophagycarcinogenesiscell culturecell cultureschronic infectioncultured cell linedeliver topicallydetermine efficacydevelopmentaldyscrasiaeffective therapyeffective treatmentefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationepithelial carcinomaevaluate efficacyexamine efficacyglobal gene expressionglobal transcription profilehigh riskhigh risk grouphigh risk individualhigh risk peoplehigh risk populationhost responsehuman immunodeficiency virus infectionhuman immunodeficiency virus patienthuman papilloma virus 16human papilloma virus E7human papillomavirus +human papillomavirus E6 oncoproteinhuman papillomavirus E7human papillomavirus associated malignancyhuman papillomavirus caused cancerhuman papillomavirus driven cancershuman papillomavirus positivehuman papillomavirus-associated cancerhuman papillomavirus-related cancerimmune modulationimmune regulationimmune system responseimmunologic reactivity controlimmunomodulatoryimmunoregulationimmunoregulatoryimmunoresponseindividuals infected with HIVindividuals with HIVindividuals with human immunodeficiency virusinfected with HIVinfected with human immunodeficiency virusinnovateinnovationinnovativemTORmalignancymammalian target of rapamycinmolecular targeted therapeuticsmolecular targeted therapiesmolecular targeted treatmentmortalitymouse modelmulticatalytic endopeptidase complexmurine modelneoplasm/cancernew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapeuticsnew therapynew therapy approachesnew treatment approachnew treatment strategynext generation therapeuticsnovelnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapeuticsnovel therapynovel therapy approachp53 Antigenp53 Genesp53 Tumor Suppressorpapilloma virus Transforming Protein E6pathophysiologypathwaypatient infected with HIVpatient populationpatient with HIVpeople infected with HIVpeople infected with human immunodeficiency viruspeople living with HIVpeople with HIVpeople with human immunodeficiency viruspersistent infectionpharmacologicpre-clinicalpre-clinical studyprecancerprecancerouspreclinicalpreclinical studypremalignantpresence of HPVpresence of human papillomaviruspreventprevent HPVprevent human papillomaviruspreventingprotein p53repurposingsexually transmittedside effecttherapeutic evaluationtherapeutic testingtherapeutically effectivethree dimensionaltopical administrationtopical deliverytopical drug applicationtopical drug deliverytopical instillationtopical treatmenttranscriptometransgenic traittreat HIVtreat Human Immunodeficiency Virustreat topicallytype 16 Human papilloma virustype 16 Human papillomaviruswart virus
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Full Description

The incidence of anal cancer, which is largely caused by sexually transmitted human papillomaviruses (HPVs),
has been increasing for many years, especially in people living with human immunodeficiency viruses (HIV+).
The Department of Veterans Affairs cares for the largest population of people living with human
immunodeficiency virus of any healthcare system in the nation. One opportunity for preventing this deadly
cancer lies in the effective treatment of precancerous anal intraepithelial neoplasia (hereafter referred to as
anal dysplasia). Unfortunately, current treatments for anal dysplasia are ineffective, with high recurrence rates
and unwanted, long-term side effects. Dr. Carchman’s laboratory studies anal carcinogenesis in a well-
validated, HPV-transgenic model. Through collaborations Dr. Carchman also has access to a new conditional
transgenic mouse model to study anal carcinogenesis to facilitate mechanistic studies and test therapeutic
agents. Dr. Carchman has identified autophagic dysfunction due to HPV16 E6 and E7 expression that results
in anal cancer development. Dr. Sherer’s laboratory has determined that HIV-1 protease inhibitors result in the
degradation of HPV E6 and E7, which prevent the destruction of p53, a potent inducer of autophagy. These
findings have led the team to pursue preclinical studies that re-purpose HIV protease inhibitors—previously an
integral part of HIV treatment—in a topical form to treat anal dysplasia and prevent cancer development. While
protease inhibitors have been shown to induce autophagy in several preclinical and clinical studies, they have
not been examined in anal dysplasia treatment. The overall hypothesis is that autophagic induction with
topical protease inhibitors will prevent the progression of anal dysplasia in preclinical models of anal
carcinogenesis, thus providing an effective therapeutic option to prevent HPV-associated anal cancer in
humans. The goal of this proposal is to utilize novel preclinical models of HIV-associated anal carcinogenesis,
which include a single-cell culture where E6 and E7 are green fluorescent protein (GFP) tagged, an
established HPV-transgenic model, and a conditional HPV transgenic model that will undergo immune
modulation to recapitulate HIV infection. The team is uniquely positioned to carry out this proposed study. Dr.
Carchman has clinical expertise in anal dysplasia and anal cancer and is the leader of the anal
dysplasia/cancer clinic at the University of Wisconsin-Madison. The group also has extensive expertise with
preclinical models for anal carcinogenesis. These models recently yielded the key observation that autophagy
is important for inhibiting anal carcinogenesis—a discovery that drives the proposal’s central premise that HIV
protease inhibitors, known to induce autophagy, can be re-purposed as topical agents to prevent anal cancer.
The team’s work brings a cancer-relevant problem in the context of an HIV infection back into focus. This
research is well-grounded in existing methodology, supported by preliminary data, and holds promise for new
treatments to prevent HPV-associated cancers. The project will also advance the development of innovative
preclinical models for studying anal carcinogenesis and testing new therapies.

Grant Number: 5I01BX005608-05
NIH Institute/Center: VA
Principal Investigator: Evie CARCHMAN

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