grant

Optimization of aminolevulinic acid-protoporphyrin IX for fluorescence-guided tumor resection and treatment

Organization SAINT JOSEPH'S UNIVERSITYLocation PHILADELPHIA, UNITED STATESPosted 1 Jun 2022Deadline 31 Dec 2026
NIHUS FederalResearch GrantFY20235-ALA5-Amino-4-oxopentanoic Acid5-Aminolevulinic Acid5-amino-4-oxo-pentanoic acidABC15ABCG2ABCG2 geneABCPATP-Binding Cassette, Sub-Family G (WHITE), Member 2 GeneATP-Binding Cassette, Sub-Family G, Member 2ATP-Binding Cassette, Subfamily G, Member 2AbscissionAddressAmino-Levulinic AcidAminolevulinic AcidBCRPBCRP1Breast Cancer Resistance ProteinCancer TreatmentCancersClinicalDelta-Aminolevulinic AcidDetectionDoctor of PhilosophyEST157481ExcisionExtirpationFDA approvedFamilyFemaleFirst Generation College StudentsFirst Generation College graduatesFirst Generation StudentsFluorescenceFluorescent ProbesFundingFutureGenerationsGoalsHeterogeneityInter-tumoral heterogeneityIntratumoral heterogeneityInvestigatorsKnowledgeMRXMXR1Malignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant NeoplasmsMalignant TumorMediatingMetabolicMinorityMitoxantrone Resistance ProteinMolecular ProbesNormal TissueNormal tissue morphologyPUVAPUVA PhotochemotherapyPathway interactionsPh.D.PhDPhotochemotherapyPhotodynamic TherapyPlacenta-Specific ATP-Binding Cassette TransporterR-Series Research ProjectsR01 MechanismR01 ProgramRemovalResearchResearch GrantsResearch PersonnelResearch Project GrantsResearch ProjectsResearch SupportResearchersSurgical RemovalTrainingTumor CellVariantVariationWomanWorkanti-cancer researchanti-cancer therapyanticancer researchanticancer therapycancer imagingcancer researchcancer therapycancer-directed therapycareercollegecollegiated-Amino-Levulinic Acidfluorescence imagingfluorescent imagingheme biosynthesisheterogeneity in tumorsintertumoral heterogeneityintra-tumoral heterogeneityintratumor heterogeneitymalignancyneoplasm/cancerneoplasm/cancer photoradiation therapyneoplastic celloncologic imagingoncology imagingparent grantpathwayprotoporphyrin IXresectionskillstumortumor heterogeneitytumor imaging
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Full Description

NCI Diversity Supplement Application
Parent grant: Optimization of aminolevulinic acid-protoporphyrin IX for fluorescence-guided tumor
resection and treatment (R15CA268200-02, PI: Bin Chen)
This diversity supplement application is to support Ms. Jordyn Olsen, a first-generation college graduate in her
family, to pursue PhD training in cancer research with the goal of promoting women and minorities in cancer
research workforce. Aminolevulinic acid (ALA) is one of a few FDA-approved intraoperative fluorescent probes
and the only molecular probe based on the metabolic alterations in tumor cells. ALA has no fluorescence on its
own and needs to be metabolized in the heme biosynthesis pathway in tumor cells to produce a fluorescent and
photosensitizing metabolite protoporphyrin IX (PpIX), which enables tumor fluorescence imaging for tumor
detection and photodynamic therapy (PDT) for cancer treatment. Although ALA-PpIX has been clinically used
for fluorescence-guided tumor resection and cancer treatment, its applications are limited by low tumor PpIX
fluorescence, high tumor fluorescence heterogeneity, and low tumor-to-normal tissue fluorescence contrast.
Research supported by the parent grant has led to the identification of ABCG2 transporter activity as a critical
factor in reducing tumor PpIX fluorescence. More importantly, we have identified clinically used agents to
suppress ABCG2 activity to enhance tumor PpIX fluorescence. In this supplement research, Jordyn will
determine whether variation in ABCG2 expression results in intra-tumor and inter-tumor heterogeneity in ALA-
PpIX fluorescence. In addition, she will investigate whether PpIX fluorescence heterogeneity in tumor cells can
be suppressed by ABCG2 inhibition. This proposed research is related to the on-going work supported by the
parent grant funding and will further expand scope of parent grant research. Support from this supplement
funding will enable Jordyn to complete the necessary training in cancer research so that she will have the
knowledge and skills to start her career as a cancer researcher.

Grant Number: 3R15CA268200-03S1
NIH Institute/Center: NIH
Principal Investigator: BIN CHEN

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