Radiohybridization Imaging of HER2 Oncogene to Detect Breast Cancer

Award Information
Department of Health and Human Services
Award Year:
Phase I
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Small Business Information
833 Lincoln Ave., Unit 9, WEST CHESTER, PA, 19380
Hubzone Owned:
Socially and Economically Disadvantaged:
Woman Owned:
Principal Investigator
 (610) 738-7938
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Phone: (610) 738-7938
Research Institution
DESCRIPTION (provided by applicant): Aggressive, invasive breast cancer will attack gt180,000 women in the US in 2007, and will take the lives of gt40,000 women. Mammograms detect lumps in breasts, H80% of which are benign, and H20% are malignant. Lumps ar e biopsied to determine whether they are benign or malignant. But biopsies do not determine which oncogenes are activated, and do not reliably diagnose estrogen-dependent vs. estrogen-independent breast cancer. The cells in malignant lumps divide frequentl y due to mutational activation of cancer genes. We have designed and demonstrated a novel technology to see visualize hyperactive cancer genes from outside the body, which we call radiohybridization imaging (RHI). RHI scans the entire breast to find all si tes of cancer gene activation, whether or not a lump has formed. RHI probes are peptide nucleic acid (PNA) sequences that hybridize specifically to messenger RNAs (mRNAs) copied from activated cancer genes. We added a small peptide analog to allow the RHI probes to be taken up by the breast cancer cells. Finally, we chelated radionuclides to permit external imaging by positron emission tomography (PET) scanning. RHI probes for CCND1, IRS1, MYCC, and KRAS mRNAs, injected into animal models, enabled us to vis ualize breast cancer, pancreas cancer, and prostate cancer xenografts. High levels of human epidermal growth factor receptor 2 (Her2) protein are associated with aggressive, invasive, estrogen-independent breast cancers. Measurements of HER2 mRNA demonstra ted that Her2+ breast cancer cells express thousands of HER2 mRNAs per cell, while Her2- breast cancer cells express much less. We hypothesize that external radiohybridization imaging of HER2 oncogene expression will detect aggressive Her2+ breast cancers noninvasively, enabling faster, more accurate, more cost-effective diagnosis. Phase 1: Milestone 1: We will synthesize and purify a HER2 mRNA RHI agent and mismatch controls to e95% purity. Milestone 2: We will determine whether or not the HER2 mRNA RHI ag ent will show e3-fold greater accumulation in human Her2+ breast cancer cells in culture, vs. mismatch controls. Phase 2: Milestone 1: We will optimize the sensitivity of the HER2 mRNA RHI agent, vs. mismatch controls, in human Her2+ and Her2- breast cance r xenografts by varying the specific activity over a wide range, in order to achieve e3-fold greater PET image contrast in the xenografts, relative to normal contralateral tissue. Milestone 2: We will determine which agent, among macrocyclic chelators, oli golysines, and IGF1 analogs, will reduce nonspecific organ uptake by e2-fold. Milestone 3: We will determine whether radiohybridization imaging of HER2 mRNA following chemotherapy in Her2+ transgenic mice that develop spontaneous breast cancers will show e 2-fold decrease in PET image contrast in the tumor, relative to normal contralateral tissue, vs. Her2- control mice, as a response to chemotherapeutic interdiction of proliferation. RHI measurement of HER2 mRNA levels will be compared with FDG measurement of metabolic activity over time. PUBLIC HEALTH RELEVANCE: We propose to develop a genetic nuclear medicine procedure to detect hyperactive breast cancer genes from outside the body. We intend to identify developing breast cancers before they form a tumor. In animal models, we will test for the possibility of breast cancer gene signals from tissues that are really benign, and for lack of breast cancer gene signals from tissues that are really malignant. In the future, imaging multiple breast cancer genes mig ht diagnose estrogen-dependent vs. estrogen-independent breast cancer without an invasive procedure.

* information listed above is at the time of submission.

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