New Faculty Physician Scientist
$3 140 837
Multiple Myeloma (MM) is a cancer of B cells that can be suppressed for years by treatment with chemotherapy at doses so strong that it kills the blood forming stem cells. In a process known as auto-transplantation (auto-HCT), the blood forming stem cells of MM patients are collected and frozen prior to high-dose chemotherapy. After completion of the chemotherapy, the frozen stem cells are thawed infused, thereby allowing recovery of normal blood production. It has long been known that the infused grafts are contaminated with MM, a finding that is associated with the high rate of relapse after auto-HCT. We also know that for MM patients with identical twin donors, infusion of blood stem cell grafts from the identical twin results in a lower risk of disease recurrence. These observations support the idea that contaminated grafts can cause relapse. Attempts to isolate purified blood stem cells in order to purge MM have thus far not decreased the rate of relapse. We believe this is due to inefficiencies of the purging strategy. We seek to transplant pure, MM-free stem cells with a novel strategy that incorporates recent knowledge about MM. We also seek to use new and highly sensitive genomic technologies to ensure that the stem cells are not contaminated. We will also use new genomic approaches to learn how MM develops by asking when MM specific genetic changes, or mutations, develop. This knowledge may improve our ability to determine who may be at risk for this disease.
Statement of Benefit to California:
Multiple Myeloma (MM) is a cancer of the plasma cell, a type of white blood cell, that can lead to bone fractures, kidney damage, and suppressed blood formation. Approximately 1600 new cases of MM are diagnosed annually in California and nearly 22,000 cases nationally. About one third of patients with MM receive intensive chemotherapy followed by infusion of blood cell grafts that contain the necessary blood forming stem cells but that also include the cancerous MM cells. Although this therapy prolongs survival when compared with other treatments, it does not provide cure, in part because cancerous cells are returned to the patient. Treatment of MM requires years of therapy, results in significant emotional hardship and financial costs for patients, their families, and society. This project utilizes new technologies (many of which that were developed by scientists in California and developed in partnerships between industry and academia) to detect cancer cells and to purify blood forming stem cells free of MM contamination. We aim to initiate a clinical trial, first in California, with the goal of improving the treatment of MM by providing cancer-free stem grafts following intensive chemotherapy. We hope this clinical trial will benefit the many MM patients in California and ultimately improve the well being of thousands of patients worldwide.
Executive Summary Multiple Myeloma (MM) is a cancer of the bone marrow characterized by a proliferation of malignant plasma cells. While MM is potentially treatable through autologous hematopoietic stem cell (HSC) transplantation, the chances for a positive clinical outcome can be significantly reduced by the presence of contaminating MM cells in the patient’s blood. To address this limitation, the applicant proposes to improve purification of HSC from mobilized peripheral blood products and use genomic technologies to detect contaminated cells and to identify specific genetic changes or mutations. Two aims have been proposed: Aim 1 is to isolate patient HSC free of MM contamination using novel positive and negative selection markers, then testing the selected cells in a novel in vivo model. Aim 2 is to perform genomic sequencing of MM blood cells. Research Plan - Reviewers commented that the research plan lacks innovation, drawing heavily on technologies that are standard in the field. There was no novelty in this proposal. -Reviewers were concerned that the xenograft model functional assessment using limiting dilution assays was too cumbersome to perform for accurate calculation of MM-initiating cell frequency. - The preliminary data is primarily descriptive and does not provide significant insights about mechanism of action or treatment. - Reviewers questioned the feasibility of the project, cautioning that data interpretation might be confounded if an antibody used for sorting or selection causes phenotypic effects. -Reviewers agreed that this proposal addresses an unmet medical need and that the rationale to purge the mobilized peripheral blood of the remaining cancer cells is logical and compelling. - Aim 2 was poorly developed and inadequately justified. Principal Investigator (PI) - The PI has a limited track record of publications and funding. - The career development plan does not adequately address how the PI will expand his/her knowledge base and become recognized as a stem cell translational scientist. - The PI has chosen two mentors but neither provided letters of support to document their personal commitment to this candidate. - The time allotments budgeted for research vs. clinical responsibilities are poorly considered. Institutional Commitment - The Institutional support letter is generic and offers no specific information about salary, laboratory space or research funding commitment for the PI. - The Institution has an excellent record of commitment to stem cell research from basic biology to translational applications. Responsiveness - Reviewers found the proposed work in Aim 2 not responsive to the goals of the RFA.