Year Funded: 2005
Dr. Miguel Sena-Esteves: Taking an Engineering Approach to Biology
“I have no doubt that gene therapy is the path to a future of precision medicine,” says Miguel Sena-Esteves, PhD, of the University of Massachusetts Medical School (Worcester, Mass.). “Recent clinical trials show this unequivocally, but of course, there is more work to do.” And Dr. Sena-Esteves has been doing this work for nearly 20 years.
The first gene therapy research grant Dr. Sena-Esteves received was from the Alliance for Cancer Gene Therapy (ACGT), and it launched him onto a career trajectory focused on creative solutions to difficult cancer challenges.
“A journal editor once famously said that gene therapy can be summarized in three words – delivery, delivery, delivery,” says Dr. Sena-Esteves. “It’s true. Once we can get inside of a cell, we understand what needs to be done to correct or counteract the effects of genetic mutations. We have promising new tools and technologies, but efficient delivery is still difficult, especially in the brain. Progress requires taking an engineering approach to biology.”
In his ACGT-funded study, Dr. Sena-Esteves explored how to use a viral strategy to create a zone of resistance in the brain where normal tissue could be modified to prevent tumors from growing, and ultimately, to destroy them. His studies revealed that adeno-associated viral (AAV) vectors could do the job, but not without long-term toxicity consequences.
Dr. Sena-Esteves’s ACGT-funded research led to the publication of four important scientific reports —
Preventing Growth of Brain Tumors by Creating a Zone of Resistance in Molecular Therapy; Controlling Brain Tumor Growth by Intraventricular Administration of an AAV Vector Encoding IFN-Beta in Cancer Gene Therapy; Intracranial AAV-IFN-β Gene Therapy Eliminates Invasive Xenograft Glioblastoma and Improves Survival in Orthotopic Syngeneic Murine Model in Molecular Oncology; and Systemic AAV9-IFNβ Gene Delivery Treats Highly Invasive Glioblastoma in Neuro-Oncology.
Understanding the toxicity issues challenged Dr. Sena-Esteves and his team to pursue better means and modalities for regulating gene expression – to selectively turn the gene therapy on and off to avoid toxic consequences for patients. Today, further research initiatives have expanded Dr. Sena-Esteves’ focus to include other neurodegenerative diseases, including Tay-Sachs and Sandhoff diseases, GM1 gangliosidosis, which are mostly pediatric diseases, as well as others that affect primarily adults such as ALS and Huntington’s disease. His faith in the potential of gene therapies is unwavering as is his appreciation for the evolutionary process of research. In 2019, Dr. Sena-Esteves and his team moved very promising new strategies into new clinical trials.