Deconstructing Regenerative Medicine: From Mechanistic Studies of Cell Therapy to Novel Bioinspired RNA Drugs.

All Food and Drug Administration-approved noncoding RNA (ncRNA) drugs (n≈20) target known disease-causing molecular pathways by mechanisms such as antisense. In a fortuitous evolution of work on regenerative medicine, my coworkers and I inverted the RNA drug discovery process: first we identified natural disease-modifying ncRNAs, then used them as templates for new synthetic RNA drugs. Mechanism was probed only after bioactivity had been demonstrated. The journey began with the development of cardiosphere-derived cells (CDCs) for cardiac regeneration. While testing CDCs in a first-in-human trial, we discovered they worked indirectly: ncRNAs within CDC-secreted extracellular vesicles mediate the therapeutic benefits. The vast majority of such ncRNAs are fragments of unknown function. We chose several abundant ncRNA species from CDC-secreted extracellular vesicles, synthesized and screened each of them in vitro and in vivo. Those with exceptional disease-modifying bioactivity inspired new chemical entities that conform to the structural conventions of the Food and Drug Administration-approved ncRNA armamentarium. This discovery arc-Cell-Derived RNA from Extracellular vesicles for bioinspired Drug develOpment, or CREDO-has yielded various promising lead compounds, each of which works via a unique, and often novel, mechanism. The process relies on emergent insights to shape therapeutic development. The initial focus of our inquiry-CDCs-are now themselves in phase 3 testing for Duchenne muscular dystrophy and its associated cardiomyopathy. But the intravenous delivery strategy and the repetitive dosing protocol for CDCs, which have proven key to clinical success, both arose from systematic mechanistic inquiry. Meanwhile, emergent insights have led to multiple cell-free therapeutic candidates: CDC-secreted extracellular vesicles are in preclinical development for ventricular arrhythmias, while the CREDO-conceived RNA drugs are in translation for diseases ranging from myocarditis to scleroderma.
Competing Interests: E. Marbán holds founder’s equity in Capricor, Inc.