Although, in general, effects of NRG-1 in heart failure are compensatory and beneficial, translation into therapies remains unaccomplished both because of the complexity of the underlying pathways and because of the challenges in the development of therapeutics (proteins, peptides, small molecules, and RNA-based therapies) for tyrosine kinase receptors.
A recombinant version of neuregulin-1β, cimaglermin alfa (also known as glial growth factor 2 or GGF2) is being investigated as a possible therapy for heart failure.
Because myocardial NRG-1/ErbB signaling has been documented to be impaired during HF associated with type 1 DM, we examined whether enhancement of NRG-1β signaling via exogenous administration of recombinant NRG-1β could exert beneficial effects against post-MI HF in the type 1 diabetic heart.
The therapeutic potential of recombinant NRG-1 as a potential treatment for heart failure has been demonstrated in animal models and is now being explored in clinical studies.
However, secreted and membrane-anchored neuregulin-1 isoforms, preferentially expressed in microvascular endothelium, are induced and not lowered with heart failure, while expression of erbB-inhibitory neuregulin isoforms or of autoinhibitory soluble erbB isoforms could not be demonstrated as potential causes of erbB receptor inhibition.