Abstract
GDF15 is a distant TGF-β family member that induces anorexia and weight loss. Due to its function, GDF15 has attracted attention as a potential therapeutic for the treatment of obesity and its associated metabolic diseases. However, the pharmacokinetic and physicochemical properties of GDF15 present several challenges for its development as a therapeutic, including a short half-life, high aggregation propensity, and protease susceptibility in serum. Here, we report the design, characterization and optimization of GDF15 in an Fc-fusion protein format with improved therapeutic properties. Using a structure-based engineering approach, we combined knob-into-hole Fc technology and N-linked glycosylation site mutagenesis for half-life extension, improved solubility and protease resistance. In addition, we identified a set of mutations at the receptor binding site of GDF15 that show increased GFRAL binding affinity and led to significant half-life extension. We also identified a single point mutation that increases p-ERK signaling activity and results in improved weight loss efficacy in vivo. Taken together, our findings allowed us to develop GDF15 in a new therapeutic format that demonstrates better efficacy and potential for improved manufacturability.
Highlights
GDF15 is a distant TGF-β family member that induces anorexia and weight loss
Understanding of the mechanism of action has evolved: circulating GDF15 binds its receptor GFRAL, which is selectively expressed in the area postrema (AP) and nuclear solitary tract (NTS) in the hindbrain, where it signals through a co-receptor R ET4–7
GDF15 is a potent driver of anorexia and body weight loss, and has been proposed as a therapeutic for obesity and its associated metabolic d iseases[8]
Summary
GDF15 is a distant TGF-β family member that induces anorexia and weight loss. Due to its function, GDF15 has attracted attention as a potential therapeutic for the treatment of obesity and its associated metabolic diseases. The pharmacokinetic and physicochemical properties of GDF15 present several challenges for its development as a therapeutic, including a short half-life, high aggregation propensity, and protease susceptibility in serum. GDF15 administration through either viral vectors or recombinant protein injection in a genetic obesity ob/ob mouse model reduced food intake, body weight, and improved overall metabolic parameters such as glucose tolerance and insulin s ensitivity[10,11]. These benefits were reproducible in obese nonhuman primates dosed weekly with Fc-GDF15, strengthening confidence in the therapeutic potential of GDF1511. Extracellular GDF15 undergoes proteolytic cleavage making it unstable in serum, presenting little value as a t herapeutic[12]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
