Lenomorelin (Ghrelin) is a pleiotropic hormone, whose effect on growth hormone secretion, through the growth hormone secretagogue (GHS) receptor, is one of its many actions. It is synthesized principally in the stomach. Ghrelin-producing cells constitute a distinct group of endocrine cells dispersed throughout the gastric mucosa and to a lesser extent in the small intestine and the endocrine pancreas. Ghrelin plasma levels rise during fasting and chronic caloric restriction to stimulate food intake and fat storage and to prevent life-threatening falls in blood glucose. Plasma ghrelin levels decrease after a meal is consumed and in conditions of energy surplus (such as obesity). Ghrelin has emerged as a key player in the regulation of appetite and energy homeostasis. It stimulates food intake and transduces signals to hypothalamic regulatory nuclei that control energy homeostasis. Ghrelin levels are negatively correlated with body mass index (BMI) and insulin resistance. Lenomorelin is a peptide of 28 amino acids, in which the serine 3 residue is n-octanoylated, which is necessary for biological activity.

Glepaglutide (also known as ZP 1848), a long-acting glucagon-like peptide-2 (GLP-2) analog that was developed for patients with reduced or complete loss of intestinal function. In October 2017 - The U.S. Food and Drug Administration (FDA) Office of Orphan Products Development (OOPD) has granted an orphan drug designation to glepaglutide for the treatment of the rare disease short bowel syndrome (SBS). Many people with SBS are dependent on the frequent intake of intravenous fluids and nutrition delivered through a central catheter. Currently, glepaglutide is participating in a phase III clinical trial to determine the safety and efficacy of subcutaneous injection of the drug for the treatment of SBS.

Rusalatide acetate (also known as chrysalin or TP 508) is a 23-amino acid peptide derived from human prothrombin; it represents part of the receptor-binding domain of the human thrombin molecule. Rusalatide acetate binds to high-affinity thrombin receptors and mimics cellular effects of thrombin at sites of tissue injury. Rusalatide acetate demonstrated safety and potential efficacy in phase I/II clinical trials for the treatment of diabetic foot ulcers. It interacts with cell surface receptors to stimulate a cascade of cellular and molecular wound healing events, including activation of nitric oxide signaling. In addition, this drug participated in phase II clinical trial to determine the effectiveness of four doses for treating broken wrists in adults. However, this study was terminated because the drug did not demonstrate benefit compared to placebo. Rusalatide acetate was also studied as a cardiovascular drug. However, in January 2012, Capstone discontinued the development of rusalatide, for financial reasons. Recent studies show that a single injection of TP508 (rusalatide acetate) administered 24 h after irradiation significantly increases survival and delays mortality in murine models of acute radiation mortality. Thus, this drug is being developed as a potential nuclear countermeasure.