Tissue Distribution and Receptor Activation by Somapacitan, a Long Acting Growth Hormone Derivative.

Somapacitan is a long-acting, once-weekly, albumin-binding growth hormone (GH) derivative. The reversible albumin-binding properties leads to prolonged circulation half-life. Here, we investigated and compared somapacitan with human GH on downstream receptor signaling in primary hepatocytes and hepatocellular models and using isothermal titration calorimetry to characterize receptor binding of somapacitan in the presence or absence of human serum albumin (HSA).

Long-Acting Human Growth Hormone Analogue by Noncovalent Albumin Binding.

The present work describes a series of human growth hormone (hGH) albumin binder conjugates with an extended in vivo half-life. A broad range of different conjugates were studied by varying the albumin binder structure and conjugation site. Conjugates were conveniently obtained by reductive alkylation or by alkylation to introduced cysteines using functionalized albumin-binding side chains.

Nonclinical pharmacokinetic and pharmacodynamic characterisation of somapacitan: A reversible non-covalent albumin-binding growth hormone.

Objective: Somapacitan is an albumin-binding growth hormone derivative intended for once weekly administration, currently in clinical development for treatment of adult as well as juvenile GH deficiency. Nonclinical in vivo pharmacological characterisation of somapacitan was performed to support the clinical trials. Here we present the pharmacokinetic and pharmacodynamic effects of somapacitan in rats, minipigs, and cynomolgus monkeys.

Transglutaminase-mediated methods for site-selective modification of human growth hormone.

Two methods for the site-selective modification of native human growth hormone (hGH) using microbial transglutaminase were developed. In the first method, 1,3-bisaminoxypropane was attached to hGH, providing a direct incorporation of reactive aminoxy groups for further modification. The reaction was shown to be selective for Gln(141), with minor modification at Gln(40).

Structure-activity and protraction relationship of long-acting glucagon-like peptide-1 derivatives: importance of fatty acid length, polarity, and bulkiness.

We here report a series of derivatives describing the structure-activity relationship around liraglutide, a once-daily human glucagon-like peptide-1 fatty acid derivative, with respect to potency as well as protraction in vivo. The spacer region between the fatty acid and the peptide is mostly important for potency, whereas the fatty acid or fatty acid mimetic is important for both potency and protraction. The length of the fatty acid is the most important parameter for protraction.