Litcius/Paper detail

Translational kinetic‐pharmacodynamics of mRNA‐6231, an investigational mRNA therapeutic encoding mutein interleukin‐2

Ivana L. Rajlic, Beatriz Guglieri-López, Nabeel Rangoonwala, Vijay Ivaturi, Linh Van, Simone Mori, Brian T. Wipke, Douglas Burdette, Husain Attarwala

2024CPT Pharmacometrics & Systems Pharmacology10 citationsDOIOpen Access PDF

Abstract

Abstract Regulatory T cells (T regs ) are essential for maintaining immune homeostasis by serving as negative regulators of adaptive immune system effector cell responses. Reduced production or function of T regs has been implicated in several human autoimmune diseases. The cytokine interleukin 2 plays a central role in promoting T reg differentiation, survival, and function in vivo and may therefore have therapeutic benefits for autoimmune diseases. mRNA‐6231 is an investigational, lipid nanoparticle‐encapsulated, mRNA‐based therapy that encodes a modified human interleukin 2 mutein fused to human serum albumin (HSA‐IL2m). Herein, we report the development of a semi‐mechanistic kinetic‐pharmacodynamic model to quantify the relationship between subcutaneous dose(s) of mRNA‐6231, HSA‐IL2m protein expression, and T reg expansion in nonhuman primates. The nonclinical kinetic‐pharmacodynamic model was extrapolated to humans using allometric scaling principles and the physiological basis of pharmacological mechanisms to predict the clinical response to therapy a priori. Model‐based simulations were used to inform the dose selection and design of the first‐in‐human clinical study (NCT04916431). The modeling approach used to predict human responses was validated when data became available from the phase I clinical study. This validation indicates that the approach is valuable in informing clinical decision‐making.

Topics & Concepts

Immune systemPharmacodynamicsComputational biologyBiologyCytokineMedicineImmunologyPharmacologyBioinformaticsPharmacokineticsMonoclonal and Polyclonal Antibodies ResearchT-cell and B-cell ImmunologyImmune Cell Function and Interaction