Abstract
The world’s population continues to increase, meaning we require more consistent protein supply to meet demand. Despite the availability of plant-based protein alternatives, animal meat remains a popular, high-quality protein source. Research studies have focused on cultured meat (meat grown in vitro) as a safe and more efficient alternative to traditional meat. Cultured meat is produced by in vitro myogenesis, which involves the processing of muscle satellite and mature muscle cells. Meat culture efficiency is largely determined by the culture conditions, such as the cell type and cell culture medium used and the biomolecular composition. Protein production can be enhanced by providing the optimum biochemical and physical conditions for skeletal muscle cell growth, while myoblasts play important roles in skeletal muscle formation and growth. This review describes the cell types used to produce cultured meat and the biological effects of various myokines and cytokines, such as interleukin-6, leukemia inhibitory factor, interleukin-4, interleukin-15, and interleukin-1β, on skeletal muscle and myogenesis and their potential roles in cultured meat production.
Highlights
The architecture of skeletal muscle (SM) contains specific, well-defined arrangements of multinucleated contractile muscle cells and associated connective tissue [1]
We describe the effects of various myokines and cytokines on SM function and myogenesis and their possible roles in cultured meat production
Recent studies showed that IL-4 stimulates myogenesis by increasing the expression levels of myogenic transcription factors [47] and that the presence of adipose-tissue-derived stromal cells can increase muscle satellite cells (MSCs) regeneration, which was promoted by pretreating IL-4 or SDF-1 [48]
Summary
The architecture of skeletal muscle (SM) contains specific, well-defined arrangements of multinucleated contractile muscle cells ( known as muscle fibers) and associated connective tissue [1]. Artificial meat produced from the differentiation of muscle satellite cells (MSCs) in vitro is referred to as cultured meat. Structural muscle cells could be used to produce meat in vitro. MSCs play an important role in muscle regeneration after injury because they effectively differentiate into myotubes, which transform into muscle fibers [8]. Once MSCs have been multiplied in vitro to the optimal amount for cultured meat processing, they must be differentiated into multinucleated, postmitotic muscle fibers by cell fusion. Immune-derived cytokines influence SM development, organ formation, regeneration, and wasting, muscle fibers generate and secrete cytokines and myokines. TNF-α and interleukin-6 (IL-6) are the most effective immune-derived cytokines in terms of activating MSCs after muscle damage, whereas IL-8 coordinates growth and regeneration and IL-15 controls muscle hypertrophy [18]. We describe the effects of various myokines and cytokines on SM function and myogenesis and their possible roles in cultured meat production
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
