Extruded plant protein two-dimensional scaffold structures support myoblast cell growth for potential applications in cultured meat

[Display omitted] •Extruded low-moisture meat analog structures promoted myoblast growth and alignment.•Cell alignment appeared to be correlated to the anisotropic index of the scaffolds.•Wheat scaffolds performed better compared to soy, mung, and faba bean scaffolds. Cultured meat has been proposed as a promising alternative to conventional meat products. Five different plant protein blends made from soy (from two different manufacturers), wheat, mung bean, and faba bean, were extruded to form low-moisture meat analogs (LMMA) and were used to assess LMMA scaffold potential for cultured meat application. Extruded LMMAs were characterized using scanning electron microscopy, water-holding capacity, total soluble matter, and mechanical properties. Two-dimensional LMMA scaffolds were seeded with C2C12 skeletal myoblast cells and cultured for 14 days, and cell attachment and morphology were evaluated. All five extrudates exhibited directionality of their fibrous protein structures but to varying degrees. Soy, wheat, mung bean, and faba bean-based LMMA scaffolds initially supported myoblast cell growth. However, after 14 days of culture, the extruded wheat LMMA exhibited superior myoblast cell growth. This may be attributed to the highly aligned fibrous structure of the extruded wheat LMMA as well as its elastic modulus, which closely approximated that of native skeletal muscle. Overall, two-dimensional structures of the extruded plant proteins support cell growth and advance the development of cultured meat.