Cyclophosphamide treatment modifies the thermal stability of profilin bound monomeric and leiomodin2 bound filamentous actin

Abstract

AbstractThe monomeric (G-actin) and polymer (F-actin) forms of actin play important role in muscle development and contraction, cellular motility, division, and transport processes. Leiomodins 1–3 (Lmod1–3) are crucial for the development of muscle sarcomeres. Unlike tropomodulins that localize only at the pointed ends, the striated muscle specific Lmod2 shows diffuse distribution along the entire length of the thin filaments. The G-actin-binding profilin (Pro) facilitates the nucleotide exchange on monomeric actin and inhibits the polymerization at the barbed end, therefore contributes to the maintenance of the intracellular pool of polymerization competent ATP-G-actin. Cyclophosphamide (CP) is a cytostatic drug that can have potential side effects on muscle thin filaments at the level of actin in myofilaments. Here, we aimed at investigating the influence of CP on actin and its complexes with actin-binding proteins by using differential scanning calorimetry (DSC). We found that upon CP treatment, the denaturation of the Pro-G-actin and Lmod2-F-actin complexes was characterized by an increased enthalpy change. However, after the CP treatment, the melting temperature of F-actin was the same as in the presence of Lmod2, seems like Lmod2 does not have any effect on the structure of the CP alkylated F-actin. In case of Pro bound G-actin the melting temperature did not respond to the CP addition. The intracellular function of Lmod2 in muscle cells can be modified within CP drug treatment.