The Rate of Cellular Energy Production of Muscle Cells Is Attenuated By Carnitine Intracellular Deficiency Caused By Imatinib Treatment

Introduction: Previous works identified that imatinib intake through the carnitine-specific OCTN2 (SLC22A5) transporter resulted in a significant decrease of carnitine intracellular concentrations in chronic myeloid leukemia (CML) and muscle cell lines. On contrary, even high doses of carnitine in preincubation did not influence imatinib cell intake capacity. Specifically performed inhibition of OCTN2 activity by vinorelbine resulted in block of carnitine cell intake, while imatinib intake was only slightly reduced (13-30%). This observation is in line with the knowledge that imatinib is transported also through other known SLC transporters. OCTN2 transporter is the major transporter for carnitine, an essential compound in cell energy metabolism. Presented work follows a hypothesis that non-equal competition between imatinib and carnitine intake through OCTN2 can lead to the carnitine intracellular deficiency, which can be in CML patients manifested by a disruption of skeletal muscle mitochondrial density and cause side effects like fatigue, muscle pain and cramps reported up to 80% of patients treated with imatinib (Kekale et al., 2015).