Faculty of Sport and Health Sciences, Neuromuscular Research Center, University of Jyväskylä , Jyväskylä , Finland.
Meilahti Clinical Proteomics Core Facility, HiLIFE, Faculty of Medicine, Biochemistry and Developmental Biology, University of Helsinki , Helsinki , Finland.
Am J Physiol Endocrinol Metab. 2019 May 1;316(5):E852-E865. doi: 10.1152/ajpendo.00526.2018. Epub 2019 Mar 12.
Cancer-associated cachexia reduces survival, which has been attenuated by blocking the activin receptor type 2B (ACVR2B) ligands in mice. The purpose of this study was to unravel the underlying physiology and novel cachexia biomarkers by use of the colon-26 (C26) carcinoma model of cancer cachexia. Male BALB/c mice were subcutaneously inoculated with C26 cancer cells or vehicle control. Tumor-bearing mice were treated with vehicle (C26+PBS) or soluble ACVR2B either before (C26+sACVR/b) or before and after (C26+sACVR/c) tumor formation. Skeletal muscle and serum metabolomics analysis was conducted by gas chromatography-mass spectrometry. Cancer altered various biologically functional groups representing ) amino acids, ) energy sources, and ) nucleotide-related intermediates. Muscle metabolomics revealed increased content of free phenylalanine in cancer that strongly correlated with the loss of body mass within the last 2 days of the experiment. This correlation was also detected in serum. Decreased ribosomal RNA content and phosphorylation of a marker of pyrimidine synthesis revealed changes in nucleotide metabolism in cancer. Overall, the effect of the experimental C26 cancer predominated over blocking ACVR2B ligands in both muscle and serum. However, the level of methyl phosphate, which was decreased in muscle in cancer, was restored by sACVR2B-Fc treatment. In conclusion, experimental cancer affected muscle and blood metabolomes mostly independently of blocking ACVR2B ligands. Of the affected metabolites, we have identified free phenylalanine as a promising biomarker of muscle atrophy or cachexia. Finally, the decreased capacity for pyrimidine nucleotide and protein synthesis in tumor-bearing mice opens up new avenues in cachexia research.
癌症相关性恶病质会降低患者的存活率,而阻断激活素受体 2B(ACVR2B)配体可减轻恶病质小鼠的病情。本研究旨在利用结肠癌 26(C26)癌恶病质模型揭示潜在的生理学机制和新的恶病质生物标志物。雄性 BALB/c 小鼠皮下接种 C26 癌细胞或载体对照。荷瘤小鼠用载体(C26+PBS)或可溶性 ACVR2B 处理,分别在(C26+sACVR/b)或在(C26+sACVR/c)肿瘤形成之前和之后。通过气相色谱-质谱法进行骨骼肌和血清代谢组学分析。癌症改变了各种具有生物学功能的基团,代表)氨基酸、)能量来源和)核苷酸相关中间产物。肌肉代谢组学显示癌症中游离苯丙氨酸含量增加,与实验最后 2 天内体重减轻强烈相关。这种相关性也在血清中检测到。核糖体 RNA 含量降低和嘧啶合成标志物的磷酸化表明核苷酸代谢发生变化。总的来说,实验性 C26 癌症的影响超过了阻断 ACVR2B 配体在肌肉和血清中的作用。然而,肌肉中降低的甲基磷酸水平通过 sACVR2B-Fc 治疗得到恢复。总之,实验性癌症主要通过阻断 ACVR2B 配体影响肌肉和血液代谢组,而受影响的代谢物中,我们已经确定游离苯丙氨酸是肌肉萎缩或恶病质的有前途的生物标志物。最后,荷瘤小鼠嘧啶核苷酸和蛋白质合成能力的降低为恶病质研究开辟了新的途径。
