Christina Lee Brown Envirome Institute, University of Louisville, Louisville, KY, United States of America.
Division of Environmental Medicine, Department of Medicine, University of Louisville, Louisville, KY, United States of America.
PLoS One. 2024 Mar 27;19(3):e0299872. doi: 10.1371/journal.pone.0299872. eCollection 2024.
Carnosine is an endogenous di-peptide (β-alanine -L- histidine) involved in maintaining tissue homeostasis. It is most abundant in skeletal muscle where its concentration has been determined in biopsy samples using tandem mass spectrometry (MS-MS). Carnosine levels can also be assessed in intact leg muscles by proton magnetic resonance spectroscopy (1H-MRS) or in blood and urine samples using mass spectrometry. Nevertheless, it remains uncertain how carnosine levels from these distinct compartments are correlated with each other when measured in the same individual. Furthermore, it is unclear which measurement modality might be most suitable for large-scale clinical studies. Hence, in 31 healthy volunteers, we assessed carnosine levels in skeletal muscle, via 1H-MRS, and in erythrocytes and urine by MS-MS. While muscle carnosine levels were higher in males (C2 peak, p = 0.010; C4 peak, p = 0.018), there was no sex-associated difference in urinary (p = 0.433) or erythrocyte (p = 0.858) levels. In a linear regression model adjusted for age, sex, race, and diet, there was a positive association between erythrocyte and urinary carnosine. However, no association was observed between 1H-MRS and erythrocytes or urinary measures. In the relationship between muscle versus urinary and erythrocyte measures, females had a positive association, while males did not show any association. We also found that 1H-MRS measures were highly sensitive to location of measurement. Thus, it is uncertain whether 1H-MRS can accurately and reliably predict endogenous carnosine levels. In contrast, urinary and erythrocyte carnosine measures may be stable and in greater synchrony, and given financial and logistical concerns, may be a feasible alternative for large-scale clinical studies.
肌肽是一种内源性二肽(β-丙氨酸-L-组氨酸),参与维持组织内环境稳定。它在骨骼肌中含量最为丰富,其浓度可通过串联质谱(MS-MS)在活检样本中测定。也可通过质子磁共振波谱(1H-MRS)检测完整腿部肌肉中的肌肽水平,或通过质谱法检测血液和尿液样本中的肌肽水平。然而,当在同一个体中测量时,这些不同隔室的肌肽水平如何相互关联仍不确定。此外,尚不清楚哪种测量方式最适合大规模临床研究。因此,在 31 名健康志愿者中,我们通过 1H-MRS 评估了骨骼肌中的肌肽水平,并通过 MS-MS 评估了红细胞和尿液中的肌肽水平。虽然男性的肌肉肌肽水平更高(C2 峰,p = 0.010;C4 峰,p = 0.018),但尿(p = 0.433)或红细胞(p = 0.858)中没有性别相关差异。在调整年龄、性别、种族和饮食的线性回归模型中,红细胞和尿肌肽之间存在正相关。然而,在 1H-MRS 与红细胞或尿液测量值之间未观察到相关性。在肌肉与尿液和红细胞测量值之间的关系中,女性呈正相关,而男性则没有相关性。我们还发现,1H-MRS 测量值对测量位置高度敏感。因此,尚不确定 1H-MRS 是否可以准确可靠地预测内源性肌肽水平。相比之下,尿肌肽和红细胞肌肽测量值可能更稳定,同步性更好,并且由于财务和后勤方面的考虑,可能是大规模临床研究的可行替代方法。
