Skeletal muscle analysis of cancer patients reveals a potential role for carnosine in muscle wasting

Posa, Dheeraj Kumar; Miller, James; Hoetker, David; Ramage, Michael I.; Gao, Hong; Zhao, Jingjing; Doelling, B.; Bhatnagar, Aruni; Wigmore, Stephen J.; Skipworth, Richard J.E.; Baba, Shahid P.

doi:10.1002/jcsm.13258

Cited by 9 publications

(2 citation statements)

References 45 publications

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“…In addition, our data indicate that transport of carnosine in RBCs is an alternative strategy to protect against CN1 in human plasma, as recently suggested. 54,55 This was not true for rodents, who had lower HCD levels in RBCs than humans, despite more than 25 times higher plasma HCD levels.…”

Section: Discussionmentioning

confidence: 97%

Extensive profiling of histidine‐containing dipeptides reveals species‐ and tissue‐specific distribution and metabolism in mice, rats, and humans

Van der Stede,

Spaas,

de Jager

et al. 2023

Acta Physiologica

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Section: Discussionmentioning

confidence: 97%

Extensive profiling of histidine‐containing dipeptides reveals species‐ and tissue‐specific distribution and metabolism in mice, rats, and humans

Van der Stede,

Spaas,

de Jager

et al. 2023

Acta Physiologica

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“…In addition to alterations in the relative amount of blood components, it is also possible to search for biomarkers among the cellular components. Posa et al [21 ▪ ] investigated carnosine, a histidyl dipeptide, as a possible biomarker of skeletal muscle loss in humans. Muscle loss in cachexia can occur through protein degradation via autophagy and ubiquitin-bound proteolysis, with both processes being sensitive to intracellular pH changes and increased reactive oxygen species (ROS).…”

Section: Circulating Cells As Markers Of Cancer Cachexiamentioning

confidence: 99%

Circulating factors in cancer cachexia: recent opportunities for translational research

Coêlho,

de Aquino,

Santos

et al. 2024

Current Opinion in Clinical Nutrition &Amp; Metabolic Care

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Purpose of review To discuss the recent discoveries and limitations of the available literature on emerging circulating biomarkers of cancer cachexia. Recent findings Studies on circulating factors in cancer cachexia show promising alternatives for diagnosing the syndrome in a minimally invasive manner in the clinic setting, as well as potential targets for cancer cachexia treatment. Factors secreted by the tumor and the adipose tissue, such as extracellular vesicles and soluble proteins, respectively, have been shown to either directly induce wasting in vitro and in vivo or to be altered in the cachectic phenotype. The detection and characterization of circulating cells allows detection of the precachectic stage and the levels of the soluble immune checkpoint protein programmed death ligand-1 (PD-L1) are correlated with the presence of the hallmarks of cancer cachexia. Summary Structural, molecular, and metabolic alterations have been observed in various tissues, revealing the occurrence of sustained inter-compartment crosstalk in cachectic patients. Early diagnosis of cancer cachexia becomes crucial to avoid the establishment of refractory cachexia through the implementation of interventions that may attenuate systemic inflammation and muscle loss. More studies on human cancer cachexia are required in order to address the recently discovered cachexia-associated circulating factors’ value as biomarkers of the syndrome.

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Skeletal muscle analysis of cancer patients reveals a potential role for carnosine in muscle wasting

Posa¹,

Miller

Hoetker³

et al. 2023

J cachexia sarcopenia muscle

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Background Muscle wasting during cancer cachexia is mediated by protein degradation via autophagy and ubiquitin‐linked proteolysis. These processes are sensitive to changes in intracellular pH ([pH]i) and reactive oxygen species, which in skeletal muscle are partly regulated by histidyl dipeptides, such as carnosine. These dipeptides, synthesized by the enzyme carnosine synthase (CARNS), remove lipid peroxidation‐derived aldehydes, and buffer [pH]i. Nevertheless, their role in muscle wasting has not been studied. Methods Histidyl dipeptides in the rectus abdominis (RA) muscle and red blood cells (RBCs) of male and female controls (n = 37), weight stable (WS: n = 35), and weight losing (WL; n = 30) upper gastrointestinal cancer (UGIC) patients, were profiled by LC–MS/MS. Expression of enzymes and amino acid transporters, involved in carnosine homeostasis, was measured by Western blotting and RT‐PCR. Skeletal muscle myotubes were treated with Lewis lung carcinoma conditioned medium (LLC CM), and β‐alanine to study the effects of enhancing carnosine production on muscle wasting. Results Carnosine was the predominant dipeptide present in the RA muscle. In controls, carnosine levels were higher in men (7.87 ± 1.98 nmol/mg tissue) compared with women (4.73 ± 1.26 nmol/mg tissue; P = 0.002). In men, carnosine was significantly reduced in both the WS (5.92 ± 2.04 nmol/mg tissue, P = 0.009) and WL (6.15 ± 1.90 nmol/mg tissue; P = 0.030) UGIC patients, compared with controls. In women, carnosine was decreased in the WL UGIC (3.42 ± 1.33 nmol/mg tissue; P = 0.050), compared with WS UGIC patients (4.58 ± 1.57 nmol/mg tissue), and controls (P = 0.025). Carnosine was significantly reduced in the combined WL UGIC patients (5.12 ± 2.15 nmol/mg tissue) compared with controls (6.21 ± 2.24 nmol/mg tissue; P = 0.045). Carnosine was also significantly reduced in the RBCs of WL UGIC patients (0.32 ± 0.24 pmol/mg protein), compared with controls (0.49 ± 0.31 pmol/mg protein, P = 0.037) and WS UGIC patients (0.51 ± 0.40 pmol/mg protein, P = 0.042). Depletion of carnosine diminished the aldehyde‐removing ability in the muscle of WL UGIC patients. Carnosine levels were positively associated with decreases in skeletal muscle index in the WL UGIC patients. CARNS expression was decreased in the muscle of WL UGIC patients and myotubes treated with LLC‐CM. Treatment with β‐alanine, a carnosine precursor, enhanced endogenous carnosine production and decreased ubiquitin‐linked protein degradation in LLC‐CM treated myotubes. Conclusions Depletion of carnosine could contribute to muscle wasting in cancer patients by lowering the aldehyde quenching abilities. Synthesis of carnosine by CARNS in myotubes is particularly affected by tumour derived factors and could contribute to carnosine depletion in WL UGIC patients. Increasing carnosine in skeletal muscle may be an effective therapeutic intervention to prevent muscle wasting in cancer patients.

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Skeletal muscle analysis of cancer patients reveals a potential role for carnosine in muscle wasting

Cited by 9 publications

References 45 publications

Extensive profiling of histidine‐containing dipeptides reveals species‐ and tissue‐specific distribution and metabolism in mice, rats, and humans

Extensive profiling of histidine‐containing dipeptides reveals species‐ and tissue‐specific distribution and metabolism in mice, rats, and humans

Circulating factors in cancer cachexia: recent opportunities for translational research

Skeletal muscle analysis of cancer patients reveals a potential role for carnosine in muscle wasting

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