Dietary phosphate restriction prevents the appearance of sarcopenia signs in old mice

Alcalde-Estévez, Elena; Sosa, Patricia; Asenjo-Bueno, Ana; Plaza, Patricia; Naves-Díaz, Manuel; Olmos, Gemma; López‐Ongil, Susana; Ruíz-Torres, María Piedad

doi:10.1002/jcsm.13194

Cited by 8 publications

(4 citation statements)

References 50 publications

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“…Phosphate levels rise during aging, and it has been shown that in aged mice elevated serum phosphate levels associate with reduced muscle strength [262,263]. Furthermore, aged mice receiving a low-phosphate diet show improved muscle function, with larger myofiber area, less fiber type switching, and reduced fibrosis, as well as increased muscle strength and physical performance [263,264]. Combined, these in vivo studies suggest that rises in extracellular phosphate level can impair the myogenesis and the growth of myofibers, alter metabolic activity of skeletal muscle tissue, and promote inflammation.…”

Section: Phosphate and Sarcopeniamentioning

confidence: 99%

“…Finally, administration of a low-phosphate diet has been shown to improve skeletal muscle atrophy in Col4a3 −/− mice [110], suggesting that in this CKD model the injury might be caused by the hyperphosphatemia. Furthermore, phosphate levels rise during aging, and it has been shown that aged mice receiving a low-phosphate diet have improved muscle function, with a larger cross-sectional area of myofibers and reduced fibrosis [264]. Future human studies should determine the potential protective effects of a low-phosphate diet on skeletal muscle tissue in CKD patients or the elderly.…”

Section: Nutrition As Therapy For Ckd-associated Sarcopeniamentioning

confidence: 99%

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Skeletal Muscle Injury in Chronic Kidney Disease—From Histologic Changes to Molecular Mechanisms and to Novel Therapies

Heitman,

Alexander,

Faul

2024

IJMS

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Chronic kidney disease (CKD) is associated with significant reductions in lean body mass and in the mass of various tissues, including skeletal muscle, which causes fatigue and contributes to high mortality rates. In CKD, the cellular protein turnover is imbalanced, with protein degradation outweighing protein synthesis, leading to a loss of protein and cell mass, which impairs tissue function. As CKD itself, skeletal muscle wasting, or sarcopenia, can have various origins and causes, and both CKD and sarcopenia share common risk factors, such as diabetes, obesity, and age. While these pathologies together with reduced physical performance and malnutrition contribute to muscle loss, they cannot explain all features of CKD-associated sarcopenia. Metabolic acidosis, systemic inflammation, insulin resistance and the accumulation of uremic toxins have been identified as additional factors that occur in CKD and that can contribute to sarcopenia. Here, we discuss the elevation of systemic phosphate levels, also called hyperphosphatemia, and the imbalance in the endocrine regulators of phosphate metabolism as another CKD-associated pathology that can directly and indirectly harm skeletal muscle tissue. To identify causes, affected cell types, and the mechanisms of sarcopenia and thereby novel targets for therapeutic interventions, it is important to first characterize the precise pathologic changes on molecular, cellular, and histologic levels, and to do so in CKD patients as well as in animal models of CKD, which we describe here in detail. We also discuss the currently known pathomechanisms and therapeutic approaches of CKD-associated sarcopenia, as well as the effects of hyperphosphatemia and the novel drug targets it could provide to protect skeletal muscle in CKD.

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Section: Phosphate and Sarcopeniamentioning

confidence: 99%

Section: Nutrition As Therapy For Ckd-associated Sarcopeniamentioning

confidence: 99%

Skeletal Muscle Injury in Chronic Kidney Disease—From Histologic Changes to Molecular Mechanisms and to Novel Therapies

Heitman,

Alexander,

Faul

2024

IJMS

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“…For example, in 2018, researchers from the Republic of China found that serum phosphate levels within the high end of the normal range were associated with age-related loss of muscle strength, or dynapenia, in an analysis of U.S. NHANES data [91]. Additionally, a 2023 study in the Journal of Cachexia, Sarcopenia and Muscle found that feeding geriatric mice a low-phosphate diet lowered the serum phosphate of the mice to levels approaching serum levels in younger mice [92]. Remarkably, compared to geriatric mice fed a standard diet three-times higher in phosphate, the muscle mass measured in the gastrocnemius and tibialis of the geriatric mice receiving the low-phosphate diet increased by 44%, along with increases in strength and physical performance.…”

Section: Cancer Cachexia Protein and Dietary Phosphatementioning

confidence: 99%

Can a Low-Phosphate Diet for Chronic Kidney Disease Treat Cancer? An Interdisciplinary Literature Review

Brown,

Bigelow

2024

Medicines

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Background: Cancer therapeutics have a low success rate in clinical trials. An interdisciplinary approach is needed to translate basic, clinical, and remote fields of research knowledge into novel cancer treatments. Recent research has identified high dietary phosphate intake as a risk factor associated with cancer incidence. A model of tumor dynamics predicted that reducing phosphate levels sequestered in the tumor microenvironment could substantially reduce tumor size. Coincidently, a low-phosphate diet is already in use to help patients with chronic kidney disease manage high serum phosphate levels. Methods: A grounded-theory literature-review method was used to synthesize interdisciplinary findings from the basic and clinical sciences, including oncology, nephrology, nutritional epidemiology, and dietetic research on cancer. Results: Findings of tumor remission associated with fasting and a ketogenic diet, which lower intake of dietary phosphate, support the hypothesis that a low-phosphate diet will reduce levels of phosphate sequestered in the tumor microenvironment and reduce tumor size. Additionally, long-term effects of a low-phosphate diet may reverse dysregulated phosphate metabolism associated with tumorigenesis and prevent cancer recurrence. Conclusions: Evidence in this article provides the rationale to test a low-phosphate diet as a dietary intervention to reduce tumor size and lower risk of cancer recurrence.

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“…The expression of atrogin‐1 in old animals fed with the low‐phosphate diet is lower. In addition, skeletal muscle fibrotic regions in aged mice fed with a low-phosphate diet showed a considerable reduction, suggesting that age-related fibrosis could be delayed by a decreased serum phosphate concentration [ 215 ].…”

Section: The Interplay Between Mitochondria Ros and Ecmmentioning

confidence: 99%

Ageing of skeletal muscle extracellular matrix and mitochondria: finding a potential link

Cai,

Shi,

Peng

et al. 2023

Annals of Medicine

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Aim: To discuss the progress of extracellular matrix (ECM) characteristics, mitochondrial homeostasis, and their potential crosstalk in the pathogenesis of sarcopenia, a geriatric syndrome characterized by a generalized and progressive reduction in muscle mass, strength, and physical performance. Methods: This review focuses on the anatomy and physiology of skeletal muscle, alterations of ECM and mitochondria during ageing, and the role of the interplay between ECM and mitochondria in the pathogenesis of sarcopenia. Results: Emerging evidence points to a clear interplay between mitochondria and ECM in various tissues and organs. Under the ageing process, the ECM undergoes changes in composition and physical properties that may mediate mitochondrial changes via the systematic metabolism, ROS, SPARC pathway, and AMPK/PGC-1α signalling, which in turn exacerbate muscle degeneration. However, the precise effects of such crosstalk on the pathobiology of ageing, particularly in skeletal muscle, have not yet been fully understood. Conclusion: The changes in skeletal muscle ECM and mitochondria are partially responsible for the worsened muscle function during the ageing process. A deeper understanding of their alterations and interactions in sarcopenic patients can help prevent sarcopenia and improve its prognoses.

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Dietary phosphate restriction prevents the appearance of sarcopenia signs in old mice

Cited by 8 publications

References 50 publications

Skeletal Muscle Injury in Chronic Kidney Disease—From Histologic Changes to Molecular Mechanisms and to Novel Therapies

Skeletal Muscle Injury in Chronic Kidney Disease—From Histologic Changes to Molecular Mechanisms and to Novel Therapies

Can a Low-Phosphate Diet for Chronic Kidney Disease Treat Cancer? An Interdisciplinary Literature Review

Ageing of skeletal muscle extracellular matrix and mitochondria: finding a potential link

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