Your search keyword '"combined metabolic activators"' showing total 15 results

1. Combined Metabolic Activators with Different NAD+ Precursors Improve Metabolic Functions in the Animal Models of Neurodegenerative Diseases.

Author

Altay, Ozlem, Yang, Hong, Yildirim, Serkan, Bayram, Cemil, Bolat, Ismail, Oner, Sena, Tozlu, Ozlem Ozdemir, Arslan, Mehmet Enes, Hacimuftuoglu, Ahmet, Shoaie, Saeed, Zhang, Cheng, Borén, Jan, Uhlén, Mathias, Turkez, Hasan, and Mardinoglu, Adil

Subjects

ALZHEIMER'S disease, PARKINSON'S disease, PATHOLOGICAL physiology, MITOCHONDRIAL pathology, ACETYLCYSTEINE, CALBINDIN, MOVEMENT disorders, METABOLIC disorders, DEACETYLATION

Abstract

Background: Mitochondrial dysfunction and metabolic abnormalities are acknowledged as significant factors in the onset of neurodegenerative disorders such as Parkinson's disease (PD) and Alzheimer's disease (AD). Our research has demonstrated that the use of combined metabolic activators (CMA) may alleviate metabolic dysfunctions and stimulate mitochondrial metabolism. Therefore, the use of CMA could potentially be an effective therapeutic strategy to slow down or halt the progression of PD and AD. CMAs include substances such as the glutathione precursors (L-serine and N-acetyl cysteine), the NAD+ precursor (nicotinamide riboside), and L-carnitine tartrate. Methods: Here, we tested the effect of two different formulations, including CMA1 (nicotinamide riboside, L-serine, N-acetyl cysteine, L-carnitine tartrate), and CMA2 (nicotinamide, L-serine, N-acetyl cysteine, L-carnitine tartrate), as well as their individual components, on the animal models of AD and PD. We assessed the brain and liver tissues for pathological changes and immunohistochemical markers. Additionally, in the case of PD, we performed behavioral tests and measured responses to apomorphine-induced rotations. Findings: Histological analysis showed that the administration of both CMA1 and CMA2 formulations led to improvements in hyperemia, degeneration, and necrosis in neurons for both AD and PD models. Moreover, the administration of CMA2 showed a superior effect compared to CMA1. This was further corroborated by immunohistochemical data, which indicated a reduction in immunoreactivity in the neurons. Additionally, notable metabolic enhancements in liver tissues were observed using both formulations. In PD rat models, the administration of both formulations positively influenced the behavioral functions of the animals. Interpretation: Our findings suggest that the administration of both CMA1 and CMA2 markedly enhanced metabolic and behavioral outcomes, aligning with neuro-histological observations. These findings underscore the promise of CMA2 administration as an effective therapeutic strategy for enhancing metabolic parameters and cognitive function in AD and PD patients. [ABSTRACT FROM AUTHOR]

Published

2024

2. Combined Metabolic Activators with Different NAD+ Precursors Improve Metabolic Functions in the Animal Models of Neurodegenerative Diseases

Author

Ozlem Altay, Hong Yang, Serkan Yildirim, Cemil Bayram, Ismail Bolat, Sena Oner, Ozlem Ozdemir Tozlu, Mehmet Enes Arslan, Ahmet Hacimuftuoglu, Saeed Shoaie, Cheng Zhang, Jan Borén, Mathias Uhlén, Hasan Turkez, and Adil Mardinoglu

Subjects

Alzheimer’s disease, Parkinson’s disease, combined metabolic activators, animal models, Biology (General), QH301-705.5

Abstract

Background: Mitochondrial dysfunction and metabolic abnormalities are acknowledged as significant factors in the onset of neurodegenerative disorders such as Parkinson’s disease (PD) and Alzheimer’s disease (AD). Our research has demonstrated that the use of combined metabolic activators (CMA) may alleviate metabolic dysfunctions and stimulate mitochondrial metabolism. Therefore, the use of CMA could potentially be an effective therapeutic strategy to slow down or halt the progression of PD and AD. CMAs include substances such as the glutathione precursors (L-serine and N-acetyl cysteine), the NAD+ precursor (nicotinamide riboside), and L-carnitine tartrate. Methods: Here, we tested the effect of two different formulations, including CMA1 (nicotinamide riboside, L-serine, N-acetyl cysteine, L-carnitine tartrate), and CMA2 (nicotinamide, L-serine, N-acetyl cysteine, L-carnitine tartrate), as well as their individual components, on the animal models of AD and PD. We assessed the brain and liver tissues for pathological changes and immunohistochemical markers. Additionally, in the case of PD, we performed behavioral tests and measured responses to apomorphine-induced rotations. Findings: Histological analysis showed that the administration of both CMA1 and CMA2 formulations led to improvements in hyperemia, degeneration, and necrosis in neurons for both AD and PD models. Moreover, the administration of CMA2 showed a superior effect compared to CMA1. This was further corroborated by immunohistochemical data, which indicated a reduction in immunoreactivity in the neurons. Additionally, notable metabolic enhancements in liver tissues were observed using both formulations. In PD rat models, the administration of both formulations positively influenced the behavioral functions of the animals. Interpretation: Our findings suggest that the administration of both CMA1 and CMA2 markedly enhanced metabolic and behavioral outcomes, aligning with neuro-histological observations. These findings underscore the promise of CMA2 administration as an effective therapeutic strategy for enhancing metabolic parameters and cognitive function in AD and PD patients.

Published

2024

3. Longitudinal metabolomics analysis reveals the acute effect of cysteine and NAC included in the combined metabolic activators.

Author

Yang, Hong, Li, Xiangyu, Jin, Han, Turkez, Hasan, Ozturk, Gurkan, Doganay, Hamdi Levent, Zhang, Cheng, Nielsen, Jens, Uhlén, Mathias, Borén, Jan, and Mardinoglu, Adil

Subjects

*NIACIN, *NAD (Coenzyme), *CYSTEINE, *METABOLOMICS, *AMINO acids, *NICOTINAMIDE, *LIPID metabolism

Abstract

Growing evidence suggests that the depletion of plasma NAD+ and glutathione (GSH) may play an important role in the development of metabolic disorders. The administration of Combined Metabolic Activators (CMA), consisting of GSH and NAD+ precursors, has been explored as a promising therapeutic strategy to target multiple altered pathways associated with the pathogenesis of the diseases. Although studies have examined the therapeutic effect of CMA that contains N-acetyl- l -cysteine (NAC) as a metabolic activator, a system-wide comparison of the metabolic response to the administration of CMA with NAC and cysteine remains lacking. In this placebo-controlled study, we studied the acute effect of the CMA administration with different metabolic activators, including NAC or cysteine with/without nicotinamide or flush free niacin, and performed longitudinal untargeted-metabolomics profiling of plasma obtained from 70 well-characterized healthy volunteers. The time-series metabolomics data revealed the metabolic pathways affected after the administration of CMAs showed high similarity between CMA containing nicotinamide and NAC or cysteine as metabolic activators. Our analysis also showed that CMA with cysteine is well-tolerated and safe in healthy individuals throughout the study. Last, our study systematically provided insights into a complex and dynamics landscape involved in amino acid, lipid and nicotinamide metabolism, reflecting the metabolic responses to CMA administration containing different metabolic activators. [Display omitted] • The administration of different CMA formulas was safe and no toxic effect was seen in the healthy subjects participated in the study. • Similar plasma cysteine kinetics were observed between CMA formulas with NAC and cysteine. • Longitudinal untargeted-metabolomics profiling reveals the acute metabolic response is similar between CMA formulas with NAC and cysteine. [ABSTRACT FROM AUTHOR]

Published

2023

4. Combined metabolic activators improve cognitive functions in Alzheimer’s disease patients: a randomised, double-blinded, placebo-controlled phase-II trial

Author

Burak Yulug, Ozlem Altay, Xiangyu Li, Lutfu Hanoglu, Seyda Cankaya, Simon Lam, Halil Aziz Velioglu, Hong Yang, Ebru Coskun, Ezgi Idil, Rahim Nogaylar, Ahmet Ozsimsek, Cemil Bayram, Ismail Bolat, Sena Oner, Ozlem Ozdemir Tozlu, Mehmet Enes Arslan, Ahmet Hacimuftuoglu, Serkan Yildirim, Muhammad Arif, Saeed Shoaie, Cheng Zhang, Jens Nielsen, Hasan Turkez, Jan Borén, Mathias Uhlén, and Adil Mardinoglu

Subjects

Alzheimer’s disease, Combined metabolic activators, Multi-omics, Systems biology, Systems medicine, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Alzheimer’s disease (AD) is associated with metabolic abnormalities linked to critical elements of neurodegeneration. We recently administered combined metabolic activators (CMA) to the AD rat model and observed that CMA improves the AD-associated histological parameters in the animals. CMA promotes mitochondrial fatty acid uptake from the cytosol, facilitates fatty acid oxidation in the mitochondria, and alleviates oxidative stress. Methods Here, we designed a randomised, double-blinded, placebo-controlled phase-II clinical trial and studied the effect of CMA administration on the global metabolism of AD patients. One-dose CMA included 12.35 g L-serine (61.75%), 1 g nicotinamide riboside (5%), 2.55 g N-acetyl-L-cysteine (12.75%), and 3.73 g L-carnitine tartrate (18.65%). AD patients received one dose of CMA or placebo daily during the first 28 days and twice daily between day 28 and day 84. The primary endpoint was the difference in the cognitive function and daily living activity scores between the placebo and the treatment arms. The secondary aim of this study was to evaluate the safety and tolerability of CMA. A comprehensive plasma metabolome and proteome analysis was also performed to evaluate the efficacy of the CMA in AD patients. Results We showed a significant decrease of AD Assessment Scale-cognitive subscale (ADAS-Cog) score on day 84 vs day 0 (P = 0.00001, 29% improvement) in the CMA group. Moreover, there was a significant decline (P = 0.0073) in ADAS-Cog scores (improvement of cognitive functions) in the CMA compared to the placebo group in patients with higher ADAS-Cog scores. Improved cognitive functions in AD patients were supported by the relevant alterations in the hippocampal volumes and cortical thickness based on imaging analysis. Moreover, the plasma levels of proteins and metabolites associated with NAD + and glutathione metabolism were significantly improved after CMA treatment. Conclusion Our results indicate that treatment of AD patients with CMA can lead to enhanced cognitive functions and improved clinical parameters associated with phenomics, metabolomics, proteomics and imaging analysis. Trial registration ClinicalTrials.gov NCT04044131 Registered 17 July 2019, https://clinicaltrials.gov/ct2/show/NCT04044131

Published

2023

5. Combined metabolic activators improve cognitive functions in Alzheimer's disease patients: a randomised, double-blinded, placebo-controlled phase-II trial.

Author

Yulug, Burak, Altay, Ozlem, Li, Xiangyu, Hanoglu, Lutfu, Cankaya, Seyda, Lam, Simon, Velioglu, Halil Aziz, Yang, Hong, Coskun, Ebru, Idil, Ezgi, Nogaylar, Rahim, Ozsimsek, Ahmet, Bayram, Cemil, Bolat, Ismail, Oner, Sena, Tozlu, Ozlem Ozdemir, Arslan, Mehmet Enes, Hacimuftuoglu, Ahmet, Yildirim, Serkan, and Arif, Muhammad

Subjects

*ALZHEIMER'S patients, *COGNITIVE ability, *FATTY acid oxidation, *ALZHEIMER'S disease, *APOLIPOPROTEIN E4, *PROTEOMICS, *VISUAL fields

Abstract

Background: Alzheimer's disease (AD) is associated with metabolic abnormalities linked to critical elements of neurodegeneration. We recently administered combined metabolic activators (CMA) to the AD rat model and observed that CMA improves the AD-associated histological parameters in the animals. CMA promotes mitochondrial fatty acid uptake from the cytosol, facilitates fatty acid oxidation in the mitochondria, and alleviates oxidative stress. Methods: Here, we designed a randomised, double-blinded, placebo-controlled phase-II clinical trial and studied the effect of CMA administration on the global metabolism of AD patients. One-dose CMA included 12.35 g L-serine (61.75%), 1 g nicotinamide riboside (5%), 2.55 g N-acetyl-L-cysteine (12.75%), and 3.73 g L-carnitine tartrate (18.65%). AD patients received one dose of CMA or placebo daily during the first 28 days and twice daily between day 28 and day 84. The primary endpoint was the difference in the cognitive function and daily living activity scores between the placebo and the treatment arms. The secondary aim of this study was to evaluate the safety and tolerability of CMA. A comprehensive plasma metabolome and proteome analysis was also performed to evaluate the efficacy of the CMA in AD patients. Results: We showed a significant decrease of AD Assessment Scale-cognitive subscale (ADAS-Cog) score on day 84 vs day 0 (P = 0.00001, 29% improvement) in the CMA group. Moreover, there was a significant decline (P = 0.0073) in ADAS-Cog scores (improvement of cognitive functions) in the CMA compared to the placebo group in patients with higher ADAS-Cog scores. Improved cognitive functions in AD patients were supported by the relevant alterations in the hippocampal volumes and cortical thickness based on imaging analysis. Moreover, the plasma levels of proteins and metabolites associated with NAD + and glutathione metabolism were significantly improved after CMA treatment. Conclusion: Our results indicate that treatment of AD patients with CMA can lead to enhanced cognitive functions and improved clinical parameters associated with phenomics, metabolomics, proteomics and imaging analysis. Trial registration ClinicalTrials.gov NCT04044131 Registered 17 July 2019, https://clinicaltrials.gov/ct2/show/NCT04044131 [ABSTRACT FROM AUTHOR]

Published

2023

6. Combined Metabolic Activators Accelerates Recovery in Mild‐to‐Moderate COVID‐19.

Author

Altay, Ozlem, Arif, Muhammad, Li, Xiangyu, Yang, Hong, Aydın, Mehtap, Alkurt, Gizem, Kim, Woonghee, Akyol, Dogukan, Zhang, Cheng, Dinler‐Doganay, Gizem, Turkez, Hasan, Shoaie, Saeed, Nielsen, Jens, Borén, Jan, Olmuscelik, Oktay, Doganay, Levent, Uhlén, Mathias, and Mardinoglu, Adil

Subjects

*COVID-19, *NAD (Coenzyme), *GLUTATHIONE, *BLOOD proteins, *NICOTINAMIDE, *RESPIRATORY infections, *CARNITINE

Abstract

COVID‐19 is associated with mitochondrial dysfunction and metabolic abnormalities, including the deficiencies in nicotinamide adenine dinucleotide (NAD+) and glutathione metabolism. Here it is investigated if administration of a mixture of combined metabolic activators (CMAs) consisting of glutathione and NAD+ precursors can restore metabolic function and thus aid the recovery of COVID‐19 patients. CMAs include l‐serine, N‐acetyl‐l‐cysteine, nicotinamide riboside, and l‐carnitine tartrate, salt form of l‐carnitine. Placebo‐controlled, open‐label phase 2 study and double‐blinded phase 3 clinical trials are conducted to investigate the time of symptom‐free recovery on ambulatory patients using CMAs. The results of both studies show that the time to complete recovery is significantly shorter in the CMA group (6.6 vs 9.3 d) in phase 2 and (5.7 vs 9.2 d) in phase 3 trials compared to placebo group. A comprehensive analysis of the plasma metabolome and proteome reveals major metabolic changes. Plasma levels of proteins and metabolites associated with inflammation and antioxidant metabolism are significantly improved in patients treated with CMAs as compared to placebo. The results show that treating patients infected with COVID‐19 with CMAs lead to a more rapid symptom‐free recovery, suggesting a role for such a therapeutic regime in the treatment of infections leading to respiratory problems. [ABSTRACT FROM AUTHOR]

Published

2021

7. Combined Metabolic Activators Accelerates Recovery in Mild‐to‐Moderate COVID‐19

Author

Ozlem Altay, Muhammad Arif, Xiangyu Li, Hong Yang, Mehtap Aydın, Gizem Alkurt, Woonghee Kim, Dogukan Akyol, Cheng Zhang, Gizem Dinler‐Doganay, Hasan Turkez, Saeed Shoaie, Jens Nielsen, Jan Borén, Oktay Olmuscelik, Levent Doganay, Mathias Uhlén, and Adil Mardinoglu

Subjects

combined metabolic activators, COVID‐19, metabolomics, omics data, proteomics, Science

Abstract

Abstract COVID‐19 is associated with mitochondrial dysfunction and metabolic abnormalities, including the deficiencies in nicotinamide adenine dinucleotide (NAD+) and glutathione metabolism. Here it is investigated if administration of a mixture of combined metabolic activators (CMAs) consisting of glutathione and NAD+ precursors can restore metabolic function and thus aid the recovery of COVID‐19 patients. CMAs include l‐serine, N‐acetyl‐l‐cysteine, nicotinamide riboside, and l‐carnitine tartrate, salt form of l‐carnitine. Placebo‐controlled, open‐label phase 2 study and double‐blinded phase 3 clinical trials are conducted to investigate the time of symptom‐free recovery on ambulatory patients using CMAs. The results of both studies show that the time to complete recovery is significantly shorter in the CMA group (6.6 vs 9.3 d) in phase 2 and (5.7 vs 9.2 d) in phase 3 trials compared to placebo group. A comprehensive analysis of the plasma metabolome and proteome reveals major metabolic changes. Plasma levels of proteins and metabolites associated with inflammation and antioxidant metabolism are significantly improved in patients treated with CMAs as compared to placebo. The results show that treating patients infected with COVID‐19 with CMAs lead to a more rapid symptom‐free recovery, suggesting a role for such a therapeutic regime in the treatment of infections leading to respiratory problems.

Published

2021

8. Combined metabolic activators improve metabolic functions in the animal models of neurodegenerative diseases

Author

Turkez, Hasan, Altay, Özlem, Yildirim, Serkan, Li, Xiangyu, Yang, Hong, Bayram, Cemil, Bolat, Ismail, Oner, Sena, Tozlu, Ozlem Ozdemir, Arslan, Mehmet Enes, Arif, Muhammad, Yulug, Burak, Hanoglu, Lutfu, Cankaya, Seyda, Lam, Simon, Velioglu, Halil Aziz, Coskun, Ebru, Idil, Ezgi, Nogaylar, Rahim, Ozsimsek, Ahmet, Hacimuftuoglu, Ahmet, Shoaie, Saeed, Zhang, Cheng, Nielsen, Jens, Boren, Jan, Uhlén, Mathias, Mardinoglu, Adil, Turkez, Hasan, Altay, Özlem, Yildirim, Serkan, Li, Xiangyu, Yang, Hong, Bayram, Cemil, Bolat, Ismail, Oner, Sena, Tozlu, Ozlem Ozdemir, Arslan, Mehmet Enes, Arif, Muhammad, Yulug, Burak, Hanoglu, Lutfu, Cankaya, Seyda, Lam, Simon, Velioglu, Halil Aziz, Coskun, Ebru, Idil, Ezgi, Nogaylar, Rahim, Ozsimsek, Ahmet, Hacimuftuoglu, Ahmet, Shoaie, Saeed, Zhang, Cheng, Nielsen, Jens, Boren, Jan, Uhlén, Mathias, and Mardinoglu, Adil

Abstract

Background: Neurodegenerative diseases (NDDs), including Alzheimer's disease (AD) and Parkinson's disease (PD), are associated with metabolic abnormalities. Integrative analysis of human clinical data and animal studies have contributed to a better understanding of the molecular and cellular pathways involved in the progression of NDDs. Previously, we have reported that the combined metabolic activators (CMA), which include the precursors of nicotinamide adenine dinucleotide and glutathione can be utilized to alleviate metabolic disorders by acti-vating mitochondrial metabolism. Methods: We first analysed the brain transcriptomics data from AD patients and controls using a brain-specific genome-scale metabolic model (GEM). Then, we investigated the effect of CMA administration in animal models of AD and PD. We evaluated pathological and immunohistochemical findings of brain and liver tissues. Moreover, PD rats were tested for locomotor activity and apomorphine-induced rotation. Findings: Analysis of transcriptomics data with GEM revealed that mitochondrial dysfunction is involved in the underlying molecular pathways of AD. In animal models of AD and PD, we showed significant damage in the high-fat diet groups' brain and liver tissues compared to the chow diet. The histological analyses revealed that hyperemia, degeneration and necrosis in neurons were improved by CMA administration in both AD and PD animal models. These findings were supported by immunohistochemical evidence of decreased immunoreactivity in neurons. In parallel to the improvement in the brain, we also observed dramatic metabolic improvement in the liver tissue. CMA administration also showed a beneficial effect on behavioural functions in PD rats.Interpretation: Overall, we showed that CMA administration significantly improved behavioural scores in parallel with the neurohistological outcomes in the AD and PD animal models and is a promising treatment for improving the metabolic parameters and brain, QC 20230227

Published

2023

9. Combined Metabolic Activators Decrease Liver Steatosis by Activating Mitochondrial Metabolism in Hamsters Fed with a High-Fat Diet

Author

Hong Yang, Jordi Mayneris-Perxachs, Noemí Boqué, Josep M. del Bas, Lluís Arola, Meng Yuan, Hasan Türkez, Mathias Uhlén, Jan Borén, Cheng Zhang, Adil Mardinoglu, and Antoni Caimari

Subjects

NAFLD, combined metabolic activators, transcriptomics, mitochondrial metabolism, Biology (General), QH301-705.5

Abstract

Although the prevalence of non-alcoholic fatty liver disease (NAFLD) continues to increase, there is no effective treatment approved for this condition. We previously showed, in high-fat diet (HFD)-fed mice, that the supplementation of combined metabolic activators (CMA), including nicotinamide riboside (NAD+ precursor) and the potent glutathione precursors serine and N-acetyl-l-cysteine (NAC), significantly decreased fatty liver by promoting fat oxidation in mitochondria. Afterwards, in a one-day proof-of-concept human supplementation study, we observed that this CMA, including also L-carnitine tartrate (LCT), resulted in increased fatty acid oxidation and de novo glutathione synthesis. However, the underlying molecular mechanisms associated with supplementation of CMA have not been fully elucidated. Here, we demonstrated in hamsters that the chronic supplementation of this CMA (changing serine for betaine) at two doses significantly decreased hepatic steatosis. We further generated liver transcriptomics data and integrated these data using a liver-specific genome-scale metabolic model of liver tissue. We systemically determined the molecular changes after the supplementation of CMA and found that it activates mitochondria in the liver tissue by modulating global lipid, amino acid, antioxidant and folate metabolism. Our findings provide extra evidence about the beneficial effects of a treatment based on this CMA against NAFLD.

Published

2021

10. Longitudinal metabolomics analysis reveals the acute effect of cysteine and NAC included in the combined metabolic activators

Author

Hong Yang, Xiangyu Li, Han Jin, Hasan Turkez, Gurkan Ozturk, Hamdi Levent Doganay, Cheng Zhang, Jens Nielsen, Mathias Uhlén, Jan Borén, and Adil Mardinoglu

Subjects

Combined Metabolic Activators, N-Acetyl-L-Cysteine, Physiology (medical), Metabolomics, Cysteine, Nicotinamide, Niacin, Biochemistry

Abstract

Growing evidence suggests that the depletion of plasma NAD+ and glutathione (GSH) may play an important role in the development of metabolic disorders. The administration of Combined Metabolic Activators (CMA), consisting of GSH and NAD+ precursors, has been explored as a promising therapeutic strategy to target multiple altered pathways associated with the pathogenesis of the diseases. Although studies have examined the therapeutic effect of CMA that contains N-acetyl-L-cysteine (NAC) as a metabolic activator, a system-wide comparison of the metabolic response to the administration of CMA with NAC and cysteine remains lacking. In this placebo-controlled study, we studied the acute effect of the CMA administration with different metabolic activators, including NAC or cysteine with/without nicotinamide or flush free niacin, and performed longitudinal untargeted-metabolomics profiling of plasma obtained from 70 well-characterized healthy volunteers. The time-series metabolomics data revealed the metabolic pathways affected after the administration of CMAs showed high similarity between CMA containing nicotinamide and NAC or cysteine as metabolic activators. Our analysis also showed that CMA with cysteine is well-tolerated and safe in healthy individuals throughout the study. Last, our study systematically provided insights into a complex and dynamics landscape involved in amino acid, lipid and nicotinamide metabolism, reflecting the metabolic responses to CMA administration containing different metabolic activators. PoLiMeR Innovative Training Network ; SNIC ; ScandiBio Therapeutics ; U.S. Food and Drug Administration ; H2020 Marie Skłodowska-Curie Actions ; National Arts Council - Singapore ; Knut och Alice Wallenbergs Stiftelse ; Chinese Medical Association ; Horizon 2020

Published

2023

11. Combined metabolic activators improve metabolic functions in the animal models of neurodegenerative diseases

Author

Hasan Turkez, Ozlem Altay, Serkan Yildirim, Xiangyu Li, Hong Yang, Cemil Bayram, Ismail Bolat, Sena Oner, Ozlem Ozdemir Tozlu, Mehmet Enes Arslan, Muhammad Arif, Burak Yulug, Lutfu Hanoglu, Seyda Cankaya, Simon Lam, Halil Aziz Velioglu, Ebru Coskun, Ezgi Idil, Rahim Nogaylar, Ahmet Ozsimsek, Ahmet Hacimuftuoglu, Saeed Shoaie, Cheng Zhang, Jens Nielsen, Jan Borén, Mathias Uhlén, and Adil Mardinoglu

Subjects

Combined Metabolic Activators, Genome-Scale Metabolic Model, Neurodegenerative Diseases, General Medicine, Animal Model, General Pharmacology, Toxicology and Pharmaceutics, General Biochemistry, Genetics and Molecular Biology

Abstract

Background: Neurodegenerative diseases (NDDs), including Alzheimer's disease (AD) and Parkinson's disease (PD), are associated with metabolic abnormalities. Integrative analysis of human clinical data and animal studies have contributed to a better understanding of the molecular and cellular pathways involved in the progression of NDDs. Previously, we have reported that the combined metabolic activators (CMA), which include the precursors of nicotinamide adenine dinucleotide and glutathione can be utilized to alleviate metabolic disorders by activating mitochondrial metabolism. Methods: We first analysed the brain transcriptomics data from AD patients and controls using a brain-specific genome-scale metabolic model (GEM). Then, we investigated the effect of CMA administration in animal models of AD and PD. We evaluated pathological and immunohistochemical findings of brain and liver tissues. Moreover, PD rats were tested for locomotor activity and apomorphine-induced rotation. Findings: Analysis of transcriptomics data with GEM revealed that mitochondrial dysfunction is involved in the underlying molecular pathways of AD. In animal models of AD and PD, we showed significant damage in the high-fat diet groups' brain and liver tissues compared to the chow diet. The histological analyses revealed that hyperemia, degeneration and necrosis in neurons were improved by CMA administration in both AD and PD animal models. These findings were supported by immunohistochemical evidence of decreased immunoreactivity in neurons. In parallel to the improvement in the brain, we also observed dramatic metabolic improvement in the liver tissue. CMA administration also showed a beneficial effect on behavioural functions in PD rats. Interpretation: Overall, we showed that CMA administration significantly improved behavioural scores in parallel with the neurohistological outcomes in the AD and PD animal models and is a promising treatment for improving the metabolic parameters and brain functions in NDDs. PoLiMeR Innovative Training Network ; SNIC ; ScandiBio Therapeutics ; ScandiBio Therapeutics and Knut ; Knut och Alice Wallenbergs Stiftelse

Published

2023

12. Combined Metabolic Activators Decrease Liver Steatosis by Activating Mitochondrial Metabolism in Hamsters Fed with a High-Fat Diet

Author

Yang, Hong, Mayneris-Perxachs, Jordi, Boque, Noemi, del Bas, Josep M., Arola, Lluis, Yuan, Meng, Tuerkez, Hasan, Uhlén, Mathias, Boren, Jan, Zhang, Cheng, Mardinoglu, Adil, Caimari, Antoni, Yang, Hong, Mayneris-Perxachs, Jordi, Boque, Noemi, del Bas, Josep M., Arola, Lluis, Yuan, Meng, Tuerkez, Hasan, Uhlén, Mathias, Boren, Jan, Zhang, Cheng, Mardinoglu, Adil, and Caimari, Antoni

Abstract

Although the prevalence of non-alcoholic fatty liver disease (NAFLD) continues to increase, there is no effective treatment approved for this condition. We previously showed, in high-fat diet (HFD)-fed mice, that the supplementation of combined metabolic activators (CMA), including nicotinamide riboside (NAD(+) precursor) and the potent glutathione precursors serine and N-acetyl-l-cysteine (NAC), significantly decreased fatty liver by promoting fat oxidation in mitochondria. Afterwards, in a one-day proof-of-concept human supplementation study, we observed that this CMA, including also L-carnitine tartrate (LCT), resulted in increased fatty acid oxidation and de novo glutathione synthesis. However, the underlying molecular mechanisms associated with supplementation of CMA have not been fully elucidated. Here, we demonstrated in hamsters that the chronic supplementation of this CMA (changing serine for betaine) at two doses significantly decreased hepatic steatosis. We further generated liver transcriptomics data and integrated these data using a liver-specific genome-scale metabolic model of liver tissue. We systemically determined the molecular changes after the supplementation of CMA and found that it activates mitochondria in the liver tissue by modulating global lipid, amino acid, antioxidant and folate metabolism. Our findings provide extra evidence about the beneficial effects of a treatment based on this CMA against NAFLD., QC 20211122

Published

2021

13. Combined metabolic activators decrease liver steatosis by activating mitochondrial metabolism in hamsters fed with a high-fat diet

Author

Universitat Rovira i Virgili, Yang H; Mayneris-Perxachs J; Boqué N; Del Bas JM; Arola L; Yuan M; Türkez H; Uhlén M; Borén J; Zhang C; Mardinoglu A; Caimari A, Universitat Rovira i Virgili, and Yang H; Mayneris-Perxachs J; Boqué N; Del Bas JM; Arola L; Yuan M; Türkez H; Uhlén M; Borén J; Zhang C; Mardinoglu A; Caimari A

Abstract

Although the prevalence of non-alcoholic fatty liver disease (NAFLD) continues to increase, there is no effective treatment approved for this condition. We previously showed, in high-fat diet (HFD)-fed mice, that the supplementation of combined metabolic activators (CMA), including nicotinamide riboside (NAD+ precursor) and the potent glutathione precursors serine and N-acetyl-l-cysteine (NAC), significantly decreased fatty liver by promoting fat oxidation in mitochondria. Afterwards, in a one-day proof-of-concept human supplementation study, we observed that this CMA, including also L-carnitine tartrate (LCT), resulted in increased fatty acid oxidation and de novo glutathione synthesis. However, the underlying molecular mechanisms associated with sup-plementation of CMA have not been fully elucidated. Here, we demonstrated in hamsters that the chronic supplementation of this CMA (changing serine for betaine) at two doses significantly decreased hepatic steatosis. We further generated liver transcriptomics data and integrated these data using a liver-specific genome-scale metabolic model of liver tissue. We systemically determined the molecular changes after the supplementation of CMA and found that it activates mitochondria in the liver tissue by modulating global lipid, amino acid, antioxidant and folate metabolism. Our findings provide extra evidence about the beneficial effects of a treatment based on this CMA against NAFLD.

Published

2021

14. Combined metabolic activators improve metabolic functions in the animal models of neurodegenerative diseases.

Author

Turkez H, Altay O, Yildirim S, Li X, Yang H, Bayram C, Bolat I, Oner S, Tozlu OO, Arslan ME, Arif M, Yulug B, Hanoglu L, Cankaya S, Lam S, Velioglu HA, Coskun E, Idil E, Nogaylar R, Ozsimsek A, Hacimuftuoglu A, Shoaie S, Zhang C, Nielsen J, Borén J, Uhlén M, and Mardinoglu A

Subjects

Humans, Animals, Rats, Mitochondria metabolism, Models, Animal, Disease Models, Animal, Neurodegenerative Diseases metabolism, Parkinson Disease metabolism, Alzheimer Disease metabolism

Abstract

Background: Neurodegenerative diseases (NDDs), including Alzheimer's disease (AD) and Parkinson's disease (PD), are associated with metabolic abnormalities. Integrative analysis of human clinical data and animal studies have contributed to a better understanding of the molecular and cellular pathways involved in the progression of NDDs. Previously, we have reported that the combined metabolic activators (CMA), which include the precursors of nicotinamide adenine dinucleotide and glutathione can be utilized to alleviate metabolic disorders by activating mitochondrial metabolism., Methods: We first analysed the brain transcriptomics data from AD patients and controls using a brain-specific genome-scale metabolic model (GEM). Then, we investigated the effect of CMA administration in animal models of AD and PD. We evaluated pathological and immunohistochemical findings of brain and liver tissues. Moreover, PD rats were tested for locomotor activity and apomorphine-induced rotation., Findings: Analysis of transcriptomics data with GEM revealed that mitochondrial dysfunction is involved in the underlying molecular pathways of AD. In animal models of AD and PD, we showed significant damage in the high-fat diet groups' brain and liver tissues compared to the chow diet. The histological analyses revealed that hyperemia, degeneration and necrosis in neurons were improved by CMA administration in both AD and PD animal models. These findings were supported by immunohistochemical evidence of decreased immunoreactivity in neurons. In parallel to the improvement in the brain, we also observed dramatic metabolic improvement in the liver tissue. CMA administration also showed a beneficial effect on behavioural functions in PD rats., Interpretation: Overall, we showed that CMA administration significantly improved behavioural scores in parallel with the neurohistological outcomes in the AD and PD animal models and is a promising treatment for improving the metabolic parameters and brain functions in NDDs., Competing Interests: Declaration of competing interest AM, JB and MU are the founder and shareholders of ScandiBio Therapeutics. The other authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

15. Combined Metabolic Activators Decrease Liver Steatosis by Activating Mitochondrial Metabolism in Hamsters Fed with a High-Fat Diet.

Author

Yang H, Mayneris-Perxachs J, Boqué N, Del Bas JM, Arola L, Yuan M, Türkez H, Uhlén M, Borén J, Zhang C, Mardinoglu A, and Caimari A

Abstract

Although the prevalence of non-alcoholic fatty liver disease (NAFLD) continues to increase, there is no effective treatment approved for this condition. We previously showed, in high-fat diet (HFD)-fed mice, that the supplementation of combined metabolic activators (CMA), including nicotinamide riboside (NAD + precursor) and the potent glutathione precursors serine and N-acetyl-l-cysteine (NAC), significantly decreased fatty liver by promoting fat oxidation in mitochondria. Afterwards, in a one-day proof-of-concept human supplementation study, we observed that this CMA, including also L-carnitine tartrate (LCT), resulted in increased fatty acid oxidation and de novo glutathione synthesis. However, the underlying molecular mechanisms associated with supplementation of CMA have not been fully elucidated. Here, we demonstrated in hamsters that the chronic supplementation of this CMA (changing serine for betaine) at two doses significantly decreased hepatic steatosis. We further generated liver transcriptomics data and integrated these data using a liver-specific genome-scale metabolic model of liver tissue. We systemically determined the molecular changes after the supplementation of CMA and found that it activates mitochondria in the liver tissue by modulating global lipid, amino acid, antioxidant and folate metabolism. Our findings provide extra evidence about the beneficial effects of a treatment based on this CMA against NAFLD.

Published

2021