May 2025
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18 Reads
Background: mTOR activation is associated with chronic inflammation in ME/CFS. Previous studies have shown that sustained mTOR activation can cause chronic muscle fatigue by inhibiting ATG13-mediated autophagy. This highlights the pivotal role of mTOR in the pathogenesis of ME/CFS. Methods: We conducted a decentralized, uncontrolled trial of rapamycin in 86 patients with ME/CFS to evaluate its safety and efficacy. Low-dose rapamycin (6 mg/week) was administered, and core ME/CFS symptoms were assessed on days 30 (T1), 60 (T2), and 90 (T3). Plasma levels of autophagy metabolites, such as pSer258-ATG13 and BECLIN-1, were measured and correlated with clinical outcomes, specifically MFI. Results: Rapamycin (6 mg/week) was tolerated without any SAEs. Of the 40 patients, 29 (72.5%) showed strong recovery in PEM, fatigue, and OI, along with improvements in MFI fatigue domains and SF-36 aspects. High levels of BECLIN-1 were detected in T3. Plasma pSer258-ATG13 levels were strongly downregulated at T1. Spearman’s correlation analysis indicated an association between autophagy impairment and reduced activity. Conclusions: Low-dose rapamycin effectively reduced PEM and other key symptoms in patients with ME/CFS, as measured by BAS, SSS, MFI, and SF-36. Future studies should encompass dose optimization and develop a diagnostic tool to identify responders with mTOR-mediated autophagy disruption.
![CBSB measures for speed of performance by study groups across timepoints. Estimated mean score [95% Confidence Interval (CI)] in CogState measures across 5 sessions: LMN = Speed is represented by the mean of the log10 transformed reaction times for correct responses; MPS = Moves per second; DET = Detection, IDN = Identification, OCL = One Card Learning, ONB = 1-Back, TWOB- 2-Back, GML = Groton Maze Learning; *p < 0.01.](https://www.researchgate.net/publication/385481899/figure/fig1/AS:11431281290568501@1731686275838/CBSB-measures-for-speed-of-performance-by-study-groups-across-timepoints-Estimated-mean_Q320.jpg)
![Fig. 2 Mean Difference in Health Measures Between ME/CFS Participants With and Without Individual COPCs. Matrix graphs of health measures (A-G) by COPC comorbidities. Rows give the mean difference in specific subscale scores for ME/CFS participants with and without COPC in the column. SF-36 = 36-item Health Survey -Short Form [35]; PROMIS = Patient-Reported Outcomes Measurement Information System [29-34]; CDC-SI = CDC Symptom Inventory [26]; MFI-20 = 20-item Multidimensional Fatigue Inventory [27, 28]; BPI = Brief Pain Inventory [25]; CDC-HRQoL Unhealthy days [36]; cMHA = chronic migraine/headache; FM = fibromyalgia; cLBP = chronic low back pain; IBS = irritable bowel syndrome; TMD = temporomandibular disorder; IC/IB = interstitial cystitis/irritable bladder; COPCs = chronic overlapping pain conditions a p < 0.05, b p < 0.01,](https://www.researchgate.net/publication/385042990/figure/fig2/AS:11431281284498494@1729295936994/Mean-Difference-in-Health-Measures-Between-ME-CFS-Participants-With-and-Without_Q320.jpg)
![Anaerobic PPP upregulated the biosynthesis of BH4. (A) BH4 was quantified in the plasma samples of ME + OI (n = 10) and age-/gender-matched HC subjects. The BH4 levels in plasma were normalized with total protein concentration and further adjusted with the molecular weight of BH4 (241.25 g/mole). The final result was expressed by the pmol/mg unit. (B) The level of GTPCH1 or GCH1 enzyme was quantified in PBMCs of ME + OI (n = 10) and HC (n = 10) healthy subjects as described under the method section. (C) Dihydrobiopterin (BH2), the BH4 metabolite and also a precursor of BH4 via the regenerative pathway, was quantified by ELISA in the plasma samples of ME + OI (n = 10) and HC (n = 10) subjects as described under method section. (D) Plasma levels of dihydropteridine reductase (DHPR), the critical enzyme of BH4 biosynthesis via the regenerative pathway, had been quantified by ELISA in ME + OI (n = 10) and HC (n = 10) subjects. Results are mean ±SEM of 3 independent experiments. An unpaired t-test was performed to test the significance of the mean between groups that resulted in *P < 0.05 and ***P < 0.001 vs HC groups. (E) An ELISA study was performed to quantify the expression of GTPCH1 in C20 microglial cells treated with increasing doses of R5P under regular and hypoxic conditions. A two-way ANOVA [2 effectors are condition (regular/hypoxia) and treatment (control/R5P)] was performed to test the significance of the mean between groups. ***P < 0.001 and *P < 0.05 vs regular and hypoxia controls respectively. Ns = no significance. (F) Immunofluorescence study of GTPCH1 was performed in C20 microglia treated with 10 µM R5P under regular and hypoxic conditions. Nuclei were stained with DAPI (blue). ELISA-based quantifications of (G) BH4 and (H) BH2 levels were performed in C20 microglial cells treated with 2,5, and 10 μM of R5P under regular(green bars) and hypoxic (red bars) conditions. A two-way ANOVA was performed to test the significance of the mean between groups. *P < .05 and ***P < .001 vs controls. Ns = no significance. Results were confirmed after 3 different experiments.](https://www.researchgate.net/publication/383229689/figure/fig5/AS:11431281272432537@1724088195873/Anaerobic-PPP-upregulated-the-biosynthesis-of-BH4-A-BH4-was-quantified-in-the-plasma_Q320.jpg)
![Quantitative analysis of BH4 in serum samples of control and CFS subjects. (A) Serum samples were 1:2 diluted by assay diluents and then assayed for BH4 by competitive ELISA method. n = 30 control and n = 32 CFS subjects were included. The significance of mean was tested by a Mann–Whitney U test between two groups at * p < 0.05. (B) A non-parametric Spearman correlation analysis was performed to determine the relationship between age and serum BH4 levels of n = 62 subjects (Red = CFS and green = control). Trendline was shown through the data points. (C) A scatter dot plot analysis compares BH4 levels in control males (n = 16; light green), control females (n = 18; deep green), CFS males (n = 13; light red), and CFS females (n = 19; deep red). A two-way ANOVA analysis (effectors are gender and disease) showed that irrespective of gender difference, the BH4 level is always higher in CFS compared to control. To compare the significance of mean between groups, a normality distribution test was performed, which indicates the first three groups were normally distributed. However, CFS female group failed the normality test. As a result, both parametric (unpaired t-test) and non-parametric tests (Mann-Whiney U test) were performed. No significance was observed neither between control males and control females [unpaired t-test; t1,32 = 1.867; p > 0.05 (=0.07)], nor between CFS males and CFS females [MWU test; p > 0.05 (=0.9654); U = 123]. However, both CFS males and CFS females had significantly higher levels of BH4 compared to control males (unpaired t-test; t1,27 = 1.008; * p < 0.05; =0.0384) and females (MWU test; * p < 0.05; =0.0494), respectively. Ns = no significance. (D) A pair-wise comparison of BH4 between age- and gender-matched subjects (n = 15 pairs). The age and gender of each pair (Control/CFS) were as follows: 82M/76M, 70F/72F, 69M/67M, 64F/64F, 67F/67F, 52F/54F, 33M/32M, 74M/76M, 38M/41M, 22F/26F, 43F/45F, 44M/49M, 70F/69F, 57 F/56F, and 44F/49F. M = male and F = female. Significance was tested by Wilcoxon matched-pairs signed rank test ** p < 0.01 (=0.0015) versus control.](https://www.researchgate.net/publication/370790828/figure/fig1/AS:11431281387315659@1745112506757/Quantitative-analysis-of-BH4-in-serum-samples-of-control-and-CFS-subjects-A-Serum_Q320.jpg)
![Correlation between BH4 levels and ROS-inducing abilities in serum samples of CFS + OI subjects. (A) Control serum and CFS + OI serum-supplemented media was applied on DCFDA-transfected HMC3 human microglial cells for 90 min and then assayed for ROS using the fluorometric method [Ex:Em = 485 nm/535 nm]. n = 10 Control and n = 10 CFS + OI subjects were included. The significance of mean was tested by unpaired t-test between the two groups at * p < 0.05 (=0.0205). (B) Q-Q plot was derived to display normal distribution of data points. (C) A Pearson correlation analysis was performed to determine the relationship between ROS-inducing ability (as measured at fluorescence of 484 nm/535 nm) and serum BH4 levels of n = 20 subjects (Red = CFS + OI and green = control). Trendline was shown through the data points. (D) The potential role of BH4 in CFS was summarized in a sketch. BH4 induces the production of nitric oxide (NO) via catalytic activation of endothelial nitric oxide synthase (eNOS) enzyme. Endothelial NO stimulates vasodilation and facilitates hypotension. BH4 is prone to be oxidized in the presence of reactive nitrogen species (ONOO-) and induces oxidative stress. BH4 also inhibits electron transport chain (ETC) in complex-I and -IV (C-I and C-IV) steps and triggers mitochondrial toxicity. Another possibility is the activation of mTORC1 kinase complex and inhibition of autophagy.](https://www.researchgate.net/publication/370790828/figure/fig5/AS:11431281387287518@1745112508168/Correlation-between-BH4-levels-and-ROS-inducing-abilities-in-serum-samples-of-CFS-OI_Q320.jpg)
