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Twelve Weeks of Intermittent Caloric Restriction Diet Mitigates Neuroinflammation in Midlife Individuals with Multiple Sclerosis: A Pilot Study with Implications for Prevention of Alzheimer's Disease.
Rahmani, F, Ghezzi, L, Tosti, V, Liu, J, Song, SK, Wu, AT, Rajamanickam, J, Obert, KA, Benzinger, TLS, Mittendorfer, B, et al
Journal of Alzheimer's disease : JAD. 2023;(1):263-273
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Abstract
BACKGROUND Multiple sclerosis (MS) is a prototype neuroinflammatory disorder with increasingly recognized role for neurodegeneration. Most first-line treatments cannot prevent the progression of neurodegeneration and the resultant disability. Interventions can improve symptoms of MS and might provide insights into the underlying pathology. OBJECTIVE To investigate the effect of intermittent caloric restriction on neuroimaging markers of MS. METHODS We randomized ten participants with relapsing remitting MS to either a 12-week intermittent calorie restriction (iCR) diet (n = 5) or control (n = 5). Cortical thickness and volumes were measured through FreeSurfer, cortical perfusion was measured by arterial spin labeling and neuroinflammation through diffusion basis spectrum imaging. RESULTS After 12 weeks of iCR, brain volume increased in the left superior and inferior parietal gyri (p: 0.050 and 0.049, respectively) and the banks of the superior temporal sulcus (p: 0.01). Similarly in the iCR group, cortical thickness improved in the bilateral medial orbitofrontal gyri (p: 0.04 and 0.05 in right and left, respectively), the left superior temporal gyrus (p: 0.03), and the frontal pole (p: 0.008) among others. Cerebral perfusion decreased in the bilateral fusiform gyri (p: 0.047 and 0.02 in right and left, respectively) and increased in the bilateral deep anterior white matter (p: 0.03 and 0.013 in right and left, respectively). Neuroinflammation, demonstrated through hindered and restricted water fractions (HF and RF), decreased in the left optic tract (HF p: 0.02), and the right extreme capsule (RF p: 0.007 and HF p: 0.003). CONCLUSION These pilot data suggest therapeutic effects of iCR in improving cortical volume and thickness and mitigating neuroinflammation in midlife adults with MS.
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The Gut Microbiome-Brain Crosstalk in Neurodegenerative Diseases.
Ghezzi, L, Cantoni, C, Rotondo, E, Galimberti, D
Biomedicines. 2022;(7)
Abstract
The gut-brain axis (GBA) is a complex interactive network linking the gut to the brain. It involves the bidirectional communication between the gastrointestinal and the central nervous system, mediated by endocrinological, immunological, and neural signals. Perturbations of the GBA have been reported in many neurodegenerative diseases, suggesting a possible role in disease pathogenesis, making it a potential therapeutic target. The gut microbiome is a pivotal component of the GBA, and alterations in its composition have been linked to GBA dysfunction and CNS inflammation and degeneration. The gut microbiome might influence the homeostasis of the central nervous system homeostasis through the modulation of the immune system and, more directly, the production of molecules and metabolites. Small clinical and preclinical trials, in which microbial composition was manipulated using dietary changes, fecal microbiome transplantation, and probiotic supplements, have provided promising outcomes. However, results are not always consistent, and large-scale randomized control trials are lacking. Here, we give an overview of how the gut microbiome influences the GBA and could contribute to disease pathogenesis in neurodegenerative diseases.
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Intermittent Fasting Confers Protection in CNS Autoimmunity by Altering the Gut Microbiota.
Cignarella, F, Cantoni, C, Ghezzi, L, Salter, A, Dorsett, Y, Chen, L, Phillips, D, Weinstock, GM, Fontana, L, Cross, AH, et al
Cell metabolism. 2018;27(6):1222-1235.e6
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Calorie restriction (CR) has potent anti-inflammatory effects and has shown beneficial effects in an animal model for Multiple Sclerosis (MS). Intermittent Fasting (IF) has similar effects as CR and may be more acceptable long term than CR. This paper reports results from both an animal study and a pilot randomised controlled human clinical trial on IF and MS. The animal study showed that IF had beneficial effects on the MS animal model and that these effects were at least in part mediated by changes in the gut microbiome. 16 patients with relapsing remitting MS were enrolled during a relapse and randomised to either IF (6-7 fasting days during the two-week study) or normal eating. Changes in immune inflammatory parameters and gut flora were seen in the IF group which were similar to the beneficial changes in the animal model. The authors conclude that larger clinical studies to test IF and microbiome manipulation as a potential treatment in MS are warranted.
Abstract
Multiple sclerosis (MS) is more common in western countries with diet being a potential contributing factor. Here we show that intermittent fasting (IF) ameliorated clinical course and pathology of the MS model, experimental autoimmune encephalomyelitis (EAE). IF led to increased gut bacteria richness, enrichment of the Lactobacillaceae, Bacteroidaceae, and Prevotellaceae families and enhanced antioxidative microbial metabolic pathways. IF altered T cells in the gut with a reduction of IL-17 producing T cells and an increase in regulatory T cells. Fecal microbiome transplantation from mice on IF ameliorated EAE in immunized recipient mice on a normal diet, suggesting that IF effects are at least partially mediated by the gut flora. In a pilot clinical trial in MS patients, intermittent energy restriction altered blood adipokines and the gut flora resembling protective changes observed in mice. In conclusion, IF has potent immunomodulatory effects that are at least partially mediated by the gut microbiome.
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High prevalence of vitamin D deficiency among children with chronic kidney disease and kidney transplant.
Coccia, P, Blazquez, J, Contreras, M, Ferrais, V, Raddavero, C, Ghezzi, L, Busaniche, J, Beneitez, G, Kozak, A, Ferraris, J
Archivos argentinos de pediatria. 2017;(3):220-226
Abstract
INTRODUCTION Vitamin D (25(OH)D) deficiency is common among patients with chronic kidney disease (CKD). Our objective was to establish the prevalence of 25(OH)D deficiency among children with CKD and identify risk factors. A correlation was observed between 25(OH)D and parathormone intact molecule. POPULATION AND METHODS Cross-sectional study conducted between January 2013 and December 2015. Patients younger than 19 years old with and without CKD were included. RESULTS One hundred and sixty-seven patients were included. Group 1 (healthy controls): 32 participants; group 2 (stage 2-4 CKD, glomerular filtration rate between 89 and 15 mL/min/1.73 m2): 34 patients; group 3 (stage 5 CKD, dialysis): 46 patients; and group 4 (kidney transplant recipients): 55 patients. Deficiency of 25(OH)D was detected in 12.5% of healthy controls and 32% of CKD patients (p= 0.025). Also, 23% of patients in group 2, 51% in group 3, and 22% in group 4 had 25(OH)D deficiency; the mean 25(OH)D level of dialysis patients was significantly lower than that of the rest of the groups. Predictors of 25(OH)D deficiency included hypoalbuminemia, advanced CKD, and place of origin from the Northwest region of Argentina. The parathormone intact molecule was significantly higher in the group of patients with deficiency and was inversely correlated with 25(OH)D levels. CONCLUSION Among CKD patients, 32% had 25(OH)D deficiency, which reached 51% among those with stage 5 CKD (dialysis). Predictors of deficiency included hypoalbuminemia, advanced CKD, and place of origin from the Northwest region of Argentina.
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Antioxidants inhibit SAA formation and pro-inflammatory cytokine release in a human cell model of alkaptonuria.
Spreafico, A, Millucci, L, Ghezzi, L, Geminiani, M, Braconi, D, Amato, L, Chellini, F, Frediani, B, Moretti, E, Collodel, G, et al
Rheumatology (Oxford, England). 2013;(9):1667-73
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Abstract
OBJECTIVE Alkaptonuria (AKU) is an ultra-rare autosomal recessive disease that currently lacks an appropriate therapy. Recently we provided experimental evidence that AKU is a secondary serum amyloid A (SAA)-based amyloidosis. The aim of the present work was to evaluate the use of antioxidants to inhibit SAA amyloid and pro-inflammatory cytokine release in AKU. METHODS We adopted a human chondrocytic cell AKU model to evaluate the anti-amyloid capacity of a set of antioxidants that had previously been shown to counteract ochronosis in a serum AKU model. Amyloid presence was evaluated by Congo red staining. Homogentisic acid-induced SAA production and pro-inflammatory cytokine release (overexpressed in AKU patients) were evaluated by ELISA and multiplex systems, respectively. Lipid peroxidation was evaluated by means of a fluorescence-based assay. RESULTS Our AKU model allowed us to prove the efficacy of ascorbic acid combined with N-acetylcysteine, taurine, phytic acid and lipoic acid in significantly inhibiting SAA production, pro-inflammatory cytokine release and membrane lipid peroxidation. CONCLUSION All the tested antioxidant compounds were able to reduce the production of amyloid and may be the basis for establishing new therapies for AKU amyloidosis.
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Immunotherapy against amyloid pathology in Alzheimer's disease.
Galimberti, D, Ghezzi, L, Scarpini, E
Journal of the neurological sciences. 2013;(1-2):50-4
Abstract
The first drugs developed for Alzheimer's disease (AD), anticholinesterase inhibitors (AchEI), increase acetylcholine levels, previously demonstrated to be reduced in AD. To date, four AchEI are approved for the treatment of mild to moderate AD. A further therapeutic option available for moderate to severe AD is memantine. These treatments are symptomatic, whereas drugs under development are supposed to modify pathological steps leading to AD, thus acting on the evolution of the disease. For this reason they are currently termed "disease modifying" drugs. To block the progression of the disease, they have to interfere with pathogenic steps at the basis of clinical symptoms, including the deposition of extracellular amyloid beta (Aβ) plaques and of intracellular neurofibrillary tangles. The most innovative approach is represented by the vaccination and passive immunization against Aβ peptide. In this article, current knowledge about concluded and ongoing clinical trials with both vaccination with different antigens and passive immunization will be reviewed and discussed.