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Gut-brain axis: A matter of concern in neuropsychiatric disorders…!
Naveed, M, Zhou, QG, Xu, C, Taleb, A, Meng, F, Ahmed, B, Zhang, Y, Fukunaga, K, Han, F
Progress in neuro-psychopharmacology & biological psychiatry. 2021;:110051
Abstract
The gut microbiota is composed of a large number of microbes, usually regarded as commensal bacteria. It has become gradually clear that gastrointestinal microbiota affects gut pathophysiology and the central nervous system (CNS) function by modulating the signaling pathways of the microbiota-gut-brain (MGB) axis. This bidirectional MGB axis communication primarily acts through neuroendocrine, neuroimmune, and autonomic nervous systems (ANS) mechanisms. Accumulating evidence reveals that gut microbiota interacts with the host brain, and its modulation may play a critical role in the pathology of neuropsychiatric disorders. Recently, neuroscience research has established the significance of gut microbiota in the development of brain systems that are essential to stress-related behaviors, including depression and anxiety. Application of modulators of the MGB, such as psychobiotics (e.g., probiotics), prebiotics, and specific diets, may be a promising therapeutic approach for neuropsychiatric disorders. The present review article primarily focuses on the relevant features of the disturbances of the MGB axis in the pathophysiology of neuropsychiatric disorders and its potential mechanisms.
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2.
Imaging outcome measures of neuroprotection and repair in MS: A consensus statement from NAIMS.
Oh, J, Ontaneda, D, Azevedo, C, Klawiter, EC, Absinta, M, Arnold, DL, Bakshi, R, Calabresi, PA, Crainiceanu, C, Dewey, B, et al
Neurology. 2019;(11):519-533
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Abstract
OBJECTIVE To summarize current and emerging imaging techniques that can be used to assess neuroprotection and repair in multiple sclerosis (MS), and to provide a consensus opinion on the potential utility of each technique in clinical trial settings. METHODS Clinicians and scientists with expertise in the use of MRI in MS convened in Toronto, Canada, in November 2016 at a North American Imaging in Multiple Sclerosis (NAIMS) Cooperative workshop meeting. The discussion was compiled into a manuscript and circulated to all NAIMS members in attendance. Edits and feedback were incorporated until all authors were in agreement. RESULTS A wide spectrum of imaging techniques and analysis methods in the context of specific study designs were discussed, with a focus on the utility and limitations of applying each technique to assess neuroprotection and repair. Techniques were discussed under specific themes, and included conventional imaging, magnetization transfer ratio, diffusion tensor imaging, susceptibility-weighted imaging, imaging cortical lesions, magnetic resonance spectroscopy, PET, advanced diffusion imaging, sodium imaging, multimodal techniques, imaging of special regions, statistical considerations, and study design. CONCLUSIONS Imaging biomarkers of neuroprotection and repair are an unmet need in MS. There are a number of promising techniques with different strengths and limitations, and selection of a specific technique will depend on a number of factors, notably the question the trial seeks to answer. Ongoing collaborative efforts will enable further refinement and improved methods to image the effect of novel therapeutic agents that exert benefit in MS predominately through neuroprotective and reparative mechanisms.
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3.
Morphological and Pathological Characteristics of Brain in Diabetic Encephalopathy.
Chen, R, Shi, J, Yin, Q, Li, X, Sheng, Y, Han, J, Zhuang, P, Zhang, Y
Journal of Alzheimer's disease : JAD. 2018;(1):15-28
Abstract
Diabetes mellitus is a metabolic disease often accompanied by a series of complications, such as diabetic nephropathy, retinopathy, and diabetic foot. The survival time of diabetics has been significantly prolonged due to advancements in medicine. However, the prolonged survival time for diabetics can increase the prevalence of diabetic central nervous system disease. Diabetic encephalopathy (DE) has become one of the main complications of the disease, and the main clinical manifestation of DE is cognitive dysfunction. However, the typical morphological and pathological characteristics of the brain in DE are rarely systematically reported. Thus, this phenomenon severely restricts the diagnosis and treatment of DE. This article presents a description of the pathology characteristics of DE, including atrophy of the brain (gray matter, white matter, and hippocampus), changes in cerebrovascular morphology and function, impairment of synaptic plasticity, and dysfunction of neuroglia. In addition, abnormalities in the glymphatic clearance system of the brain are closely related to the progression of DE. A review of typical brain morphological and pathological characteristics would aid in the diagnosis and treatment of DE.
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[Two cases with generalized intracranial calcification due to hereditary folate malabsorption and literature review].
Zhang, Y, Wang, Q, Li, DX, Liu, YP, Song, JQ, Li, MQ, Qin, YP, Yang, YL
Zhonghua er ke za zhi = Chinese journal of pediatrics. 2016;(12):931-935
Abstract
Objective: This study aimed to investigate the clinical, biochemical and genetic features of two Chinese children with hereditary folate malabsorption. Method: Clinical features, laboratory examinations, treatment and SLC46A1 gene of two cases were studied. Reports on hereditary folate malabsorption utill September of 2016 were searched and the clinical and genetic characteristics of reported cases were summarized. Result: The two patients presented with megaloblastic anemia from their infant period and seizures, psychomotor retardation and regression. In case1, mean corpuscular volume (MCV) was 100 fl. Serum folate was 9.96 nmol/L. Folate and 5-methylenetetrahydrofolate in cerebrospinal fluid were 0 and 0.01 separately. In case 2, MCV was 93.9 fl. Serum folate was 4.49 nmol/L. The concentration of folate and 5-methylenetetrahydrofolate in cerebrospinal fluid were both zero. On their brain CT, progressive bilateral symmetrical calcification was observed. On their SLC46A1 gene, four mutations were identified. Case 1 had one novel mutation, c. 1238T>C (L413P) and c. 194-195insG (p.Cys66LeufsX99). From Case 2, two reported mutations, c. 1A>T (M1L) and c. 194-195insG (p.Cys66LeufsX99) were identified. The administration of folinic acid (60 to 120 mg per day) was initiated after diagnosis. Clinical improvement and normalized hematologic markers were observed after treatment. Totally 37 cases were reported in reviewed English literature, including 30 cases with mutations on SLC46A1 gene (only one Chinese patient). All the cases had the onset in infancy. The ratio of boys to girls was 1 to 1.5. Main manifestations were characterized by megaloblastic anemia (77%), failure to thrive (50%), diarrhea (27%), psychomotor retardation (63.6%), epilepsy (27%), and infection of respiratory system (45.5%). The concentration of folate in both serum and cerebrospinal fluid was decreased (72.7% and 63.6% respectively). Hypoimmunoglobulinemia accounted for 27.3%. Most of mutations in HFM were distributed between p. 65 and p. 68 (c.194-c.204), mainly due to insertion- or deletion-related frame shifts or generation of stop codons. Oral and parenteral folinic acid treatment was effective. Conclusion: Hereditary folate malabsorption often presented with megaloblastic anemia, abnormalities of digestive and nervous system, and hypoimmunoglobulinemia with recurrent infections. Low level of serum and CSF folate and screening SLC46A1 gene are keys to the etiologic study of the patients. Early supplement with folinic acid is beneficial to the prognosis.
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A human-specific de novo protein-coding gene associated with human brain functions.
Li, CY, Zhang, Y, Wang, Z, Zhang, Y, Cao, C, Zhang, PW, Lu, SJ, Li, XM, Yu, Q, Zheng, X, et al
PLoS computational biology. 2010;(3):e1000734
Abstract
To understand whether any human-specific new genes may be associated with human brain functions, we computationally screened the genetic vulnerable factors identified through Genome-Wide Association Studies and linkage analyses of nicotine addiction and found one human-specific de novo protein-coding gene, FLJ33706 (alternative gene symbol C20orf203). Cross-species analysis revealed interesting evolutionary paths of how this gene had originated from noncoding DNA sequences: insertion of repeat elements especially Alu contributed to the formation of the first coding exon and six standard splice junctions on the branch leading to humans and chimpanzees, and two subsequent substitutions in the human lineage escaped two stop codons and created an open reading frame of 194 amino acids. We experimentally verified FLJ33706's mRNA and protein expression in the brain. Real-Time PCR in multiple tissues demonstrated that FLJ33706 was most abundantly expressed in brain. Human polymorphism data suggested that FLJ33706 encodes a protein under purifying selection. A specifically designed antibody detected its protein expression across human cortex, cerebellum and midbrain. Immunohistochemistry study in normal human brain cortex revealed the localization of FLJ33706 protein in neurons. Elevated expressions of FLJ33706 were detected in Alzheimer's brain samples, suggesting the role of this novel gene in human-specific pathogenesis of Alzheimer's disease. FLJ33706 provided the strongest evidence so far that human-specific de novo genes can have protein-coding potential and differential protein expression, and be involved in human brain functions.
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Effects of quetiapine on cognitive functions in schizophrenic patients: a preliminary single-trial ERP analysis.
Zhang, Y, Lehmann, M, Shobeiry, A, Höfer, D, Johannes, S, Emrich, HM, Dietrich, DE
Pharmacopsychiatry. 2009;(4):129-34
Abstract
AIM: The study aimed to explore by means of single-trial event-related potentials (ERPs), whether and how the medication change from older neuroleptics to quetiapine in schizophrenic patients led to a significant cognitive enhancement. This single-trial ERP analysis helps to investigate attention and memory processes in the single patient before and after treatment. PATIENTS AND METHODS Thirteen schizophrenic patients (mean age: 40.1+/-13.5 years) were followed up for 16 weeks and assessed for changes of clinical symptoms and ERP components P300 representing target detection processes and N400 indexing context integration in word recognition processes. Three subjects had to be excluded from the ERP recording sessions because of excessive blink artefacts and movements. RESULTS Regarding the P300 components of the target detection, there were significant increases of amplitudes in 5 of 10 patients (50%) at week 16 comparing with week 0. Regarding the N400 components of the word recognition, there were significant increases of amplitudes in 4 of 10 patients (40%) at week 16 comparing with week 0. DISCUSSION The mean scores of PANSS, MADRS, Bf-S, SCL-90 and CGI-S at the end of study (week 16) showed significant improvements compared to the baselines (week 0) (p<0.05). During the study, no extrapyramidal symptoms as well as akathisia were reported after quetiapine treatment. These preliminary data suggest that quetiapine might partially improve the cognitive functions in the context integration and target detection processing in these patients. This technical procedure (single-trial ERP) may help to differentially assess cognitive enhancements in each single patient under treatment.