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1.
[Ketogenic diet – mechanism of action and perspectives for the use in the therapy: data from clinical studies].
Pondel, N, Liśkiewicz, D, Liśkiewicz, A
Postepy biochemii. 2020;(3):270-286
Abstract
Ketogenic diet is a high fat and very low-carbohydrate nutritional approach that induces increased production of ketone bodies, which serve as an alternative to glucose energetic substrates. Since almost a century ketogenic diet has been used in the therapy of refractory epilepsy, especially in children. Because of the pleiotropic effect of ketogenic diet on physiology, including inflammation, oxidative stress, energy balance and signaling pathways, in recent years scientists have been intensively exploring the use of it in the treatment of other diseases. In the present article current clinical studies regarding the possibility of using the ketogenic diet in the treatment of obesity, diabetes, neurological disorders and cancer has been reviewed alongside with potential mechanisms responsible for the therapeutic effect of ketogenic diet in these diseases. The metabolic processes engaged in nutritional ketosis and practicals aspects of ketogenic dieting have been also discussed.
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2.
Allicin pharmacology: Common molecular mechanisms against neuroinflammation and cardiovascular diseases.
Mocayar Marón, FJ, Camargo, AB, Manucha, W
Life sciences. 2020;:117513
Abstract
According to investigations in phytomedicine and ethnopharmacology, the therapeutic properties of garlic (Allium sativum) have been described by ancestral cultures. Notwithstanding, it is of particular concern to elucidate the molecular mechanisms underlying this millenary empirical knowledge. Allicin (S-allyl prop-2-ene-1-sulfinothioate), a thioester of sulfenic acid, is one of the main bioactive compounds present in garlic, and it is responsible for the particular aroma of the spice. The pharmacological attributes of allicin integrate a broad spectrum of properties (e.g., anti-inflammatory, immunomodulatory, antibiotic, antifungal, antiparasitic, antioxidant, nephroprotective, neuroprotective, cardioprotective, and anti-tumoral activities, among others). The primary goal of the present article is to review and clarify the common molecular mechanisms by which allicin and its derivates molecules may perform its therapeutic effects on cardiovascular diseases and neuroinflammatory processes. The intricate interface connecting the cardiovascular and nervous systems suggests that the impairment of one organ could contribute to the dysfunction of the other. Allicin might target the cornerstone of the pathological processes underlying cardiovascular and neuroinflammatory disorders, like inflammation, renin-angiotensin-aldosterone system (RAAS) hyperactivation, oxidative stress, and mitochondrial dysfunction. Indeed, the current evidence suggests that allicin improves mitochondrial function by enhancing the expression of HSP70 and NRF2, decreasing RAAS activation, and promoting mitochondrial fusion processes. Finally, allicin represents an attractive therapeutic alternative targeting the complex interaction between cardiovascular and neuroinflammatory disorders.
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3.
The neurological insights of the emerging coronaviruses.
Msigwa, SS, Wang, Y, Li, Y, Cheng, X
Journal of clinical neuroscience : official journal of the Neurosurgical Society of Australasia. 2020;:1-7
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Abstract
Emerging Viral diseases are incredibly infectious and proficient in inducing pandemics. Unlike the previous emerging coronaviruses (ECoVs) which neurological complexities were uncommon, with neurological features exhibition at 14-25 days post-onset, yet with critical outcomes exhibiting >50% mortality in central nervous (CNS) presenting pathologies. The COVID 19 neurological consequences occur more frequently even in mild cases, presenting with CNS involvement in up to 25%, musculoskeletal and peripheral manifestation (PNM). Through preceding ECoVs case reports, the PNM not linked to fatal outcomes, however, required, repeated neuro-imaging as notable CT and MRI changes appeared as late as 21 days while the likelihood of Cerebrospinal fluid to test positive for ECoV was 25%, only in the CNS presenting cases. Owing to 44-60% myalgia presentation, risk of the high inflammatory state, and coagulation cascade abnormalities reported in ECoVs, testing for C-reactive protein, serum creatine kinase, and D-dimer level is mandatory. Presently, there is no antiviral medication or vaccination for the ECoVs, early induction of antiviral drugs remains the backbone of management. Neurologically, the therapeutic dosages of anticoagulants are linked to the high incidence of thrombotic complexities, while methylprednisolone is associated with myopathy. Future studies expected to apply more neuro-imaging techniques for CNS exploration and further explore the pathogenesis of the COVID 19 myalgia, anosmia/ageusia reported in the majority of the initial cases.
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4.
Role of Phospholipase D-Derived Phosphatidic Acid in Regulated Exocytosis and Neurological Disease.
Tanguy, E, Wang, Q, Vitale, N
Handbook of experimental pharmacology. 2020;:115-130
Abstract
Lipids play a vital role in numerous cellular functions starting from a structural role as major constituents of membranes to acting as signaling intracellular or extracellular entities. Accordingly, it has been known for decades that lipids, especially those coming from diet, are important to maintain normal physiological functions and good health. On the other side, the exact molecular nature of these beneficial or deleterious lipids, as well as their precise mode of action, is only starting to be unraveled. This recent improvement in our knowledge is largely resulting from novel pharmacological, molecular, cellular, and genetic tools to study lipids in vitro and in vivo. Among these important lipids, phosphatidic acid plays a unique and central role in a great variety of cellular functions. This review will focus on the proposed functions of phosphatidic acid generated by phospholipase D in the last steps of regulated exocytosis with a specific emphasis on hormonal and neurotransmitter release and its potential impact on different neurological diseases.
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An expanding spectrum of complications in isolated methylmalonic aciduria.
Forny, P, Grunewald, S
Journal of mother and child. 2020;(2):9-13
Abstract
Isolated methylmalonic acidurias represent a heterogeneous genetic group of inborn errors of propionate metabolism with the common biochemical hallmark of elevated methylmalonic acid present in tissues and body fluids. It was first described in the 1960s and over the years better understanding of the disease and its presentation, earlier diagnosis, and most importantly advances in treatment have resulted in extended survival of patients. With that an expanding spectrum of complications is emerging which requires attention and regular monitoring to facilitate early intervention and reduce disease burden.
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Overview of Dual-Acting Drug Methotrexate in Different Neurological Diseases, Autoimmune Pathologies and Cancers.
Koźmiński, P, Halik, PK, Chesori, R, Gniazdowska, E
International journal of molecular sciences. 2020;(10)
Abstract
Methotrexate, a structural analogue of folic acid, is one of the most effective and extensively used drugs for treating many kinds of cancer or severe and resistant forms of autoimmune diseases. In this paper, we take an overview of the present state of knowledge with regards to complex mechanisms of methotrexate action and its applications as immunosuppressive drug or chemotherapeutic agent in oncological combination therapy. In addition, the issue of the potential benefits of methotrexate in the development of neurological disorders in Alzheimer's disease or myasthenia gravis will be discussed.
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7.
Gastrointestinal Disorders and the Nervous System.
White, H
Continuum (Minneapolis, Minn.). 2020;(3):577-590
Abstract
PURPOSE OF REVIEW This article describes the neurologic sequelae of various nutritional micronutrient deficiencies, celiac disease, inflammatory bowel disease, and liver disease. Where relevant, appropriate treatments for these conditions are also discussed. The developing field of the microbiome and nervous system interaction is also outlined. RECENT FINDINGS Pathology in the gastrointestinal system can affect the nervous system when it causes micronutrient deficiency, when immune responses created by the gastrointestinal system affect the nervous system, when toxins caused by gastrointestinal organ failure harm the nervous system, and when treatments aimed at a gastrointestinal medical condition cause damage to the nervous system as a side effect. SUMMARY This article addresses familiar concepts and new developments in the treatment and understanding of diseases that affect the gut and nervous system simultaneously.
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8.
Nutraceuticals in Neurological Disorders.
Makkar, R, Behl, T, Bungau, S, Zengin, G, Mehta, V, Kumar, A, Uddin, MS, Ashraf, GM, Abdel-Daim, MM, Arora, S, et al
International journal of molecular sciences. 2020;(12)
Abstract
Neurological diseases are one of the major healthcare issues worldwide. Posed lifestyle changes are associated with drastically increased risk of chronic illness and diseases, posing a substantial healthcare and financial burden to society globally. Researchers aim to provide fine treatment for ailing disorders with minimal exposed side effects. In recent decades, several studies on functional foods have been initiated to obtain foods that have fewer side effects and increased therapeutic activity. Hence, an attempt has been made to unravel several extraction techniques to acquire essential bioactive compounds or phytochemicals from therapeutically active food products. This has led to the conception of the term functional foods being meddled with other similar terms like "pharmafoods," "medifoods", "vitafoods", or "medicinal foods". With a dire need to adhere towards healthy options, the demand of nutraceuticals is widely increasing to combat neurological interventions. An association between food habits and the individual lifestyle with neurodegeneration has been manifested, thereby proposing the role of nutraceuticals as prophylactic treatment for neurological interventions. The current review covers some of the major neurological disorders and nutraceutical therapy in the prevention of disease.
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Endothelial dysfunction in neuroprogressive disorders-causes and suggested treatments.
Morris, G, Puri, BK, Olive, L, Carvalho, A, Berk, M, Walder, K, Gustad, LT, Maes, M
BMC medicine. 2020;(1):305
Abstract
BACKGROUND Potential routes whereby systemic inflammation, oxidative stress and mitochondrial dysfunction may drive the development of endothelial dysfunction and atherosclerosis, even in an environment of low cholesterol, are examined. MAIN TEXT Key molecular players involved in the regulation of endothelial cell function are described, including PECAM-1, VE-cadherin, VEGFRs, SFK, Rho GEF TRIO, RAC-1, ITAM, SHP-2, MAPK/ERK, STAT-3, NF-κB, PI3K/AKT, eNOS, nitric oxide, miRNAs, KLF-4 and KLF-2. The key roles of platelet activation, xanthene oxidase and myeloperoxidase in the genesis of endothelial cell dysfunction and activation are detailed. The following roles of circulating reactive oxygen species (ROS), reactive nitrogen species and pro-inflammatory cytokines in the development of endothelial cell dysfunction are then described: paracrine signalling by circulating hydrogen peroxide, inhibition of eNOS and increased levels of mitochondrial ROS, including compromised mitochondrial dynamics, loss of calcium ion homeostasis and inactivation of SIRT-1-mediated signalling pathways. Next, loss of cellular redox homeostasis is considered, including further aspects of the roles of hydrogen peroxide signalling, the pathological consequences of elevated NF-κB, compromised S-nitrosylation and the development of hypernitrosylation and increased transcription of atherogenic miRNAs. These molecular aspects are then applied to neuroprogressive disorders by considering the following potential generators of endothelial dysfunction and activation in major depressive disorder, bipolar disorder and schizophrenia: NF-κB; platelet activation; atherogenic miRs; myeloperoxidase; xanthene oxidase and uric acid; and inflammation, oxidative stress, nitrosative stress and mitochondrial dysfunction. CONCLUSIONS Finally, on the basis of the above molecular mechanisms, details are given of potential treatment options for mitigating endothelial cell dysfunction and activation in neuroprogressive disorders.
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Neurological and psychiatric management using COMT inhibitors: A review.
Akhtar, MJ, Yar, MS, Grover, G, Nath, R
Bioorganic chemistry. 2020;:103418
Abstract
The increase in psychiatric and neurological disorders includes Parkinson's, Schizophrenia, Alzheimer's and Depression over the last 50 years adds concerns to society. In contrast, there have been great advances in elucidating the receptors of CNS and their interaction with the novel molecules. Enzymes inhibitors are on the top plan to interact specifically with the targets for better potency and reduce the toxic effects. COMT inhibitors work by inhibiting the conversion of catechols including dopamine to its inactive degradation products. This makes the availability of l-dopa to the brain and thus alleviating the symptoms of CNS disorders. Substitution pattern and the structural requirements for better binding within the receptors are important for the drug findings. Apart from catechol modification, some non-catechol based potent COMT inhibitors are also discussed. A detailed guide regarding inhibition of S-adenosyl-l-methionine, catalyzing the transfer of the methyl group by COMT is also represented. This review discusses the thorough development of COMT inhibitors right from the beginning until the present. The derivatives are discussed along with their structure-activity relationship having structural substitution prerequisites for the development of more potent novel COMT inhibitors.