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51. Obesity in the elderly

Author

Jahangir Moini, Mohtashem Samsam, Carrie Miller, and Raheleh Ahangari

Subjects
Gerontology, business.industry, Medicine, business, medicine.disease, Obesity
Published
2020
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53. Epidemiology of Brain and Spinal Tumors

Author

Jahangir Moini, Nicholas Avgeropoulos, Mohtashem Samsam, Jahangir Moini, Nicholas Avgeropoulos, and Mohtashem Samsam

Subjects
Brain--Tumors--Imaging, Spine--Tumors--Imaging, Brain--Tumors--Epidemiology, Spine--Tumors--Epidemiology
Abstract

Epidemiology of Brain and Spinal Tumors provides a single volume resource on imaging methods and neuroepidemiology of both brain and spinal tumors. The book covers a variety of imaging techniques, including computed tomography (CT), MRI, positron emission tomography (PET), and other laboratory tests used in diagnosis and treatment. Detailed epidemiology, various imaging methods, and clinical considerations of tumors of the CNS make this an ideal reference for users who will also find diverse information about structures and functions, cytology, epidemiology (including molecular epidemiology), diagnosis and treatment. This book is appropriate for neuroscience researchers, medical professionals and anyone interested in a complete guide to visualizing and understanding CNS tumors. - Provides the most up-to-date information surrounding the epidemiology, biology and imaging techniques for brain and spinal tumors, including CT, MRI, PET, and others - Includes full color figures, photos, tables, graphs and radioimaging - Contains information that will be valuable to anyone interested in the field of neurooncology and the treatment of patients with brain and spinal tumors - Serves as a source of background information for basic scientists and pharmaceutical researchers who have an interest in imaging and treatment

Published
2021

55. Exosomes derived from cardiac parasympathetic ganglionic neurons inhibit apoptosis in hyperglycemic cardiomyoblasts

Author

Kaley H Garner, Zixi (Jack) Cheng, Mohtashem Samsam, Dinender K. Singla, and Reetish Singla

Subjects
0301 basic medicine, Male, Programmed cell death, Necrosis, Cell Survival, Clinical Biochemistry, Apoptosis, Exosomes, Cell Line, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Diabetic cardiomyopathy, medicine, Animals, MTT assay, Myocytes, Cardiac, Viability assay, Molecular Biology, bcl-2-Associated X Protein, Neurons, TUNEL assay, Cell growth, Chemistry, Caspase 3, fungi, Ganglia, Parasympathetic, Cell Biology, General Medicine, medicine.disease, Molecular biology, carbohydrates (lipids), 030104 developmental biology, Glucose, 030220 oncology & carcinogenesis, Hyperglycemia, cardiovascular system, medicine.symptom
Abstract

Diabetic cardiomyopathy is known to involve two forms of cardiac cell death: apoptosis and necrosis. However, it remains unknown whether hyperglycemia-induced apoptosis in the H9c2 cell culture system is inhibited by parasympathetic ganglionic neurons (PGN) derived exosomes (exos). We isolated PGN and sympathetic ganglionic neurons (SGN) from the right stellate ganglion in rats, and derived exos from these sources. H9c2 cells were divided into 4 groups: (1) Control, (2) H9c2 + Glucose (100 mmol/L), (3) H9c2 + Glucose + PGN-exos, and (4) H9c2 + Glucose + SGN-exos. We determined cell proliferation and viability with an MTT assay kit, and assessed apoptotic cell death with TUNEL staining and ELISA. Data were further confirmed by analyzing the presence of pro-apoptotic proteins Caspase-3 and Bax, and anti-apoptotic protein Bcl-2. Glucose exposed H9c2 cells significantly reduced cell viability, which was improved by PGN-exos, but not by SGN-exos. Furthermore, increased apoptosis in hyperglycemia in H9c2 cells was confirmed with TUNEL staining and cell death ELISA which demonstrated significantly (p

Published
2019

56. Epidemiology of Thyroid Disorders

Author

Jahangir Moini, Katherine Pereira, Mohtashem Samsam, Jahangir Moini, Katherine Pereira, and Mohtashem Samsam

Subjects
Thyroid gland--Diseases--Epidemiology
Abstract

Epidemiology of Thyroid Disorders provides comprehensive, clinical knowledge to professionals dealing with thyroid disorders. The book focuses on the pathophysiology of thyroid disorders, the prevalence and incidence of various diseases, and their prevention. This focused analysis on thyroid disorders raises awareness of this global problem that, once diagnosed or misdiagnosed, can sometimes lead to over-treatment and cardiovascular complications, especially in the elderly. This succinct, targeted reference gives the reader excellent information on the epidemiology of global thyroid disorders, as well as up-to-date treatment data and a special focus on prevention. - Serves as a starting point for medical professionals, addressing the patterns, risk factors, prevention, and treatment of thyroid disorders around the world - Discusses the prevalence of thyroid disorders around the world, covering disability and cost burden - Covers recent trends, technologies and advancements in the management of thyroid diseases

Published
2020

57. Global Health Complications of Obesity

Author

Jahangir Moini, Raheleh Ahangari, Carrie Miller, Mohtashem Samsam, Jahangir Moini, Raheleh Ahangari, Carrie Miller, and Mohtashem Samsam

Subjects
Obesity--Complications, Obesity, Electronic books
Abstract

Global Health Complications of Obesity presents a valuable resource for research scientists and clinicians by covering the burden of obesity and related diseases and serving as a starting point for in-depth discussions in academic settings and for obesity-treatment specialists. Obesity is associated with a statistically higher risk of heart disease, hypertension, insulin resistance, type 2 diabetes and many other diseases. This succinct resource focuses on the current data, research and management of obesity. It is essential reading for healthcare professionals, endocrinologists, nutritionists, public health students and medical students. - Presents clinical cases, key terms and targeted references - Addresses diseases including diabetes, cancer, hypertension, osteoarthritis, fatty liver disease, infertility, renal failure and depression - Provides a link to new knowledge that is ideal for both researchers and clinicians

Published
2020

58. Targeting Calcitonin Gene-Related Peptide and its Receptor by Monoclonal Antibody, New Developments in the Prevention of Migraine

Author

Mohtashem Samsam

Subjects
Migraine, medicine.drug_class, business.industry, medicine, Calcitonin gene-related peptide, medicine.disease, Monoclonal antibody, business, Receptor, Virology, Biomedical sciences
Abstract

Burnett School of Biomedical Sciences (BSBS), College of Medicine, University of Central Florida, Orlando, Florida, USA *Corresponding author Mohtashem Samsam, MD, PhD Associate Professor of Medicine Burnett School of Biomedical Sciences Department of Medicine Burnett School of Biomedical Sciences College of Medicine University of Central Florida 4000 Central Florida Blvd., HPA-II 320 Orlando, FL, 32816, USA Tel. 1407823 4810 Fax: 1407823 3095 E-mail: Mohtashem.Samsam@ucf.edu

Published
2015
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62. Neuropeptides and Other Chemical Mediators, and the Role of Anti-inflammatory Drugs in Primary Headaches

Author

Rafael Coveñas, Raheleh Ahangari, Mohtashem Samsam, and Javier Yajeya

Subjects
Pharmacology, Trigeminal nerve, business.industry, Cluster headache, Immunology, Vasoactive intestinal peptide, General Medicine, Calcitonin gene-related peptide, medicine.disease, Trigeminal ganglion, medicine.anatomical_structure, Migraine, Anesthesia, Immunology and Allergy, Medicine, Headaches, medicine.symptom, business, Sensitization
Abstract

Primary headaches including the migraine, cluster, and tension headaches are common neurological disorders which cause pain and disability to the patients. The pathomechanism of migraine is not very well understood however, current clinical findings indicate a possible primary brain disorder due to activation of the brain and brainstem as triggers for migraine. The headache phase of migraine may be due to activation of the peripheral nerves including the trigeminal nerve and others innervating the cranial blood vessels and release of vasoactive substances including the calcitonin generelated peptides (CGRP), possibly leading to vasodilation and brainstem activation. Several of our studies in an experimental model of pain using electrical stimulation of the trigeminal ganglion in rats focused on various neuropeptides release from the peripheral and central trigeminal nerve terminals, however, clinically only the CGRP in migraine and CGRP and vasoactive intestinal peptide (VIP) in cluster headache were found in patients blood. Although several drugs are used in the treatment of migraine, the non-steroid anti-inflammatory drugs (NSAIDs) and the triptan family of drugs are the first choice drugs recommended for the treatment of acute migraine headache. Although clinically very few studies detected other vasoactive/inflammatory molecules in the blood of migraine patients, sensitization of peripheral axons can involve many inflammatory mediators affecting the peripheral tissue substrates of pain. Moreover, central sensitization in the trigeminal nucleus can also contribute to additional pain responses. This article reviews neuropeptides and other molecules involved in primary headaches and major drugs proposed for their treatment in recent years.

Published
2010
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64. Role of neuropeptides in migraine: where do they stand in the latest expert recommendations in migraine treatment?

Author

Mohtashem Samsam, Javier Yajeya, Rafael Coveñas, Raheleh Ahangari, and J.A. Narváez

Subjects
medicine.medical_specialty, business.industry, Cluster headache, Platelet disorder, Trigeminovascular system, Neuropeptide, Inflammation, Calcitonin gene-related peptide, medicine.disease, Endocrinology, Migraine, Internal medicine, Drug Discovery, medicine, Migraine treatment, medicine.symptom, business
Abstract

Many factors have been implicated in the pathogenesis of migraine headache, including activation of the trigeminovascular system, dysfunction of: cerebral blood vessels, circulating vasoactive substances, mitochondrial energy metabolism, brain oxygenation and metabolism, platelet disorder, alterations in serotonin levels, low levels of brain tissue magnesium, altered transport of ions across the cell membrane, and inheritance and dysfunction of the brainstem periaqueductal gray matter. The headache phase of migraine is associated with cerebral vasodilation and inflammation, presumably mediated by the release of vasoactive substances and neuropeptides including CGRP (calcitonin gene-related peptide). Increased serum CGRP levels have been detected during migraine and cluster headache. One strategy to treat migraine is to inhibit the release of neuropeptides or to block their receptors. This article briefly reviews some experimental and clinical investigations focused on neuropeptide involvement in migraine. Drug Dev Res 68:294–314, 2007. © 2007 Wiley-Liss, Inc.

Published
2007
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65. Triple Knock-Out ofCNTF,LIF, andCT-1Defines Cooperative and Distinct Roles of these Neurotrophic Factors for Motoneuron Maintenance and Function

Author

Mohtashem Samsam, Michael Sendtner, Bettina Holtmann, Stefan Wiese, Rudolf Martini, Katja Grohmann, and Diane Pennica

Subjects
Receptor complex, Muscle Fibers, Skeletal, Ciliary neurotrophic factor, Leukemia Inhibitory Factor, Motor Endplate, Mice, Neurotrophic factors, Neurobiology of Disease, medicine, Animals, Ciliary Neurotrophic Factor, Peripheral Nerves, Mice, Knockout, Motor Neurons, Denervation, Muscle Weakness, Hand Strength, biology, Interleukin-6, General Neuroscience, Spinal cord, Muscle Denervation, Cell biology, medicine.anatomical_structure, Spinal Cord, Nerve Degeneration, embryonic structures, biology.protein, Cytokines, Brainstem, Neuroscience, Reinnervation
Abstract

Members of the ciliary neurotrophic factor (CNTF)-leukemia inhibitory factor (LIF) gene family play an essential role for survival of developing and postnatal motoneurons. When subunits of the shared receptor complex are inactivated by homologous recombination, the mice die at approximately birth and exhibit reduced numbers of motoneurons in the spinal cord and brainstem nuclei. However, mice in whichcntf,lif, or cardiotrophin-1 (ct-1) are inactivated can survive and show less motoneuron cell loss. This suggests cooperative and redundant roles of these ligands. However, their cooperative functions are not well understood. We generatedcntf/lif/ct-1triple-knock-out and combinations of double-knock-out mice to study the individual and combined roles of CNTF, LIF and CT-1 on postnatal motoneuron survival and function. Triple-knock-out mice exhibit increased motoneuron cell loss in the lumbar spinal cord that correlates with muscle weakness during early postnatal development. LIF deficiency leads to pronounced loss of distal axons and motor endplate alterations, whereas CNTF-and/or CT-1-deficient mice do not show significant changes in morphology of these structures. Incntf/lif/ct-1triple-knock-out mice, various degrees of muscle fiber type grouping are found, indicating that denervation and reinnervation had occurred. We conclude from these findings that CNTF, LIF, and CT-1 have distinct functions for motoneuron survival and function and that LIF plays a more important role for postnatal maintenance of distal axons and motor endplates than CNTF or CT-1.

Published
2005
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66. Pathophysiology of autism spectrum disorders: revisiting gastrointestinal involvement and immune imbalance

Author

Mohtashem Samsam, Raheleh Ahangari, and Saleh A. Naser

Subjects
Abdominal pain, Gastrointestinal Diseases, Disease, Review, Pathogenesis, Immune system, Intestinal mucosa, Risk Factors, mental disorders, medicine, Homeostasis, Humans, Crohn's disease, business.industry, Gastroenterology, General Medicine, medicine.disease, Prognosis, Pathophysiology, Gastrointestinal Tract, Child Development Disorders, Pervasive, Immune System, Immunology, Autism, medicine.symptom, business
Abstract

Autism spectrum disorders (ASD) comprise a group of neurodevelopmental abnormalities that begin in early childhood and are characterized by impairment of social communication and behavioral problems including restricted interests and repetitive behaviors. Several genes have been implicated in the pathogenesis of ASD, most of them are involved in neuronal synaptogenesis. A number of environmental factors and associated conditions such as gastrointestinal (GI) abnormalities and immune imbalance have been linked to the pathophysiology of ASD. According to the March 2012 report released by United States Centers for Disease Control and Prevention, the prevalence of ASD has sharply increased during the recent years and one out of 88 children suffers now from ASD symptoms. Although there is a strong genetic base for the disease, several associated factors could have a direct link to the pathogenesis of ASD or act as modifiers of the genes thus aggravating the initial problem. Many children suffering from ASD have GI problems such as abdominal pain, chronic diarrhea, constipation, vomiting, gastroesophageal reflux, and intestinal infections. A number of studies focusing on the intestinal mucosa, its permeability, abnormal gut development, leaky gut, and other GI problem raised many questions but studies were somehow inconclusive and an expert panel of American Academy of Pediatrics has strongly recommended further investigation in these areas. GI tract has a direct connection with the immune system and an imbalanced immune response is usually seen in ASD children. Maternal infection or autoimmune diseases have been suspected. Activation of the immune system during early development may have deleterious effect on various organs including the nervous system. In this review we revisited briefly the GI and immune system abnormalities and neuropeptide imbalance and their role in the pathophysiology of ASD and discussed some future research directions.

Published
2014

68. Central nervous system acting drugs in treatment of migraine headache

Author

Mohtashem Samsam

Subjects
Sensory processing, Acute migraine, medicine.medical_treatment, Migraine Disorders, Central nervous system, Sensory system, Triptans, Bioinformatics, medicine, Animals, Humans, business.industry, General Neuroscience, Anti-Inflammatory Agents, Non-Steroidal, medicine.disease, Tryptamines, Clinical trial, Analgesics, Opioid, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Treatment Outcome, Migraine, Molecular Medicine, Anticonvulsants, Brainstem, business, medicine.drug, Central Nervous System Agents
Abstract

Migraine is a primary headache disorder with an unknown pathophysiology. The growing evidence in recent years indicates migraine being a brain disorder, a sensory dysmodulation, and a system failure of normal sensory processing of the brainstem that involves the vascular tone and pain. At the moment, triptan family and NSAIDs are the first choice drugs for the treatment of acute migraine. There are several prophylactic drugs including the antiepileptic drugs (AEDs), betablockers, and Ca2+ channel blockers that are used for the treatment of migraine. Although many drugs including the triptans, NSAIDs, and others target the peripheral sites of activation, several novel drugs are being developed to target neural sites of action in the central nervous system (CNS). The first trigeminal synapses in the brain stem as well as the ascending and descending pathways and higher brain centers are involved in the transmission of pain and therefore be the main targets of several drugs some of which are in clinical trials. Central sensitization may also aggravate the headache and some drugs tend to alleviate pain by targeting neurotransmitters, receptors, or signalling molecules involved in this phenomenon. This article discusses the CNS acting novel drugs and those that are currently in use for the treatment of migraine.

Published
2011

69. Receptor-mediated oral delivery of a bioencapsulated green fluorescent protein expressed in transgenic chloroplasts into the mouse circulatory system

Author

Arati Limaye, Vijay Koya, Mohtashem Samsam, and Henry Daniell

Subjects
Chloroplasts, Transgene, Green Fluorescent Proteins, Cold storage, Administration, Oral, Capsules, medicine.disease_cause, Biochemistry, Intestinal absorption, Article, Green fluorescent protein, Mice, Intestinal mucosa, Ileum, Tobacco, Genetics, medicine, Animals, Molecular Biology, Furin, Mice, Inbred BALB C, biology, Ligand binding assay, Cholera toxin, Molecular biology, Plant Leaves, Liver, embryonic structures, biology.protein, Female, Spleen, Biotechnology
Abstract

Oral delivery of biopharmaceutical proteins expressed in plant cells should reduce their cost of production, purification, processing, cold storage, transportation, and delivery. However, poor intestinal absorption of intact proteins is a major challenge. To overcome this limitation, we investigate here the concept of receptor-mediated oral delivery of chloroplast-expressed foreign proteins. Therefore, the transmucosal carrier cholera toxin B-subunit and green fluorescent protein (CTB-GFP), separated by a furin cleavage site, was expressed via the tobacco chloroplast genome. Polymerase chain reaction (PCR) and Southern blot analyses confirmed site-specific transgene integration and homoplasmy. Immunoblot analysis and ELISA confirmed expression of monomeric and pentameric forms of CTB-GFP, up to 21.3% of total soluble proteins. An in vitro furin cleavage assay confirmed integrity of the engineered furin cleavage site, and a GM1 binding assay confirmed the functionality of CTB-GFP pentamers. Following oral administration of CTB-GFP expressing leaf material to mice, GFP was observed in the mice intestinal mucosa, liver, and spleen in fluorescence and immunohistochemical studies, while CTB remained in the intestinal cell. This report of receptor-mediated oral delivery of a foreign protein into the circulatory system opens the door for low-cost production and delivery of human therapeutic proteins.

Published
2006

70. Neuroprotective effect of the immune system in a mouse model of severe dysmyelinating hereditary neuropathy: enhanced axonal degeneration following disruption of the RAG-1 gene

Author

Martin Berghoff, Rudolf Martini, Klaus V. Toyka, Reinhard Kiefer, Mathias Mäurer, Igor Kobsar, Marcus Müller, and Mohtashem Samsam

Subjects
Pathology, medicine.medical_specialty, Cell Survival, Genes, RAG-1, Mutant, Biology, CD8-Positive T-Lymphocytes, Neuroprotection, Cellular and Molecular Neuroscience, Myelin, Mice, Immune system, Microscopy, Electron, Transmission, medicine, Macrophage, Animals, Peripheral Nerves, Axon, Molecular Biology, Gene, Cell Proliferation, Mice, Knockout, Macrophages, Age Factors, Peripheral Nervous System Diseases, Cell Biology, Chemotaxis, Leukocyte, Disease Models, Animal, medicine.anatomical_structure, Immune System, Immunology, Tibial Nerve, Wallerian Degeneration, Myelin P0 Protein, CD8, Demyelinating Diseases
Abstract

In mouse models of later onset forms of human hereditary demyelinating neuropathies, the immune system plays a crucial pathogenic role. Here, we investigated the influence of immune cells on early onset dysmyelination in mice homozygously deficient of the myelin component P0. In peripheral nerves of P0 −/− mice, CD8+ T-lymphocytes increased with age. Macrophages peaked at 3 months followed by a substantial decline. They were mainly of hematogenous origin. To evaluate the functional role of immune cells, we cross-bred P0 −/− mutants with RAG-1-deficient mice. At 3 months, the number of endoneurial macrophages did not differ from the macrophage number of immunocompetent myelin mutants, but the later decline of macrophages was not observed. Quantitative electron microscopy revealed that in plantar nerves of 6-month-old double mutants, significantly more axons had degenerated than in immunocompetent littermates. These data suggest a neuroprotective net effect of T-lymphocytes on axon survival in inherited, early onset dysmyelination.

Published
2004

71. The Wlds mutation delays robust loss of motor and sensory axons in a genetic model for myelin-related axonopathy

Author

Rudolf Martini, Klaus V. Toyka, Jürgen Zielasek, Michael P. Coleman, Carsten Wessig, Mohtashem Samsam, and Weiqian Mi

Subjects
Wallerian degeneration, Mutant, Axonal loss, Action Potentials, Nerve Tissue Proteins, Biology, medicine.disease_cause, Myelin, Mice, Mice, Neurologic Mutants, NMNAT1, Genetic model, medicine, Animals, Neurons, Afferent, Peripheral Nerves, ARTICLE, Muscle, Skeletal, Motor Neurons, Mutation, Models, Genetic, General Neuroscience, Age Factors, Electric Conductivity, medicine.disease, Null allele, Axons, Cell biology, Mice, Inbred C57BL, Kinetics, medicine.anatomical_structure, nervous system, Wallerian Degeneration, Neuroscience, Myelin P0 Protein, Demyelinating Diseases
Abstract

Mice deficient in the peripheral myelin component P0 mimic severe forms of inherited peripheral neuropathies in humans, with defective myelin formation and consequent axonal loss. We cross-bred these mice with the spontaneous mutant C57BL/Wldstypically showing protection from Wallerian degeneration because of fusion of the ubiquitination factor E4B (Ube4b) and nicotinamide mononucleotide adenylyltransferase (Nmnat) genes. We found that in the double mutants, the robust myelin-related axonal loss is reduced at 6 weeks and 3 months of age. Moreover, retrograde labeling from plantar nerves revealed an increased survival of motor axons. These motor axons appeared functionally active because both the amplitude of compound muscle action potentials and muscle strength were less reduced in the double mutants. At 6 months of age, reduction of axonal loss was no longer detectable in the double mutants when compared with littermates carrying the P0 null mutation only, although theWldsgene was not reduced in its expression at this age. We conclude that myelin-related axonal loss is a process having some features in common with Wallerian degeneration. Introducing theWldsgene would be a promising approach to delaying detrimental axonal loss in myelin disorders.

Published
2003

72. Preserved myelin integrity and reduced axonopathy in connexin32-deficient mice lacking the recombination activating gene-1

Author

K.V. Toyka, Mathias Mäurer, Martin Berghoff, Rudolf Martini, Carsten Wessig, Mohtashem Samsam, and Igor Kobsar

Subjects
Heterozygote, Genotype, Genes, RAG-1, T-Lymphocytes, Schwann cell, Connexin, Biology, Recombination-activating gene, Connexins, Myelin, Mice, Downregulation and upregulation, Charcot-Marie-Tooth Disease, Lymphopenia, medicine, Macrophage, Animals, Lymphocyte Count, Muscle, Skeletal, Myelin Sheath, B-Lymphocytes, urogenital system, Myelin protein zero, Macrophages, Axons, Cell biology, Up-Regulation, Mice, Inbred C57BL, Microscopy, Electron, medicine.anatomical_structure, Immunology, Cervical collar, Neurology (clinical), Demyelinating Diseases
Abstract

Mice heterozygously deficient for myelin protein zero (P0) mimicking human Charcot-Marie-Tooth (CMT) disease 1B show T-lymphocyte and macrophage upregulation in peripheral nerves, which aggravates and modulates the genetically mediated demyelinating neuropathy. In connexin32 (cx32)-deficient (cx32(def)) mice, which mimic the X-linked dominant form of CMT (CMTX), T-lymphocyte and macrophage numbers are also significantly elevated in peripheral nerves. To test the hypothesis that immune cells are indeed pathogenic in this model, we cross-bred cx32(def) mice with recombination activating gene-1 (RAG-1)-deficient mice, which lack mature T- and B-lymphocytes. In these immunoincompetent double mutants, the number of endoneurial macrophages was reduced. Furthermore, features indicative of myelin degeneration and axonopathic changes were mitigated in the RAG-1-deficient double mutants, whereas enlarged periaxonal Schwann cell collars, a hallmark specific for cx32-mutants, were not reduced. Since both cx32- and P0 deficiency lead to similar immunopathogenic processes, we conclude that immune-mediated demyelination may be a feature common to many CMT-like neuropathies independent of the genetic origin.

Published
2003

73. Pathophysiology of autism spectrum disorders: revisiting gastrointestinal involvement and immune imbalance.

Author

Samsam M, Ahangari R, and Naser SA

Subjects
Child Development Disorders, Pervasive immunology, Child Development Disorders, Pervasive physiopathology, Gastrointestinal Diseases immunology, Gastrointestinal Diseases physiopathology, Gastrointestinal Tract immunology, Homeostasis, Humans, Immune System immunology, Prognosis, Risk Factors, Child Development Disorders, Pervasive complications, Gastrointestinal Diseases etiology, Gastrointestinal Tract physiopathology, Immune System physiopathology
Abstract

Autism spectrum disorders (ASD) comprise a group of neurodevelopmental abnormalities that begin in early childhood and are characterized by impairment of social communication and behavioral problems including restricted interests and repetitive behaviors. Several genes have been implicated in the pathogenesis of ASD, most of them are involved in neuronal synaptogenesis. A number of environmental factors and associated conditions such as gastrointestinal (GI) abnormalities and immune imbalance have been linked to the pathophysiology of ASD. According to the March 2012 report released by United States Centers for Disease Control and Prevention, the prevalence of ASD has sharply increased during the recent years and one out of 88 children suffers now from ASD symptoms. Although there is a strong genetic base for the disease, several associated factors could have a direct link to the pathogenesis of ASD or act as modifiers of the genes thus aggravating the initial problem. Many children suffering from ASD have GI problems such as abdominal pain, chronic diarrhea, constipation, vomiting, gastroesophageal reflux, and intestinal infections. A number of studies focusing on the intestinal mucosa, its permeability, abnormal gut development, leaky gut, and other GI problem raised many questions but studies were somehow inconclusive and an expert panel of American Academy of Pediatrics has strongly recommended further investigation in these areas. GI tract has a direct connection with the immune system and an imbalanced immune response is usually seen in ASD children. Maternal infection or autoimmune diseases have been suspected. Activation of the immune system during early development may have deleterious effect on various organs including the nervous system. In this review we revisited briefly the GI and immune system abnormalities and neuropeptide imbalance and their role in the pathophysiology of ASD and discussed some future research directions.

Published
2014
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