Liver cystic echinococcosis and human host immune and autoimmune follow-up: A review.

Cystic echinococcosis (CE) is an infectious disease caused by the larvae of parasite (). To successfully establish an infection, parasite release some substances and molecules that can modulate host immune functions, stimulating a strong anti-inflammatory reaction to carry favor to host and to reserve self-survival in the host. The literature was reviewed using MEDLINE, and an open access search for immunology of hydatidosis was performed.

Aging, cancer, and longevity: the uncertain road.

First, the latest scientific and clinical reports will be evaluated to separate the wheat from the chaff, that is, good data versus merely anecdotal evidence. Thus, the famous (infamous) Stromboli Cocktail will be brought up to date. Second, longevity statistics will be reviewed: Why do the most scientifically advanced countries have such low (comparatively) life expectancies? Scientific knowledge expands exponentially each decade, whereas there have been no significant advances in our knowledge, government, economics, politics, anti-corruption, and so forth since the dawn of history.

Role of inactivated influenza vaccine in regulation of autoimmune processes in experimental autoimmune encephalomyelitis.

Experimental autoimmune encephalomyelitis (EAE) is characterized by appearance of anti-myelin autoantibodies in the blood and with the increased expression of MHC (major histocompatibility complex) class I and II antigens in the brain tissue. Although there is an evidence of possible linkage between influenza vaccination and development of autoimmune processes, the precise mechanisms of action of this vaccine on EAE-induction is still unclear. In this study, effects of influenza vaccine on clinical sign, antimyelin antibody titer in the blood by ELISA test and expression of MHC class I and II molecules immunohistochemistry were examined in the brain of C57BL mice with EAE.

Aluminum excytotoxicity and neuroautotoimmunity: the role of the brain expression of CD32+ (FcγRIIa), ICAM-1+ and CD3ξ in aging.

In the central nervous system (CNS) microglia are crucial for the defense of the brain against invading microorganisms, formation of tumors, and damage following trauma. However, uncontrolled activation of these cells may have deleterious outcomes through activation of Fcγ and the complement 3 receptors and the induction of an adaptive immune reaction. Proteins contributing to this reaction are the intercellular adhesion molecule-1 (ICAM-1) and CD3 molecules, among others.

Aging, aluminium and basal forebrain lesions modify substrate kinetics of erythrocyte membrane Na,K-ATPase in the rat.

Several studies suggested that the activity of erythrocyte Na,K-ATPase declines with aging. Here, it is postulated that alterations in the substrate kinetics of the erythrocyte membrane Na,K-ATPase could be more aggravated in conditions of brain cholinergic dysfunction seen in Alzheimer's disease than in normal aging. To test this hypothesis, we compared the Na,K-ATPase activity (Vmax/Km parameters) in aged rats with those in young rats with brain cholinergic dysfunction induced by electrolytic-, kainic acid-lesioned nucleus basalis magnocellularis (NBM) or by intracerebroventricular AlCl_{3} administration.

Autoimmunity in the brain: the pathogenesis insight from cell biology.

The aim of the study is to explore the relationship between leakage of the blood-brain barrier and inflammation, the reason why demyelination occurs--seemingly in the absence of an antigen-specific immune response that requires explanation if a coherent account of an inflammatory-mediated demyelination is to be achieved. In this study the cellular biology of the glial cells important for the synthesis and maintenance of central nervous system (CNS) myelin and their inter-relations with other environmental cells (neuronal, microglial, olygodendroglial, astrocytes, endothelial, epithelial, T lymphocytes, B lymphocytes, monocytes, and macrophages) and with the compound of the extracellular matrix (ECM) during the development of an autoimmune inflammatory and demyelinating processes in the brain was analyzed. Upon activation in the peripheral tissue, immune cells reach their target organ via bloodstream and interacting with blood vessels wall components in the absence of exogenous stimulus mount an attack against the local milleu, which is the starting point of a pathogenic inflammatory reaction.

MMP-2, VCAM-1 and NCAM-1 expression in the brain of rats with experimental autoimmune encephalomyelitis as a trigger mechanism for synaptic plasticity and pathology.

The neural cell adhesion molecules (NCAMs), and vascular cell adhesion molecules (VCAMs) that regulate cell-to-extracellular matrix adhesion, and matrix metalloproteinases (MMPs), modulating the extracellular matrix (ECM), are considered to play an important role in the pathogenesis of experimental autoimmune encephalomyelitis (EAE). Clinical signs appearance and significant increases of MMP-2 expression in CA1 and CA3 subdomains of the hippocampus and around the central canal of the cervical spinal cord, with the clusters of VCAM-1(+) immunoreactive cells localized in the choroid plexus epithelium and hypothalamo-hypophyses portal vessel system indicate an inflammation in acute EAE. Decreased NCAM-1 expression in CA1 and CA3 fields of the hippocampus, and in a lesser degree in the basal ganglia, limbic structure and cervical spinal cord, support the concept that the demyelinating neuroinflammatory damage in an autoimmune brain affect synaptic organization of the brain, altering the balance between extracellular proteases and cell adhesion molecules which appears to be critical for both the brain plasticity and autoimmune processes.

MAgnetic stimulation of the brain increase Na+, K+-ATPase activity decreased by injection of AlCl3 into nucleus basalis magnocellularis of rats.

This article reports here on the influence of the static magnetic fields (MFs), locally applied to the brain area, on Na, K-ATPase activity in the rat with lesioned nucleus basalis magnocellularis (NBM) by intracerebral injection of 5 microl, 1% AlCl3 into the nucleus. Two AKMA micromagnets (M) flux density of 60 miliTesla, 5 mm in diameter, were bilaterally implanted with "N" polarity facing down to the cranial bones in the vicinity of the pineal gland (PG), immediately after the lesioning of NBM, during the same operation procedure. Ten days after the lesions of NBM, Na, K-ATPase activity on the erythrocyte membranes in the peripheral blood, measured spectrophotometrically, was completely inhibited.

The neuronal and immune memory systems as supervisors of neural plasticity and aging of the brain: from phenomenology to coding of information.

The ultimate goal of this report is to learn how to manipulate the level of memory T cells for more effective treatment of such neurological diseases as multiple sclerosis (MS), where certain T cell subsets recognize self-antigens as opposed to pathogen antigens, and Alzheimer's disease (AD). Brain lesions (electrolitically, by kainic acid, with AlCl, and with 6-OHDA); stimulations (electrical, magnetic, or pharmacological); or restoration of some neurological functions (thermoregulatory and behavioral) by fetal graft allotransplantations in bilaterally lesioned anterior hypothalamic area (AHA-immune regulation) and nucleus basalis magnocellularis (NBM-experimental AD) in our studies were designed to reproduce immune and cognitive deficits induced by lesions of these brain structures. To localize memory traces in the immune system and in the brain we used ethanol and drugs such as kainic acid and 6-OHDA, which have been used very effectively to produce temporary lesions in the brain.

Effect of neural transplantation on depressive behavior in rats with lesioned nucleus basalis magnocellularis.

Recent data of our group have shown that bilateral electrolytic lesions of the nucleus basalis magnocellularis (NBM) in rats reduced the escape behavior deficit that occurs in the learned helplessness test. The present study was done to establish the effect of intracerebral neural transplantation on the change in escape behavior of NBM-lesioned adult male Wistar rats in the learned helplessness test. At 2 days (NBM-ET) or 10 days (NBM-DT) after bilateral electrolytic NBM-lesions, small fragments of fetal frontal cortex (18th day of gestation) were allotransplanted into the lesioned NBM.