Neuropathy in the brain-in-the-gut

* The enteric nervous system has sensory neurons, interneurons and motor neurons and functions as a brain-in-the-gut. * Smooth muscles of the digestive tract are autogenic in the absence of neural control. * Enteric inhibitory motor neurons control excitability of the autogenic musculature. * The neuropathic form of chronic intestinal pseudo-obstruction is a form of disinhibitory motor disease linked with neuropathic degeneration in the enteric nervous system. * Patients with inflammatory degenerative neuropathy may progress from irritable bowel syndrome (IBS)-like symptoms to chronic pseudo-obstruction. * Detection of anti-enteric neuronal antibodies may be a useful diagnostic test for early stages of inflammatory degenerative neuropathy in patients with symptoms of a functional gastrointestinal disorder. Awareness is increasing that autoimmune attack targeted to neuronal elements of the enteric nervous system may underlie irritable bowel-like symptoms that progress to chronic pseudo-obstruction. The inflammatory neuropathy disrupts the integrative functions of the brain-in-the-gut, including reduction in the population of inhibitory motor neurons to the musculature. Extreme loss of inhibitory motor neurons is manifest as disinhibitory motor disease characterized by achalasia in smooth muscle sphincters and hyperactive, disorganized contractile behaviour of intestinal circular muscle which results in pseudo-obstruction. Detection of anti-enteric neuronal antibodies in the serum of patients with early symptoms of a functional gastrointestinal motility disorder may prove to be a useful diagnostic test for inflammatory enteric neuropathy.     

肠神经系统在功能性胃肠病发病中的作用

肠神经系统对胃肠道运动、分泌和血液供应具有独立的调节作用,功能性胃肠病（FGIDs）的慢性症状如腹泻、便秘和疼痛与肠神经调控的胃肠道功能异常有关。某些FGIDs存在肠神经递质表达异常,甚至神经元退行性改变;肠神经系统与肠道Cajal间质细胞、胶质细胞和免疫细胞连接和功能的异常亦可能参与了FGIDs的发病;脑-肠轴功能紊乱是应激和感染后肠易激综合征的发病机制之一。肠神经系统在FGIDs的发病中具有重要作用,以肠神经为靶点为开发治疗FGIDs的有效药物开辟了广阔的前景。     

New insights into the pathogenesis and pathophysiology of irritable bowel syndrome.

The pathogenesis and pathophysiology of irritable bowel syndrome is complex and still incompletely known. Potential pathogenetic factors include genes, infectious events, psychological symptoms and other loosely defined environmental factors. Both alterations at the central and peripheral level are thought to contribute to the symptoms of irritable bowel syndrome, including psychosocial factors, abnormal gastrointestinal motility and secretion, and visceral hypersensitivity. Today irritable bowel syndrome is viewed upon as a disorder of dysregulation of the so-called brain-gut axis, involving abnormal function in the enteric, autonomic and/or central nervous systems, with peripheral abnormalities probably dominating in some patients and disturbed central processing of signals from the periphery in others. Lines of evidence also suggest that inflammation within the gastrointestinal tract may be of great importance in at least subgroups of irritable bowel syndrome patients. To conclude, a complex picture of the pathogenesis and pathophysiology of irritable bowel syndrome is emerging, with interactions between several different alterations resulting in the divergent symptom pattern in these patients.     

Understanding and controlling the enteric nervous system

The enteric nervous system or the 'Little Brain' of the gut controls gastrointestinal motility and secretion, and is involved in visceral sensation. In this chapter, new developments in understanding the function of the enteric nervous system are described. In particular, the interaction of this system with the interstitial cells of Cajal, the pacemaker cells of the gut, is highlighted. The importance of the interaction between the enteric nervous system and the immune system is discussed, especially in relation to functional bowel disorders and post-operative ileus. Evidence is also provided that neurones can change their function and phenotype, a phenomenon called neuronal plasticity, which contributes to the pathogenesis of visceral hypersensitivity. Finally, new developments in stem cell transplantation are described. All these new insights should lead to a better understanding of the enteric nervous system and hopefully to better ways of controlling it.     

Opioid-induced bowel dysfunction

Opinion statement Opioid analgesics are commonly prescribed for moderate to severe pain. Opioids exert effects via receptors in the central and enteric nervous systems. Thus, central opioid analgesia can be limited by side effects involving the gastrointestinal tract, particularly by gastrointestinal motility delay. Opioid-induced bowel dysfunction is commonly treated with bulking agents, stimulant laxatives, lubiprostone, and tegaserod (removed from the market in March 2007). However, these treatments’ efficacy in opioid bowel dysfunction has not been proven. Recent research has focused on developing peripheral μ opioid antagonists such as methylnatrexone and alvimopan. These drugs selectively block μ opioid receptors in the enteric nervous system without penetrating the blood-brain barrier and can avert adverse gastrointestinal symptoms of opioids without reducing central analgesia. Methylnaltrexone and alvimopan also reduce hospitalization duration in surgical patients with postoperative ileus. A second line of research has focused on peripheral κ opioid agonists that modulate nociception in the enteric nervous system without producing central nervous system side effects. Asimadoline and fedotozine reduce nociceptive reflexes caused by gut distention and improve pain symptoms in patients with irritable bowel syndrome. ADL 10-0101 (Adolor Corp., Exton, PA) is another peripheral κ opioid agonist that lowers pain scores in patients with chronic pancreatitis. Although peripheral κ opioid agonists are promising, clinical studies are needed to assess their efficacy in treating opioid-induced bowel dysfunction.     

Relationships between the autonomic nervous system, humoral factors and immune functions in the intestine

The mammalian intestinal epithelium is a unique model for studying cellular differentiation since it undergoes continuous and rapid renewal. Substantial new information has accumulated on the mechanisms of regulation of the gene expression (e.g. Wnt, Hedgehog, bone morphogenic proteins), and the cell proliferation and apoptosis of the intestine. New knowledge has been gained in areas of genetics, central nervous system and enteric nervous system neurotransmitters (e.g. serotonin, corticotrophin-releasing factor, endogenous cannabinoid system, pathogen associated molecular patterns) of motility, sensitivity and secretion, the effect of altered mucosal inflammation on cytokine and paracrine activation, and neural sensitization, postinfectious disorders, the influence of psychologic stress on gut functioning through alterations in regulatory pathways, and improved accuracy of diagnosis both at the gut and brain level. In addition, acknowledgement of these mechanisms might help to develop strategies for therapy of neuronal abnormalities, which cause different gastrointestinal disease (e.g. irritable bowel syndrome, Crohn's disease). The present review focuses on the relationships between the gene expression and the intestine, and furthermore, presents the evidence and gastrointestinal diseases of the autonomic nervous system, the humoral factors, and the immune functions related intestinal proliferation and apoptosis.     

感染后肠易激综合征研究现状

肠易激综合征（IBS）是最常见的功能性胃肠病之一,已有研究证据表明其可能是多种因素共同作用的结果,包括遗传和环境因素、胃肠动力改变、内脏高敏感、肠道感染和炎症、慢性应激、肠道细菌过度生长和脑-肠轴功能紊乱等。部分患者在急性肠道感染恢复后仍存在腹痛、腹部不适、腹泻等症状,即感染后肠易激综合征（PI-IBS）,是近年功能性胃肠病的研究热点。本文就PI-IBS的定义、流行病学、发病机制、动物模型、临床特征、诊断和治疗等研究现状作一概述。     

Neuroanatomy of lower gastrointestinal pain disorders

Chronic abdominal pain accompanying intestinal inflammation emerges from the hyperresponsiveness of neuronal,immune and endocrine signaling pathways within the intestines,the peripheral and the central nervous system.In this article we review how the sensory nerve information from the healthy and the hypersensitive bowel is encoded and conveyed to the brain.The gut milieu is continuously monitored by intrinsic enteric afferents,and an extrinsic nervous network comprising vagal,pelvic and splanchnic afferents.The extrinsic afferents convey gut stimuli to second order neurons within the superficial spinal cord layers.These neurons cross the white commissure and ascend in the anterolateral quadrant and in the ipsilateral dorsal column of the dorsal horn to higher brain centers,mostly subserving regulatory functions.Within the supraspinal regions and the brainstem,pathways descend to modulate the sensory input.Because of this multiple level control,only a small proportion of gut signals actually reaches the level of consciousness to induce sensation or pain.In inflammatory bowel disease(IBD)and irritable bowel syndrome(IBS)patients,however,long-term neuroplastic changes have occurred in the brain-gut axis which results in chronic abdominal pain.This sensitization may be driven on the one hand by peripheral mechanisms within the intestinal wall which encompasses an interplay between immunocytes,enterochromaffin cells,resident macrophages,neurons and smooth muscles.On the other hand,neuronal synaptic changes along with increased neurotransmitter release in the spinal cord and brain leads to a state of central wind-up.Also life factors such as but not limited to inflammation and stress contribute to hypersensitivity.All together,the degree to which each of these mechanisms contribute to hypersensitivity in IBD and IBS might be diseaseand even patient-dependent.Mapping of sensitization throughout animal and human studies may significantly improve our understanding of sensitization in IBD and IBS.On the long run,this knowledge can be put forward in potential therapeutic targets for abdominal pain in these conditions.     

Basic pathophysiologic mechanisms in irritable bowel syndrome.

Converging evidence supports the concept that the irritable bowel syndrome (IBS) symptom complex results from altered regulation of gastrointestinal motility and epithelial function, as well as an altered perception of visceral events. Despite similar symptoms, there is likely heterogeneity of underlying dysfunction and pathogenesis in different subgroups of IBS patients: the syndrome may be produced by primary alterations in the central nervous system (CNS; top down model), or by primary alterations in the periphery (bottom up model), or by a combination of both. One plausible mechanism by which alterations in the CNS result in symptoms, is the enhanced responsiveness of central stress/emotion circuits. The physiological effects of psychological and physical stressors on gut function and brain-gut interactions are mediated by outputs of the emotional motor system in terms of autonomic, neuroendocrine, attentional and pain modulatory responses. IBS patients show an enhanced responsiveness of this system manifesting in altered modulation of gastrointestinal motility, secretion, immune function and in alterations in the perceptual and emotional response to visceral events.     

肠易激综合征流行病学研究现状与进展

肠易激综合征(irritable bowel syndrome,IBS)是一种以慢性或者反复发作的腹痛伴排便习惯改变为特征的功能性肠病,并缺乏形态学和生化标志的异常。IBS是一种全球性疾病,人群患病率较高,其症状可反复发作,严重影响患者的生活质量,并占用了大量的医疗资源。IBS的病因和发病机制尚未明了,随着对IBS认识的不断深入和发展,国内外在不同时期,采用不同的标准和方法,对IBS的流行病学进行了较深入的研究,但不同国家和地区、不同人群的IBS患病率及其分布特征研究结果不尽相同,影响IBS的危险因素主要包括社会心理因素及遗传、感染、食物、药物因素等,现就近年来国内外IBS流行病学的研究情况作一综述。     

Drugs acting on serotonin receptors for the treatment of functional GI disorders

In the gut, serotonin (5-hydroxytryptamine: 5-HT) exerts a variety of effects on intrinsic enteric neurons, extrinsic afferents, enterocytes and smooth muscle cells, which are related to the expression of multiple 5-HT receptor types and subtypes regulating motility, vascular tone, secretion and perception. Agonists and antagonists at 5-HT receptors have gained access to the market for the two major variants of the irritable bowel syndrome (IBS), a functional disorder characterized by abdominal pain associated with diarrhea and/or constipation in the absence of any organic abnormality. Indeed, the 5-HT3 receptor antagonist alosetron is available in the US market for the treatment of women with severe, diarrhea-predominant IBS (D-IBS) refractory to conventional therapy, whereas tegaserod, a partial 5-HT4 receptor agonist, has been approved by the FDA and other regulatory agencies for the treatment of women with constipation-predominant IBS (C-IBS) or functional constipation. This review is mainly intended to discuss the role of non-neuronal (paracrine) and neuronal 5-HT in the pathophysiology of functional gastrointestinal disorders (FGIDs), such as IBS and functional dyspepsia, and the mechanisms through which drugs acting on 5-HT receptors regulate visceral motility, perception and secretion in these two conditions.     

The pathophysiology of irritable bowel syndrome: inflammation and motor disorder]

Irritable bowel syndrome (IBS) is one of the most common disorders and a heterogeneous condition in view of symptoms and underlying mechanisms. Though underlying causes of pathophysiologic changes remain unclear, low grade mucosal inflammation and abnormal intestinal motility are accepted mechanisms which alter gut function and generate symptoms of IBS. First, before 1980s, abnormal colonic and rectal motor functions were regarded as the main pathophysiology of IBS, but only 25-75% of IBS patients have apparent motor abnormalities which differ from the motor functions in normal controls. So, various gastrointestinal motility tests were not indicated for the diagnosis of IBS. The high-amplitude propagating contractions of colon in IBS patients may be related to the visceral pain perception. Second, the low grade mucosal inflammation may be involved in the pathophysiology of visceral hypersensitivity. Post infectious IBS (PI-IBS) occupied 6-17% of the total IBS and some previous prospective studies reported that 7-33% of acute bacterial enteritis patients developed IBS after 6-12 months of infection. The relative risk of IBS in the gastroenteritis cohort was 11.9 and the strongest risk factor is the duration of diarrhea. After enteritis event, the increased number of immunocytes, mast cells and large amount of lymphocytes infiltration were revealed in mucosa and enteric nervous system of the gut. Beside the inflammatory cells, enterochromaffin cells, cytokines and inducible nitric oxide may be related to the pathophysiologic mechanism of PI-IBS. Lastly, the abnormalities in the gastrointestinal autonomic nervous system can induce constipation or motor disorders, but further research should elucidate it.     

5-羟色胺信号系统在炎症性肠病发病机制中的地位

炎症性肠病(IBD)患者较易出现功能性肠道症状,这些症状往往与肠道活动性炎症关系不大,却与肠功能紊乱有关,说明IBD的发病在某些方面与肠易激综合征(IBS)相似。5-羟色胺(5-HT)信号系统异常可致胃肠动力、分泌功能异常和内脏高敏感性,与多种功能性胃肠病密切相关。而IBD的发病机制中亦存在功能性因素,提示IBD与IBS可能存在某些分子水平的联系,有必要对5-HT信号系统在IBD发病机制中的作用进行研究。     

Effects of bacteria on the enteric nervous system: implications for the irritable bowel syndrome

A unified scenario emerges when it is considered that a major impact of stress on the intestinal tract is reflected by symptoms reminiscent of the diarrhea-predominant form of irritable bowel syndrome. Cramping abdominal pain, fecal urgency, and explosive watery diarrhea are hallmarks not only of diarrhea-predominant irritable bowel syndrome, but also of infectious enteritis, radiation-induced enteritis, and food allergy. The scenario starts with stress-induced compromise of the intestinal mucosal barrier and continues with microorganisms or other sensitizing agents crossing the barrier and being intercepted by enteric mast cells. Mast cells signal the presence of the agent to the enteric nervous system (ie, the brain-in-the-gut), which uses one of the specialized programs from its library of programs to remove the "threat." This is accomplished by stimulating mucosal secretion, which flushes the threatening agent into the lumen and maintains it in suspension. The secretory response then becomes linked to powerful propulsive motility, which propels the secretions together with the offending agent rapidly in the anal direction. Cramping abdominal pain accompanies the strong propulsive contractions. Urgency is experienced when arrival of the large bolus of liquid distends the recto-sigmoid region and reflexly opens the internal anal sphincter, with continence protection now provided only by central reflexes that contract the puborectalis and external anal sphincter muscles. Sensory information arriving in the brain from receptors in the rapidly distending recto-sigmoid accounts for the conscious sensation of urgency and might exacerbate the individual's emotional stress. The symptom of explosive watery diarrhea becomes self-explanatory in this scenario.     

Altered neuro-endocrine–immune pathways in the irritable bowel syndrome: the top-down and the bottom-up model

The interaction between the brain and the gut as a pathological mechanism of functional gastrointestinal disorders has been recently recognized in the pathophysiology of the irritable bowel syndrome. Communication between central nervous system and enteric nervous system is two-directional: the brain can influence the function of the enteric nervous system and the gut can influence the brain via vagal and sympathetic afferents. In patients with irritable bowel syndrome, symptoms may be caused by alterations either primarily in the central nervous system (top-down model), or in the gut (bottom-up model), or in a combination of both. The brain–gut axis may be stimulated by various stressors either directed to the central nervous system (exteroreceptive stress) or to the gut (interoceptive stress). Particularly, clinical evidence suggest that in complex and multifactorial diseases such as irritable bowel syndrome, psychological disorders represent significant factors in the pathogenesis and course of the syndrome. Neuroimaging techniques have shown functional differences between central process in healthy subjects and patients with irritable bowel syndrome. Moreover, a high prevalence of psychological/psychiatric disorders have been reported in IBS patients compared to controls. Several data also suggest an alteration of neuro-endocrine and autonomic output to the periphery in these patients. This review will examine and discuss the complex interplay of neuro-endocrine–immune pathways, closely associated with neuropsychiatric disorders.     

Evolving concepts in functional gastrointestinal disorders: promising directions for novel pharmaceutical treatments

In recent years there has been an increasing appreciation of the complexity of functional gastrointestinal disorders. These represent a spectrum of conditions which may affect any part of the gastrointestinal tract in which there appears to be dysregulation of visceral function and afferent sensation and a strong association with emotional factors and stress. There is a clear psychological dimension, with up to 60% of irritable bowel syndrome (IBS) patients reported to have psychological co-morbidities and altered pain perception is also common in comparison with control populations. The role of the enteric nervous system, the sensory pathways and the brain as well as the influence of the latter on sympathetic and parasympathetic outflow have likewise attracted increasing interest and have led to exciting new methods to study their complex interactions. The concept of low-grade inflammation, such as might occur after infection, acting as a trigger for neuromuscular dysfunction has also led to the broad integrative hypotheses that help to explain the biopsychosocial dimensions seen in functional gastrointestinal disease. The multi-component model places a major emphasis on neurogastroenterology and enteric and neuro-immune interactions where new approaches to pharmacotherapy lie. Drugs may affect motility, visceral sensation and other aspects of gut function such as secretion or absorption. More particularly, however, has been the search for and attempts to influence important mediators of these primary gut functions. Such targets include serotonin and selected 5-HT receptors, which are involved in gut motility, visceral sensation and other aspects of gut function, CCK receptors which are involved in the mediation of pain in the gut and nociception in the CNS, opioid receptors involved in pain in the brain, spinal cord and periphery, muscarinic M3-receptors, substance P and neurokinin A and B receptors which are involved in motor adaptation and pain transmission in association with inflammation, gabba receptors involved in nociception and cannabinoid receptors which are involved in the control of acetyl choline release in the gut. With a better understanding of the structures and pathways involved in visceral perception and hyperalgesia, in the CNS, spinal cord and the gut and new pharmacological tools we will be better able to elucidate the neuropharmacology of visceral perception and its relationship to gut dysfunction. It is likely that there will be multiple therapeutic options based on the spectrum of abnormalities capable of causing the spectrum of symptoms of functional gastrointestinal disorders in any individual patient.     

Psychosocial determinants of irritable bowel syndrome

From a pure motor disorder of the bowel, in the past few years, irritable bowel syndrome (IBS) has become a multifactorial disease that implies visceral hypersensitivity, alterations at the level of nervous and humoral communications between the enteric nervous system and the central nervous system, alteration of the gut microflora, an increased intestinal permeability and minimum intestinal inflammation. Psychological and social factors can interfere with the communication between the central and enteric nervous systems, and there is proof that they are involved in the onset of IBS and influence the response to treatment and outcome. There is evidence that abuse history and stressful life events are involved in the onset of functional gastrointestinal disorders. In order to explain clustering of IBS in families, genetic factors and social learning mechanisms have been proposed. The psychological features, such as anxiety, depression as well as the comorbid psychiatric disorders, health beliefs and coping of patients with IBS are discussed in relation to the symptoms and outcome.     

Key elements determining the intestinal region-specific environment of enteric neurons in type 1 diabetes

Diabetes,as a metabolic disorder,is accompanied with several gastrointestinal(GI) symptoms,like abdominal pain,gastroparesis,diarrhoea or constipation.Serious and complex enteric nervous system damage is confirmed in the background of these diabetic motility complaints.The anatomical length of the GI tract,as well as genetic,developmental,structural and functional differences between its segments contribute to the distinct,intestinal region-specific effects of hyperglycemia.These observations su...     

Cellular and molecular basis of chronic constipation: Taking the functional/idiopathic label out

In recent years, the improvement of technology and the increase in knowledge have shifted several strongly held paradigms. This is particularly true in gastroenterology, and specifically in the field of the so-called "functional" or "idiopathic" disease, where conditions thought for decades to be based mainly on alterations of visceral perception or aberrant psychosomatic mechanisms have, in fact, be reconducted to an organic basis (or, at the very least, have shown one or more demonstrable abnormalities). This is particularly true, for instance, for irritable bowel syndrome, the prototype entity of "functional" gastrointestinal disorders, where low-grade inflammation of both mucosa and myenteric plexus has been repeatedly demonstrated. Thus, researchers have also investigated other functional/idiopathic gastrointestinal disorders, and found that some organic ground is present, such as abnormal neurotransmission and myenteric plexitis in esophageal achalasia and mucosal immune activation and mild eosinophilia in functional dyspepsia. Here we show evidence, based on our own and other authors’ work, that chronic constipation has several abnormalities reconductable to alterations in the enteric nervous system, abnormalities mainly characterized by a constant decrease of enteric glial cells and interstitial cells of Cajal (and, sometimes, of enteric neurons). Thus, we feel that (at least some forms of) chronic constipation should no more be considered as a functional/idiopathic gastrointestinal disorder, but instead as a true enteric neuropathic abnormality.     

Irritable bowel syndrome,the microbiota and the gut-brain axis

Irritable bowel syndrome is a common functional gastrointestinal disorder and it is now evident that irritable bowel syndrome is a multi-factorial complex of changes in microbiota and immunology. The bidirectional neurohumoral integrated communication between the microbiota and the autonomous nervous system is called the gut-brain-axis, which integrates brain and GI functions, such as gut motility, appetite and weight. The gut-brain-axis has a central function in the perpetuation of irritable bowel syndrome and the microbiota plays a critical role. The purpose of this article is to review recent research concerning the epidemiology of irritable bowel syndrome, influence of microbiota, probiota, gut-brain-axis, and possible treatment modalities on irritable bowel syndrome.