Functional dyspepsia and nonerosive reflux disease: clinical interactions and their implications

Functional dyspepsia or nonulcer dyspepsia, and nonerosive reflux disease (NERD) or endoscopy-negative reflux disease, are common reasons for referral to a gastroenterologist. Although there is much confusion with regard to definition, recent research would suggest that these 2 conditions are linked and may represent components in the spectrum of the same disease entity, in terms of both symptoms and pathophysiology. Several theories have been proposed regarding the etiology of these disorders, including acid exposure, visceral hypersensitivity, impaired fundal accommodation, delayed gastric emptying, and Helicobacter pylori infection.     

Gastroesophageal reflux: clinical presentations,diagnosis and management.

Symptomatic gastroesophageal reflux occurs daily in an estimated 7% of adults and weekly or monthly in 29%. Untreated it can lead to esophageal erosions, ulceration and stricture formation. The pathogenesis is often multifactorial: defects in the function of the lower esophageal sphincter, esophageal clearance mechanisms and gastric emptying combine to produce frequent lengthy periods during which the lower esophagus is bathed in regurgitated acid. In most patients reflux disease is easily recognized as recurrent heartburn, regurgitation or dysphagia, or a combination. When acute chest pain or respiratory illness is the primary presenting complaint the patient needs particularly careful investigation to determine whether the symptoms are due to a primary cardiac or respiratory condition, are secondary to gastroesophageal reflux alone or represent a combination of disorders. Endoscopy with biopsy and long-term pH monitoring are the most reliable ways of determining whether reflux disease is present. Additional investigations, such as exercise testing, cardiac catheterization or inhalation challenge, may be needed in patients with cardiac or respiratory symptoms. Treatment should follow a stepped-care approach and in most patients should begin with changes in lifestyle, including dietary manipulation, reducing alcohol and cigarette consumption, and raising the head of the bed, together with appropriate use of antacids or alginate-antacid combinations. H2-receptor antagonists and agents to improve both gastric emptying and the tone of the lower esophageal sphincter may be added in sequence. Most patients will respond well to this regimen. Surgery should be considered only for those with intractable symptoms or with complications (e.g., stricture formation, bleeding, development of dysplastic epithelium in those with Barrett''s esophagus, or secondary pulmonary disease that does not respond to medical management). It is successful in 85% of well-selected patients and has few complications.     

Does Helicobacter pylori infection contribute to gastroesophageal reflux disease?

Helicobacter pylori organisms that infect the stomach conceivably could contribute to esophageal inflammation in patients with gastroesophageal reflux disease (GERD) through any of at least three potential mechanisms: 1) by causing an increase in gastric acid secretion; 2) by spreading to infect the gastric-type columnar epithelium that occasionally can line the distal esophagus; and/or 3) by secreting noxious bacterial products into the gastric juice. Studies regarding these potential mechanisms are discussed in this report. Most investigations have found no apparent association between H. pylori infection and reflux esophagitis. Presently, infection with H. pylori does not appear to play an important role in the pathogenesis of GERD.     

Pharmacologic modulation of motility

Etiologically, gastroesophageal reflux disease (GERD) can be regarded as motility disorder: Although blocking acid is effective in the treatment of GERD, it does not overcome the underlying pathologic factors that allow acid, pepsin, and bile to reflux into the esophagus. Prokinetic agents address the upper gastrointestinal motility disturbances contributing to GERD and, thus, have an important role in the short- and long-term medical management of reflux esophagitis. This paper discusses the rationale for the effectiveness of pharmacologic modulation by reviewing current concepts and postulated theories about the mechanisms underlying the neuromuscular abnormalities. The multifactorial aspects of GERD are addressed and the potential for tailoring medical therapy also emphasized.     

Physio-pathological roles of transglutaminase-catalyzed reactions

Transglutaminases (TGs) are a large family of related and ubiquitous enzymes that catalyze post-translational modifications of proteins. The main activity of these enzymes is the cross-linking of a glutaminyl residue of a protein/peptide substrate to a lysyl residue of a protein/peptide co-substrate. In addition to lysyl residues, other second nucleophilic co-substrates may include monoamines or polyamines (to form mono- or bi-substituted /crosslinked adducts) or -OH groups (to form ester linkages). In the absence of co-substrates, the nucleophile may be water, resulting in the net deamidation of the glutaminyl residue. The TG enzymes are also capable of catalyzing other reactions important for cell viability. The distribution and the physiological roles of TG enzymes have been widely studied in numerous cell types and tissues and their roles in several diseases have begun to be identified. "Tissue" TG (TG2), a member of the TG family of enzymes, has definitely been shown to be involved in the molecular mechanisms responsible for a very widespread human pathology: i.e. celiac disease (CD). TG activity has also been hypothesized to be directly involved in the pathogenetic mechanisms responsible for several other human diseases, including neurodegenerative diseases, which are often associated with CD. Neurodegenerative diseases, such as Alzheimer's disease, Parkinson's disease, supranuclear palsy, Huntington's disease and other recently identified polyglutamine diseases, are characterized, in part, by aberrant cerebral TG activity and by increased cross-linked proteins in affected brains. In this review, we discuss the physio-pathological role of TG-catalyzed reactions, with particular interest in the molecular mechanisms that could involve these enzymes in the physio-pathological processes responsible for human neurodegenerative diseases.     

Helicobacter pylori, ethnicity, and the gastroesophageal reflux disease spectrum: a study from the East

BACKGROUND: Ethnic differences in gastroesophageal reflux disease (GERD) and its complications as well as racial variations in the prevalence of Helicobacter pylori infection are well documented. Nevertheless, the association between reflux disease, H. pylori, and race has not been adequately explored. AIMS: We estimated the strength of the association between H. pylori, ethnicity, and the gastroesophageal reflux disease (GERD) spectrum, including Barrett's esophagus, in Asian patients presenting for endoscopy in a tertiary referral center. METHODS: Prospectively, we studied 188 consecutive patients with GERD, short- and long-segment Barrett's esophagus, and controls. All patients underwent gastroscopy with gastric biopsies to assess H. pylori, gastritis, and atrophy. CagA status and H. pylori infection were determined by immunoblot assay. RESULTS: The overall prevalence of H. pylori infection was 52.1% (of which 77.6% were cagA(+)) and was lowest in the long-segment Barrett's esophagus group (36.7%) (p = .048). When Barrett's esophagus was present, the length of abnormality was 44.8% shorter in the presence of H. pylori (p = .015). Indians had the highest prevalence of H. pylori (75%) and Malays the lowest (19.6%) (p < .001). In Indians, increased prevalence of H. pylori and cagA-positive strains was associated with reduced severity of GERD (p < .004 and p < .001, respectively), a trend not apparent in the other races. Corpus atrophy, which was almost exclusively associated with H. pylori, was highest in Indians as compared to the other races (p = .013). CONCLUSIONS: Presence of H. pylori was associated with a reduced severity of GERD spectrum disease in Asians, especially Indians. H. pylori infection may protect against complicated reflux disease via induction of corpus atrophy.     

The alpha-ketoglutarate dehydrogenase complex in neurodegeneration

Altered energy metabolism is characteristic of many neurodegenerative disorders. Reductions in the key mitochondrial enzyme complex, the alpha-ketoglutarate dehydrogenase complex (KGDHC), occur in a number of neurodegenerative disorders including Alzheimer's Disease (AD). The reductions in KGDHC activity may be responsible for the decreases in brain metabolism, which occur in these disorders. KGDHC can be inactivated by several mechanisms, including the actions of free radicals (Reactive Oxygen Species, ROS). Other studies have associated specific forms of one of the genes encoding KGDHC (namely the DLST gene) with AD, Parkinson's disease, as well as other neurodegenerative diseases. Reductions in KGDHC activity can be plausibly linked to several aspects of brain dysfunction and neuropathology in a number of neurodegenerative diseases. Further studies are needed to assess mechanisms underlying the sensitivity of KGDHC to oxidative stress and the relation of KGDHC deficiency to selective vulnerability in neurodegenerative diseases.     

胃食管反流病患者自我管理行为依从性及其影响因素调查

目的：调查分析胃食管反流病患者自我管理行为依从性情况及其影响因素。方法：选取2010年2月-2012年6月来我院就诊治疗的胃食管反流患者150例,利用自我行为管理量表、自我效能量表、焦虑自评量表（SAs）及抑郁自评量表（SDS）进行调查,并采用单因素分析及多因素分析法分析其影响因素。结果：所有150例患者的自我行为管理平均得分为37．12＋4．95分,处于中下游水平,其中治疗依从性较好而疾病知识认知方面较差;而从单因素及多因素分析中得知,胃食管反流病患者自我行为依从性的影响因素主要为自我效能、工作学习压力及文化程度（偏回顾系数=0．301、-2．264、1．403）。结论：胃食管返流病患者的自我管理行为依从性较差,这与其文化程度较低、工作学习压力较大有关,医务人员应指导患者减轻工作学习压力,改善生活方式以提高其自我管理行为依从性。     

Mechanisms of dysfunction of the nitric oxide pathway in vascular diseases.

Vascular nitric oxide (NO) is involved in many physiologic and pathophysiologic processes throughout the body. Many vascular diseases have a reduction in the activity of endothelium-derived NO as an important component involved in the initiation and/or progression of the disease. It is now known that there are multiple mechanisms for this reduction in NO activity with one or more mechanisms operating depending on the specific condition or stage of a disease. In other instances, the therapy for certain diseases is responsible for the reduction in NO activity and contributes to the acceleration of vascular disease. This review details the known mechanisms of dysfunction of the NO pathway leading to vascular diseases, which provides the rationale for why certain therapies can improve while other therapies adversely affect vascular health.     

Toll-like receptor 3 signaling enables human esophageal epithelial cells to sense endogenous danger signals released by necrotic cells

The mechanisms by which gastroesophageal reflux disease esophagitis develops are controversial. Although many support the notion that caustic injury leads to reflux esophagitis, others have proposed that reflux esophagitis is caused by esophageal epithelial cytokine-mediated inflammation. We previously demonstrated that Toll-like receptor 3 (TLR3) is highly expressed and functional in the nontransformed human esophageal epithelial cell line EPC2-hTERT. In addition to activation by viral double-stranded RNA, TLR3 can be activated by endogenous mRNA released by necrotic cells. In the present study, we investigated the role of esophageal epithelial TLR3 to sense danger signals released by necrotic esophageal epithelial cells in vitro. Following induction of freeze-thaw necrosis, necrotic EPC2-hTERT cell supernatants (NCS) were used to stimulate EPC2-hTERT monolayers, leading to NF-κB-dependent induction of IL-8 mRNA expression. Responses to self-derived NCS were not observed in transformed gastrointestinal epithelial cell lines, including TE-1 and Caco-2 cells, suggesting that the ability to sense endogenous danger signals is unique to nontransformed esophageal epithelial cells. To determine the immunostimulatory role of epithelial RNA, EPC2-hTERT cells were stimulated with self-derived mRNA, which significantly induced IL-8 mRNA expression. Finally, suppression of TLR3 signaling in a DN-TLR3 cell line, hTERT-ΔTIR-TLR3, led to reduced NCS-induced IL-8 induction by both NCS and mRNA stimulation. Our results demonstrate that human esophageal epithelial cells can sense endogenous danger signals, in part through TLR3 signaling. This supports the concept that epithelial injury plays an inciting role in the pathogenesis of reflux-induced esophagitis, providing important insights into the mechanisms by which epithelial injury leads to inflammation.     

Reflex regulation of airway smooth muscle tone.

Autonomic nerves in most mammalian species mediate both contractions and relaxations of airway smooth muscle. Cholinergic-parasympathetic nerves mediate contractions, whereas adrenergic-sympathetic and/or noncholinergic parasympathetic nerves mediate relaxations. Sympathetic-adrenergic innervation of human airway smooth muscle is sparse or nonexistent based on histological analyses and plays little or no role in regulating airway caliber. Rather, in humans and in many other species, postganglionic noncholinergic parasympathetic nerves provide the only relaxant innervation of airway smooth muscle. These noncholinergic nerves are anatomically and physiologically distinct from the postganglionic cholinergic parasympathetic nerves and differentially regulated by reflexes. Although bronchopulmonary vagal afferent nerves provide the primary afferent input regulating airway autonomic nerve activity, extrapulmonary afferent nerves, both vagal and nonvagal, can also reflexively regulate autonomic tone in airway smooth muscle. Reflexes result in either an enhanced activity in one or more of the autonomic efferent pathways, or a withdrawal of baseline cholinergic tone. These parallel excitatory and inhibitory afferent and efferent pathways add complexity to autonomic control of airway caliber. Dysfunction or dysregulation of these afferent and efferent nerves likely contributes to the pathogenesis of obstructive airways diseases and may account for the pulmonary symptoms associated with extrapulmonary disorders, including gastroesophageal reflux disease, cardiovascular disease, and rhinosinusitis.     

Possible involvement of transglutaminase-catalyzed reactions in the physiopathology of neurodegenerative diseases

Transglutaminases are ubiquitous enzymes, which catalyze post-translational modifications of proteins. Recently, transglutaminases and tranglutaminase-catalyzed post-translational modification of proteins have been shown to be involved in the molecular mechanisms responsible for several human diseases. Transglutaminase activity has been hypothesized to be involved also in the pathogenetic mechanisms responsible for human neurodegenerative diseases. Neurodegenerative diseases, such as Alzheimer’s disease, Parkinson’s disease, supranuclear palsy, Huntington’s disease and other polyglutamine diseases, are characterized in part by aberrant cerebral transglutaminase activity and by increased cross-linked proteins in affected brains. In this review, we focus on the possible molecular mechanisms by which transglutaminase activity could be involved in the pathogenesis of neurodegenerative diseases, and on the possible therapeutic effects of selective transglutaminase inhibitors for the cure of patients with diseases characterized by aberrant transglutaminase activity.     

Changes in the control of external respiratory function in Parkinson’s disease

Data on changes in the function of external respiration induced by Parkinson’s disease (idiopathic Parkinsonism) obtained by various research groups (including results of the author’s own studies) are compared. Probable neurochemical and other mechanisms that influence the system controlling respiratory activity and parameters of lung ventilation are discussed. Neirofiziologiya/Neurophysiology, Vol. 38, Nos. 5/6, pp. 472–480, September–December, 2006.     

Beyond modules and hubs: the potential of gene coexpression networks for investigating molecular mechanisms of complex brain disorders

In a research environment dominated by reductionist approaches to brain disease mechanisms, gene network analysis provides a complementary framework in which to tackle the complex dysregulations that occur in neuropsychiatric and other neurological disorders. Gene–gene expression correlations are a common source of molecular networks because they can be extracted from high‐dimensional disease data and encapsulate the activity of multiple regulatory systems. However, the analysis of gene coexpression patterns is often treated as a mechanistic black box, in which looming ‘hub genes’ direct cellular networks, and where other features are obscured. By examining the biophysical bases of coexpression and gene regulatory changes that occur in disease, recent studies suggest it is possible to use coexpression networks as a multi‐omic screening procedure to generate novel hypotheses for disease mechanisms. Because technical processing steps can affect the outcome and interpretation of coexpression networks, we examine the assumptions and alternatives to common patterns of coexpression analysis and discuss additional topics such as acceptable datasets for coexpression analysis, the robust identification of modules, disease‐related prioritization of genes and molecular systems and network meta‐analysis. To accelerate coexpression research beyond modules and hubs, we highlight some emerging directions for coexpression network research that are especially relevant to complex brain disease, including the centrality–lethality relationship, integration with machine learning approaches and network pharmacology .     

Isolation and characterization of human esophageal microvascular endothelial cells: mechanisms of inflammatory activation

Gastroesophageal reflux disease is the most common malady of the esophagus, affecting 7% of the United States population. Histological assessment demonstrates classic inflammatory mechanisms including selective leukocyte recruitment and hemorrhage, suggesting a prominent role for the microvasculature. We isolated and characterized human esophageal microvascular endothelial cells (EC) (HEMEC), examined inflammatory activation in response to cytokines, LPS, and acidic pH exposure, and identified signaling pathways that underlie activation. HEMEC displayed characteristic morphological and phenotypic features including acetylated LDL uptake. TNF-alpha/LPS activation of HEMEC resulted in upregulation of the cell adhesion molecules (CAM) ICAM-1, VCAM-1, E-selectin, and mucosal addressin CAM-1 (MAdCAM-1), increased IL-8 production, and enhanced leukocyte binding. Both acid and TNF-alpha/LPS activation lead to activation of SAPK/JNK in HEMEC that was linked to VCAM-1 expression and U-937 leukocyte adhesion. Expression of constitutive inducible nitric oxide synthase in HEMEC was in marked contrast to intestinal microvascular endothelial cells. In this study, we demonstrate that HEMECs are phenotypically and functionally distinct from lower gut-derived endothelial cells and will facilitate understanding of inflammatory mechanisms in esophageal inflammation.     

胃食管反流病的治疗进展

胃食管反流病(gastroesophaeal reflux disease,GERD)是医疗实践中的最常见的疾病之一,其发病率在世界范围内呈逐年上升趋势,且随年龄增长而增加,40-60岁为高发年龄[1]。GERD是一种由胃、十二指肠内容物反流入食管引起不适症状和(或)并发症的疾病,GERD在临床上大致可分为:糜烂性食管炎(EE)(反流性食管炎(RE))和非糜烂性食管炎(NERD)。其中NERD最多见,约占60%。GERD远期危害较小,但其病情漫长且极易复发,严重影响了生活质量。主要表现为食管症状(包括典型的烧心和反流)和食管外症状(包括咽部异物感、咳嗽、声嘶、哮喘、咽喉炎等表现),还有增加发展为Barrett食管及食管癌的危险[2,3]。GERD的治疗目的是愈合食管炎,快速缓解症状、减少复发、提高生活质量,治疗方法主要包括以下4个方面:一般治疗,药物治疗,内镜下治疗和外科治疗。近年来已成为国内外研究的热点,本文就近年来对GERD的治疗进展做一综述。     

胃食管反流病与胃肠道微生态关系的研究进展

胃食管反流病(gastroesophageal reflux disease, GERD)是由多种原因引起的功能性胃肠疾病, 发病率逐年上升, 目前其发病机制尚不完全清楚。GERD的典型症状是胃灼热和反流。研究发现GERD的发生发展与胃肠道微生态有密切的关系。胃肠道中有着人体内最复杂的微生态系统, 其微生态平衡是维持人体健康的关键因素。而胃肠道微生态失衡导致食管抗反流结构和功能受损、食管清除作用降低、食管黏膜抵御能力下降, 最终通过精神心理疾病、肥胖和糖尿病等引发或加重GERD。本文综述了GERD与胃肠道微生态的直接关系, 探讨GERD的危险因素与肠道菌群的关系, 并对GERD的微生态治疗进行了阐述。

     

Vesicoureteral reflux and other urinary tract malformations in mice compound heterozygous for Pax2 and Emx2

Congenital anomalies of the kidney and urinary tract (CAKUT) are the most common cause of chronic kidney disease in children. This disease group includes a spectrum of urinary tract defects including vesicoureteral reflux, duplex kidneys and other developmental defects that can be found alone or in combination. To identify new regulators of CAKUT, we tested the genetic cooperativity between several key regulators of urogenital system development in mice. We found a high incidence of urinary tract anomalies in Pax2;Emx2 compound heterozygous mice that are not found in single heterozygous mice. Pax2^+/−;Emx2^+/− mice harbor duplex systems associated with urinary tract obstruction, bifid ureter and a high penetrance of vesicoureteral reflux. Remarkably, most compound heterozygous mice refluxed at low intravesical pressure. Early analysis of Pax2^+/−;Emx2^+/− embryos point to ureter budding defects as the primary cause of urinary tract anomalies. We additionally establish Pax2 as a direct regulator of Emx2 expression in the Wolffian duct. Together, these results identify a haploinsufficient genetic combination resulting in CAKUT-like phenotype, including a high sensitivity to vesicoureteral reflux. As both genes are located on human chromosome 10q, which is lost in a proportion of VUR patients, these findings may help understand VUR and CAKUT in humans.     

Dynamic Processes in Regulation and Some Implications for Biofeedback and Biobehavioral Interventions

Systems theory has long been used in psychology, biology, and sociology. This paper applies newer methods of control systems modeling for assessing system stability in health and disease. Control systems can be characterized as open or closed systems with feedback loops. Feedback produces oscillatory activity, and the complexity of naturally occurring oscillatory patterns reflects the multiplicity of feedback mechanisms, such that many mechanisms operate simultaneously to control the system. Unstable systems, often associated with poor health, are characterized by absence of oscillation, random noise, or a very simple pattern of oscillation. This modeling approach can be applied to a diverse range of phenomena, including cardiovascular and brain activity, mood and thermal regulation, and social system stability. External system stressors such as disease, psychological stress, injury, or interpersonal conflict may perturb a system, yet simultaneously stimulate oscillatory processes and exercise control mechanisms. Resonance can occur in systems with negative feedback loops, causing high-amplitude oscillations at a single frequency. Resonance effects can be used to strengthen modulatory oscillations, but may obscure other information and control mechanisms, and weaken system stability. Positive as well as negative feedback loops are important for system function and stability. Examples are presented of oscillatory processes in heart rate variability, and regulation of autonomic, thermal, pancreatic and central nervous system processes, as well as in social/organizational systems such as marriages and business organizations. Resonance in negative feedback loops can help stimulate oscillations and exercise control reflexes, but also can deprive the system of important information. Empirical hypotheses derived from this approach are presented, including that moderate stress may enhance health and functioning.