Division of Gastroenterology, Department of Medicine, Veterans Affairs Boston Healthcare System, West Roxbury, Massachusetts, United States.
Division of Gastroenterology, Hepatology, and Endoscopy, Department of Medicine, Beth Israel Deaconess Medical Center, and Harvard Medical School, Boston, Massachusetts, United States.
Am J Physiol Gastrointest Liver Physiol. 2024 Apr 1;326(4):G398-G410. doi: 10.1152/ajpgi.00258.2023. Epub 2024 Jan 30.
Major esophageal disorders involve obstructive transport of bolus to the stomach, causing symptoms of dysphagia and impaired clearing of the refluxed gastric contents. These may occur due to mechanical constriction of the esophageal lumen or loss of relaxation associated with deglutitive inhibition, as in achalasia-like disorders. Recently, immune inflammation has been identified as an important cause of esophageal strictures and the loss of inhibitory neurotransmission. These disorders are also associated with smooth muscle hypertrophy and hypercontractility, whose cause is unknown. This review investigated immune inflammation in the causation of smooth muscle changes in obstructive esophageal bolus transport. Findings suggest that smooth muscle hypertrophy occurs above the obstruction and is due to mechanical stress on the smooth muscles. The mechanostressed smooth muscles release cytokines and other molecules that may recruit and microlocalize mast cells to smooth muscle bundles, so that their products may have a close bidirectional effect on each other. Acting in a paracrine fashion, the inflammatory cytokines induce genetic and epigenetic changes in the smooth muscles, leading to smooth muscle hypercontractility, hypertrophy, and impaired relaxation. These changes may worsen difficulty in the esophageal transport. Immune processes differ in the first phase of obstructive bolus transport, and the second phase of muscle hypertrophy and hypercontractility. Moreover, changes in the type of mechanical stress may change immune response and effect on smooth muscles. Understanding immune signaling in causes of obstructive bolus transport, type of mechanical stress, and associated smooth muscle changes may help pathophysiology-based prevention and targeted treatment of esophageal motility disorders. Esophageal disorders such as esophageal stricture or achalasia, and diffuse esophageal spasm are associated with smooth muscle hypertrophy and hypercontractility, above the obstruction, yet the cause of such changes is unknown. This review suggests that smooth muscle obstructive disorders may cause mechanical stress on smooth muscle, which then secretes chemicals that recruit, microlocalize, and activate mast cells to initiate immune inflammation, producing functional and structural changes in smooth muscles. Understanding the immune signaling in these changes may help pathophysiology-based prevention and targeted treatment of esophageal motility disorders.
主要的食管疾病涉及食团向胃的阻塞性转运,导致吞咽困难和反流胃内容物清除受损的症状。这些可能是由于食管腔的机械性收缩或与吞咽抑制相关的松弛丧失引起的,如类似贲门失弛缓症的疾病。最近,免疫炎症已被确定为食管狭窄和抑制性神经传递丧失的重要原因。这些疾病也与平滑肌肥大和过度收缩有关,其原因尚不清楚。本综述研究了免疫炎症在阻塞性食管食团转运中平滑肌变化的发病机制。研究结果表明,平滑肌肥大发生在梗阻上方,是由于平滑肌受到机械应力的作用。受机械应力作用的平滑肌释放细胞因子和其他分子,这些分子可能募集并微定位肥大细胞到平滑肌束中,使其产物可能对彼此产生密切的双向影响。炎症细胞因子以旁分泌的方式作用,导致平滑肌发生遗传和表观遗传变化,从而导致平滑肌过度收缩、肥大和松弛受损。这些变化可能使食管转运更加困难。免疫过程在阻塞性食团转运的第一阶段和第二阶段(肌肉肥大和过度收缩)中有所不同。此外,机械应力类型的变化可能会改变免疫反应和对平滑肌的影响。了解阻塞性食团转运、机械应力类型和相关平滑肌变化的免疫信号可能有助于基于病理生理学的食管动力障碍的预防和靶向治疗。食管狭窄、贲门失弛缓症和弥漫性食管痉挛等食管疾病与梗阻上方的平滑肌肥大和过度收缩有关,但这些变化的原因尚不清楚。本综述表明,平滑肌阻塞性疾病可能导致平滑肌受到机械应力,然后分泌化学物质募集、微定位并激活肥大细胞以启动免疫炎症,从而在平滑肌中产生功能和结构变化。了解这些变化中的免疫信号可能有助于基于病理生理学的食管动力障碍的预防和靶向治疗。
