Xuan-Yu Wang scite author profile

Reversibly altering endogenous protein levels are persistent issues. Herein, we designed photoswitchable azobenzene-proteolysis targeting chimeras (Azo-PROTACs) by including azobenzene moieties between ligands for the E3 ligase and the protein of interest. Azo-PROTACs are light-controlled small-molecule tools for protein knockdown in cells. The light-induced configuration change can switch the active state to induce protein degradation activity, which can be reversely controlled by light exposure in intact cells. We compared the protein degradation abilities of Azo-PROTACs with different configurations and linker lengths. Using the stable form with the best degradation ability against the BCR-ABL fusion and ABL proteins in myelogenous leukemia K562 cells, we showed that Azo-PROTAC combines the potent protein knockdown and facile cell uptake properties of the small-molecule PROTAC with a reversible photoswitchability, offering a promising chemical knockdown strategy based on the light-induced reversible on/off properties.

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Pathology of Interstitial Cells of Cajal in Relation to Inflammation Revealed by Ultrastructure But Not Immunohistochemistry

Wang

Berezin

Mikkelsen

et al. 2002

The American Journal of Pathology

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The role of interstitial cells of Cajal associated with Auerbach's plexus (ICC-AP) in the pathophysiology of inflammation-induced abnormalities in gut motor activity is poorly understood. Therefore we applied a well-described model of inflammation (infection by Trichinella spiralis) to the mouse small intestine where the structure and function of ICC-AP are best known. Electron microscopic evaluation revealed that 1 to 3 days after infection, selective and patchy damage to the ICC processes occurred, thereby disrupting contacts between these ICC and smooth muscle cells as well as ICC and nerves, which was associated with disordered electrical activity and abnormal peristalsis. Ten to 15 days after infection, damage to ICC-AP was maximal and now involving the cell body and major processes. Our understanding of the role of interstitial cells of Cajal (ICC) in the pathophysiology of intestinal motor disorders related to inflammation is hampered by our limited knowledge of effects of inflammation on this cell system. Therefore, a well-described model of inflammation (infection with T. spiralis) was applied to the mouse small intestine where the structure and function of ICC are best known.ICC associated with Auerbach's plexus (ICC-AP) in the small intestine perform a pacemaker function for intestinal motor activity.1,2 ICC-AP are associated with slowwave-driven peristalsis, which is prominent during gastric emptying and small bowel transit.3 In fact, normal peristaltic activity in the small bowel after gastric emptying of a liquid was absent in W/W v mutant mice that do not have ICC-AP.3 ICC-AP are characterized by elongated cell bodies with extremely long, thin, ramified cell processes interconnected by close apposition contacts and gap junctions. ICC-AP have many ultrastructural features in common with smooth muscle cells and fibroblasts, but can be identified because of a unique combination of ultrastructural features together with unique structural associations with nerves and smooth muscle cells. 4 -6 ICC harbor the c-Kit protein and can therefore be identified at the light microscopy level using immunohistochemistry with c-Kit antibodies. 2,7 In fact, almost all current studies on the pathology of ICC are performed by immunostaining. 8,9 By using both electron microscopy (EM) and immunohistochemistry we discovered in the present study that marked changes in ICC at the EM level, associated with previously observed functional changes, 10 did not lead to any changes at the light microscopy level using Kit immunohistochemistry.

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Changes in Interstitial Cells of Cajal at the Deep Muscular Plexus Are Associated with Loss of Distention-Induced Burst-Type Muscle Activity in Mice Infected by Trichinella spiralis

Wang

Vannucchi

Nieuwmeyer

et al. 2005

The American Journal of Pathology

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The physiology and pathophysiology of the network of interstitial cells of Cajal associated with the deep muscular plexus (ICC-DMP) of the small intestine are still poorly understood. The objectives of the present study were to evaluate the effects of inflammation associated with Trichinella spiralis infection on the ICC-DMP and to correlate loss of function with structural changes in these cells and associated structures. We used immunohistochemistry, electron microscopy, and assessment of distention-inducing electrophysiological parameters in vitro. Damage to ICC-DMP was associated with a loss of distention-induced patterns of electrical activity normally associated with distention-induced peristalsis. Consistently, the timing of recovery of ICC-DMP paralleled the timing of recovery of the distention-induced activity. Nerve varicosities associated with ICC-DMP including cholinergic nerves, assessed by immunoelectron microscopy and whole mount double labeling, paralleled injury to ICC-DMP thus contributing to impaired excitatory innervation of smooth muscle cells. Major additional changes included a remodeling of the inner circular muscle layer, which may affect long-term sensitivity to distention after infection. In conclusion, transient injury to ICC-DMP in response to T. spiralis infection is severe and associated with a complete lack of distention-induced burst-type muscle activity.

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Lack of pyloric interstitial cells of Cajal explains distinct peristaltic motor patterns in stomach and small intestine

Wang

Lammers²,

Berčík³

et al. 2005

American Journal of Physiology-Gastrointestinal and Liver Physi

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The frequency and propagation velocity of distension-induced peristaltic contractions in the antrum and duodenum are distinctly different and depend on activation of intrinsic excitatory motoneurons as well as pacemaker cells, the interstitial cells of Cajal associated with Auerbach's plexus (ICC-AP). Because ICC are critical for coordination of motor activities along the long axis of many regions in the gut, the role of ICC in antroduodenal coordination was investigated. We used immunohistochemistry, electron microscopy, simultaneous multiple electrical recordings in vitro, and videofluoroscopy in vivo in mice and rats. A strongly reduced number of ICC-AP with loss of network characteristics was observed in a 4-mm area in the rat and a 1-mm area in the mouse pyloric region. The pyloric region showed a slow wave-free gap of 4.1 mm in rats and 1.3 mm in mice. Between antrum and duodenum, there was no interaction of electrical activities and in the absence of gastric emptying, there was no coordination of motor activities. When the pyloric sphincter opened, 2.4 s before the front of the antral wave reached the pylorus, the duodenum distended after receiving gastric content and aboral duodenal peristalsis was initiated, often disrupting other motor patterns. The absence of ICC-AP and slow wave activity in the pyloric region allows the antrum and duodenum to have distinct uncoordinated motor activities. Coordination of aborally propagating peristaltic antral and duodenal activity is initiated by opening of the pylorus, which is followed by distention-induced duodenal peristalsis. Throughout this coordinated motor activity, the pacemaker systems in antrum and duodenum remain independent.

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Xuan-Yu Wang

Interstitial cells of Cajal mediate enteric inhibitory neurotransmission in the lower esophageal and pyloric sphincters

Azo-PROTAC: Novel Light-Controlled Small-Molecule Tool for Protein Knockdown

Pathology of Interstitial Cells of Cajal in Relation to Inflammation Revealed by Ultrastructure But Not Immunohistochemistry

Changes in Interstitial Cells of Cajal at the Deep Muscular Plexus Are Associated with Loss of Distention-Induced Burst-Type Muscle Activity in Mice Infected by Trichinella spiralis

Lack of pyloric interstitial cells of Cajal explains distinct peristaltic motor patterns in stomach and small intestine

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