Jin H. Chen scite author profile

The presence of methane on lactulose breath test among irritable bowel syndrome (IBS) subjects is highly associated with the constipation-predominant form. Therefore, we set out to determine whether methane gas can alter small intestinal motor function. In dogs, small intestinal fistulae were created to permit measurement of intestinal transit. Using a radiolabel, we evaluated transit during infusion of room air and subsequently methane. In this model, small intestinal infusion of methane produced a slowing of transit in all dogs by an average of 59%. In a second experiment, guinea pig ileum was pinned into an organ bath for the study of contractile activity in response to brush strokes applied to the mucosa. The force of contraction was measured both orad and aborad to the stimulus. The experiment was repeated while the bath was gassed with methane. Contractile activities orad and aborad to the stimulus were significantly augmented by methane compared with room air (P < 0.05). In a third experiment, humans with IBS who had undergone a small bowel motility study were compared such that subjects who produced methane on lactulose breath test were compared with those producing hydrogen. The motility index was significantly higher in methane-producing IBS patients (1,851 +/- 861) compared with hydrogen producers (1,199 +/- 301) (P < 0.05). Therefore, methane, a gaseous by-product of intestinal bacteria, slows small intestinal transit and appears to do so by augmenting small bowel contractile activity.

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Molecular pathways that influence human tau-induced pathology in Caenorhabditis elegans

Kraemer¹,

Burgess²,

Chen³

et al. 2006

135

108

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Mutations in the gene encoding tau cause frontotemporal dementia with parkinsonism--chromosome 17 type (FTDP-17). In FTDP-17, Alzheimer's disease, and other tauopathies, aggregated hyper-phosphorylated tau forms the neurofibrillary tangles characteristic of these disorders. We previously reported a Caenorhabditis elegans model for tauopathies using human normal and FTDP-17 mutant tau as transgenes. Neuronal transgene expression caused insoluble phosphorylated tau accumulation, neurodegeneration and uncoordinated (Unc) movement. Here we describe a genome-wide RNA-mediated interference (RNAi) screen for genes that modify the tau-induced Unc phenotype. We tested RNAi sequences for 16,757 genes and found 75 that enhanced the transgene-induced Unc phenotype. Forty-six of these genes have sequence similarity to known human genes and fall into a number of broad classes including kinases, chaperones, proteases and phosphatases. The remaining 29 modifiers have sequence similarity only with other nematode genes. To determine if the enhancers are specific for the tau-induced Unc behavior, we exposed several non-tau Unc mutants to tau RNAi enhancer clones. Fifteen enhancers modified phenotypes in multiple Unc mutants, whereas 60 modified only the Unc phenotype in the tau transgenic lines. We also introduced the tau transgene into the background of genetic loss-of-function mutations for a subset of the enhancer genes. Tau transgenic animals homozygous for loss of these enhancer genes exhibited increased impaired motility relative to the tau transgene line alone. This work uncovers novel candidate genes that prevent tau toxicity, as well as genes previously implicated in tau-mediated neurodegeneration.

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Levator avulsion using a tomographic ultrasound and magnetic resonance–based model

Zhuang

Song

Chen

et al. 2011

American Journal of Obstetrics and Gynecology

100

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Slowing of intestinal transit by fat depends on an adrenergic pathway acting on β1-but not α-adrenoreceptors

Lin¹,

Chen²,

Neevel³

2003

Gastroenterology

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Jin H. Chen

Methane, a gas produced by enteric bacteria, slows intestinal transit and augments small intestinal contractile activity

Molecular pathways that influence human tau-induced pathology in Caenorhabditis elegans

Levator avulsion using a tomographic ultrasound and magnetic resonance–based model

Slowing of intestinal transit by fat depends on an adrenergic pathway acting on β1-but not α-adrenoreceptors

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