The response of intestinal stem cells and epithelium after alemtuzumab administration

Li, Qiurong; Zhang, Qiang; Wang, Chenyang; Jiang, Shaojun; Li, Ning; Li, Jieshou

doi:10.1038/cmi.2011.10

Cited by 6 publications

(4 citation statements)

References 25 publications

(30 reference statements)

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“…Evidence stemming from a cynomolgus monkey model indicated that the intestinal barrier may be disrupted during alemtuzumab treatment [106]. In macaques monkeys, a single dose of alemtuzumab resulted in (i) intestinal epithelial cell loss, (ii) increased apoptosis in the villi, and (iii) an abnormal Paneth cell morphology [107]. Mouse anti-CD52 mAb also resulted in increased numbers of IELs undergoing apoptosis and disrupted intestinal barrier function in mice [108].…”

Section: Alemtuzumabmentioning

confidence: 99%

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

et al. 2020

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An increase of multiple sclerosis (MS) incidence has been reported during the last decade, and this may be connected to environmental factors. This review article aims to encapsulate the current advances targeting the study of the gut–brain axis, which mediates the communication between the central nervous system and the gut microbiome. Clinical data arising from many research studies, which have assessed the effects of administered disease-modifying treatments in MS patients to the gut microbiome, are also recapitulated.

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Section: Alemtuzumabmentioning

confidence: 99%

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

et al. 2020

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“…Gut I/R can induce a significant reduction in T-cell numbers and variations in lymphocyte phenotypes in intestinal mucosa, leading to enteric bacterial translocation and development of septic complications (144, 145). Depletion of intestinal mucosal lymphocytes induced by Campath-1H could cause dysbiosis of gut microbiota (128, 146, 147) and disruption of intestinal epithelial barriers (148, 149). Similar to the observations, severe impairment of gut barrier integrity was also seen in intestinal transplanted patients receiving Campath-1H administration (150, 151), which might be a major reason for high incidence of infectious complications after small bowel transplantation.…”

Section: Microbiota-immune Interaction and Gut-derived Infectionmentioning

confidence: 99%

Microbiota-Immune Interaction in the Pathogenesis of Gut-Derived Infection

2019

Self Cite

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Gut-derived infection is among the most common complications in patients who underwent severe trauma, serious burn, major surgery, hemorrhagic shock or severe acute pancreatitis (SAP). It could cause sepsis and multiple organ dysfunction syndrome (MODS), which are regarded as a leading cause of mortality in these cases. Gut-derived infection is commonly caused by pathological translocation of intestinal bacteria or endotoxins, resulting from the dysfunction of the gut barrier. In the last decades, the studies regarding to the pathogenesis of gut-derived infection mainly focused on the breakdown of intestinal epithelial tight junction and increased permeability. Limited information is available on the roles of intestinal microbial barrier in the development of gut-derived infection. Recently, advances of next-generation DNA sequencing techniques and its utilization has revolutionized the gut microecology, leading to novel views into the composition of the intestinal microbiota and its connections with multiple diseases. Here, we reviewed the recent progress in the research field of intestinal barrier disruption and gut-derived infection, mainly through the perspectives of the dysbiosis of intestinal microbiota and its interaction with intestinal mucosal immune cells. This review presents novel insights into how the gut microbiota collaborates with mucosal immune cells to involve the development of pathological bacterial translocation. The data might have important implication to better understand the mechanism underlying pathological bacterial translocation, contributing us to develop new strategies for prevention and treatment of gut-derived sepsis.

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“…The transformation of leucine-rich repeat-containing G protein-coupled Receptor 5 (Lgr5 + ) stem cells drives intestinal neoplasia in the Apc flox/flox mouse model, indicating that Lgr5 + crypt stem cells are the cell-of-origin of cancer (1). Colon cancer has been suggested to follow a cancer stem cell (CSC) hierarchical model (2,3). Although cycling Lgr5 + stem cells fuel the rapid turnover of the adult intestinal epithelium (4,5), and its properties are not shared by other crypt cells (6,7), the role of Lgr5 + cells in colorectal cancer pathogenesis has not been well investigated.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it is important to identify the properties of Lgr5 + cells at the initiation stage of colon tumorigenesis because transformation of Lgr5 + stem cells is an extremely efficient route towards initiating intestinal cancer (1). Recently, DNA damage responses in Lgr5 + cells have been reported (2,8,9), however, to date, colonic Lgr5 + cytokinetics have not been examined in the context of an alkylating agent induced-DNA damage model of colorectal cancer.…”

Section: Introductionmentioning

confidence: 99%

Homeostatic responses of colonic LGR5⁺stem cells following acutein vivoexposure to a genotoxic carcinogen

Kim

Davidson

Zoh³

et al. 2015

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Perturbations in DNA damage, DNA repair, apoptosis and cell proliferation in the base of the crypt where stem cells reside are associated with colorectal cancer (CRC) initiation and progression. Although the transformation of leucine-rich repeat-containing G protein-coupled receptor 5 (Lgr5)(+) cells is an extremely efficient route towards initiating small intestinal adenomas, the role of Lgr5(+) cells in CRC pathogenesis has not been well investigated. Therefore, we further characterized the properties of colonic Lgr5(+) cells compared to differentiated cells in Lgr5-EGFP-IRES-creER(T2) knock-in mice at the initiation stage of carcinogen azoxymethane (AOM)-induced tumorigenesis using a quantitative immunofluorescence microscopy approach. At 12 and 24h post-AOM treatment, colonic Lgr5(+) stem cells (GFP(high)) were preferentially damaged by carcinogen, exhibiting a 4.7-fold induction of apoptosis compared to differentiated (GFP(neg)) cells. Furthermore, with respect to DNA repair, O(6)-methylguanine DNA methyltransferase (MGMT) expression was preferentially induced (by 18.5-fold) in GFP(high) cells at 24h post-AOM treatment compared to GFP(neg) differentiated cells. This corresponded with a 4.3-fold increase in cell proliferation in GFP(high) cells. These data suggest that Lgr5(+) stem cells uniquely respond to alkylation-induced DNA damage by upregulating DNA damage repair, apoptosis and cell proliferation compared to differentiated cells in order to maintain genomic integrity. These findings highlight the mechanisms by which colonic Lgr5(+) stem cells respond to cancer-causing environmental factors.

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The response of intestinal stem cells and epithelium after alemtuzumab administration

Cited by 6 publications

References 25 publications

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

Microbiota-Immune Interaction in the Pathogenesis of Gut-Derived Infection

Homeostatic responses of colonic LGR5⁺stem cells following acutein vivoexposure to a genotoxic carcinogen

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The response of intestinal stem cells and epithelium after alemtuzumab administration

Cited by 6 publications

References 25 publications

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

Microbiome in Multiple Sclerosis: Where Are We, What We Know and Do Not Know

Microbiota-Immune Interaction in the Pathogenesis of Gut-Derived Infection

Homeostatic responses of colonic LGR5+stem cells following acutein vivoexposure to a genotoxic carcinogen

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Product

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Homeostatic responses of colonic LGR5⁺stem cells following acutein vivoexposure to a genotoxic carcinogen