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Query: UMLS:C0018133 (
graft-versus-host disease
)
18,032
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nucleotide oligomerisation domain 2 (NOD2) mutations are associated with susceptibility to Crohn's disease and
graft-versus-host disease
, two human disorders related with dysfunctions of Peyer's patches (PPs). In Nod2(-/-) mice transcellular permeability and bacterial translocation are increased in PPs. In this study, we show that both anti-CD4(+) and anti-interferon gamma (anti-IFNgamma) monoclonal antibodies abrogate this phenotype and reduce the expression of tumour necrosis factor (TNF) receptor 2 and the long isoform of
myosin light chain kinase
, thus demonstrating that immune T cells influence the epithelial functions. In turn, intraperitoneal injection of ML-7 (a
myosin light chain kinase
inhibitor) normalises the values of CD4(+) T cells, IFNgamma and TNFalpha. This reciprocal cross-talk is under the control of the gut microflora as shown by the normalisation of all parameters after antibiotic treatment. Toll-like receptor 2 (TLR2) and TLR4 expression were increased in Nod2(-/-) mice under basal conditions and TLR2 and TLR4 agonists induced an increased transcellular permeability in Nod2(+/+) mice. Muramyldipeptide (a Nod2 agonist) or ML-7 was able to reverse this phenomenon. It thus appears that Nod2 modulates the cross-talk between CD4(+) T cells and the epithelium recovering PP and that it downregulates the pro-inflammatory effect driven by the ileal microflora, likely by inhibiting the TLR pathways.
...
PMID:Nod2 regulates the host response towards microflora by modulating T cell function and epithelial permeability in mouse Peyer's patches. 2017 38
Graft-versus-host disease
(
GVHD
) is a complication of hematopoietic stem cell transplantation (HSCT) that affects multiple organs.
GVHD
-associated intestinal damage can be separated into two distinct phases, initiation and propagation, which correspond to conditioning-induced damage and effector T cell activation and infiltration, respectively. Substantial evidence indicates that intestinal damage induced by pretransplant conditioning is a key driver of
GVHD
initiation. Here, we aimed to determine the impact of dysregulated intestinal permeability on the subsequent
GVHD
propagation phase. The initiation phase of
GVHD
was unchanged in mice lacking long
MLCK
(MLCK210), an established regulator of epithelial tight junction permeability. However, MLCK210-deficient mice were protected from sustained barrier loss and exhibited limited
GVHD
propagation, as indicated by reduced histopathology, fewer CD8+ effector T cells in the gut, and improved overall survival. Consistent with these findings, intestinal epithelial MLCK210 expression and enzymatic activity were similarly increased in human and mouse
GVHD
biopsies. Intestinal epithelial barrier loss mediated by MLCK210 is therefore a key driver of the
GVHD
propagation. These data suggest that inhibition of MLCK210-dependent barrier regulation may be an effective approach to limiting
GVHD
progression.
...
PMID:Graft-versus-host disease propagation depends on increased intestinal epithelial tight junction permeability. 3066 72
Graft versus host disease
(
GVHD
) is a post-transplant pathology in which donor-derived T cells present in the Peyer's patches target the cell-surface alloantigens of the recipient, causing host tissue damages. Therefore, the
GVHD
has long been considered only a purely immunological process whose prevention requires an immunosuppressive treatment. However, since the early 2010s, the impact of gut microbiota on
GVHD
has received increased attention. Both a surprising fall in gut microbiota diversity and a shift toward Enterobacteriaceae were described in this disease. Recently, unexpected results were reported that further link
GVHD
with changes in bacterial composition in the gut and disruption of intestinal epithelial tight junctions leading to abnormal intestinal barrier permeability. Patients receiving allogenic hematopoietic stem cell transplant (allo-HCT) as treatment of hematologic malignancies showed a decrease of the overall diversity of the gut microbiota that affects
Clostridia
and
Blautia
spp. and a predominance of lactic acid bacteria (LAB) of the
Enterococcus
genus, in particular the lactose auxotroph
Enterococcus faecium
. The reduced microbiota diversity (likely including Actinobacteria, such as
Bifidobacterium adolescentis
that cross feed butyrogenic bacteria) deprives the butyrogenic bacteria (such as
Roseburia intestinalis
or
Eubacterium
) of their capacity to metabolize acetate to butyrate. Indeed, administration of butyrate protects against the
GVHD
. Here, we review the data highlighting the possible link between
GVHD
and lactase defect, accumulation of lactose in the gut lumen, reduction of Reg3 antimicrobial peptides, narrower enzyme equipment of bacteria that predominate post-transplant, proliferation of
En. faecium
that use lactose as metabolic fuels, induction of innate and adaptive immune response against these bacteria which maintains an inflammatory process, elevated expression of
myosin light chain kinase
210 (MLCK210) and subsequent disruption of intestinal barrier, and translocation of microbial products (lactate) or transmigration of LAB within the liver. The analysis of data from the literature confirms that the gut microbiota plays a major role in the
GVHD
. Moreover, the most recent publications uncover that the LAB, butyrogenic bacteria and bacterial cross feeding were the missing pieces in the puzzle. This opens new bacteria-based strategies in the treatment of
GVHD
.
...
PMID:The Butyrogenic and Lactic Bacteria of the Gut Microbiota Determine the Outcome of Allogenic Hematopoietic Cell Transplant. 3279 50
