Genetically engineered E. coli Nissle attenuates hyperammonemia and prevents memory impairment in bile‐duct ligated rats

Ochoa‐Sanchez, Rafael; Oliveira, Mariana M.; Tremblay, Mélanie; Petrazzo, Grégory; Pant, Asha; Bosoi, Cristina R.; Perreault, Mylene; Querbes, William; Kurtz, Caroline B.; Rose, Christopher

doi:10.1111/liv.14815

dc.contributor.author	Ochoa‐Sanchez, Rafael
dc.contributor.author	Oliveira, Mariana M.
dc.contributor.author	Tremblay, Mélanie
dc.contributor.author	Petrazzo, Grégory
dc.contributor.author	Pant, Asha
dc.contributor.author	Bosoi, Cristina R.
dc.contributor.author	Perreault, Mylene
dc.contributor.author	Querbes, William
dc.contributor.author	Kurtz, Caroline B.
dc.contributor.author	Rose, Christopher
dc.date.accessioned	2021-02-11T15:03:57Z
dc.date.available	MONTHS_WITHHELD:12	fr
dc.date.available	2021-02-11T15:03:57Z
dc.date.issued	2021-02-06
dc.identifier.uri	http://hdl.handle.net/1866/24783
dc.publisher	Wiley	fr
dc.subject	Ammonia	fr
dc.subject	Arginine	fr
dc.subject	Bile‐duct ligature	fr
dc.subject	Butyrate	fr
dc.subject	Cirrhosis	fr
dc.subject	E. coli Nissle	fr
dc.subject	Hepatic encephalopathy	fr
dc.subject	Inflammation	fr
dc.subject	Memory	fr
dc.subject	Probiotics	fr
dc.title	Genetically engineered E. coli Nissle attenuates hyperammonemia and prevents memory impairment in bile‐duct ligated rats	fr
dc.type	Article	fr
dc.contributor.affiliation	Université de Montréal. Faculté de médecine. Département de médecine	fr
dc.identifier.doi	10.1111/liv.14815
dcterms.abstract	Hyperammonemia associated with chronic liver disease (CLD) is implicated in the pathogenesis of hepatic encephalopathy (HE). The gut is a major source of ammonia production that contributes to hyperammonemia in CLD and HE and remains the primary therapeutic target for lowering hyperammonemia. As an ammonia‐lowering strategy, Escherichia coli Nissle 1917 bacterium was genetically modified to consume and convert ammonia to arginine (S‐ARG). S‐ARG was further modified to additionally synthesize butyrate (S‐ARG+BUT). Both strains were evaluated in bile‐duct ligated (BDL) rats; experimental model of CLD and HE. Methods One‐week post‐surgery, BDLs received non‐modified EcN (EcN), S‐ARG, S‐ARG+BUT (3x1011 CFU/day) or vehicle until sacrifice at 3‐ or 5‐weeks. Plasma (ammonia/pro‐inflammatory/liver‐function), liver fibrosis (hydroxyproline), liver mRNA (pro‐inflammatory/fibrogenic/anti‐apoptotic) and colon mRNA (pro‐inflammatory) biomarkers were measured post‐sacrifice. Memory, motor‐coordination, muscle‐strength, and locomotion were assessed at 5‐weeks. Results In BDL‐Veh rats, hyperammonemia developed at 3‐ and further increased at 5‐weeks. This rise was prevented by S‐ARG and S‐ARG+BUT, whereas EcN was ineffective. Memory impairment was prevented only in S‐ARG+BUT vs BDL‐Veh. Systemic inflammation (IL‐10/MCP‐1/endotoxin) increased at 3‐ and 5‐weeks in BDL‐Veh. S‐ARG+BUT attenuated inflammation at both timepoints (except 5‐week endotoxin) vs BDL‐Veh, whereas S‐ARG only attenuated IP‐10 and MCP‐1 at 3‐weeks. Circulating (ALT/AST/ALP/GGT/albumin/bilirubin) and gene expression liver‐function markers (IL‐10/IL‐6/IL‐1β/TGF‐β/α‐SMA/collagen‐1α1/Bcl‐2) were not normalized by either strain. Colonic mRNA (TNF‐α/IL‐1β/occludin) markers were attenuated by synthetic strains at both timepoints vs BDL‐Veh. Conclusion S‐ARG and S‐ARG+BUT attenuated hyperammonemia, with S‐ARG+BUT additional memory protection likely due to greater anti‐inflammatory effect. These innovative strategies, particularly S‐ARG+BUT, have potential to prevent HE.	fr
dcterms.isPartOf	urn:ISSN:1478-3223	fr
dcterms.isPartOf	urn:ISSN:1478-3231	fr
dcterms.language	eng	fr
UdeM.ReferenceFournieParDeposant	10.1111/liv.14815	fr
UdeM.VersionRioxx	Version acceptée / Accepted Manuscript	fr
oaire.citationTitle	Liver international	fr

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