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Key Documents

SBR00027

Sigma-Aldrich

Lipopolysaccharides from Akkermansia muciniphila

Purified by phenol extraction

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About This Item

UNSPSC Code:
12352201
NACRES:
NA.25

biological source

(Akkermansia muciniphila)

Quality Level

form

lyophilized powder

color

white to faint yellow

solubility

water: 1 mg/mL, faintly hazy to hazy, colorless to light yellow

storage temp.

2-8°C

General description

Akkermansia muciniphila (A. muciniphila) is a Gram-negative, anaerobic, non-motile, non-spore-forming, and oval-shaped bacterium. A. muciniphila inhabits the gastrointestinal tracts of more than 90% of adults and constitutes 1-4% of the fecal microbiota. A. muciniphila levels were suggested to serve as a biomarker for a healthy intestine.
Lipopolysaccharides (LPS) are complex molecules composed of lipids and polysaccharides that are predominantly found in the outer membrane of Gram-negative bacteria. They consist of three main components: lipid A, the core oligosaccharide (core), and the O-specific polysaccharide or O antigen (OAg). Lipid A is firmly linked to the outer bacterial membrane and is primarily responsible for the toxicity associated with LPS. LPS serves as a potent activator of the proinflammatory response in various types of mammalian cells, including macrophages, monocytes, and endothelial cells. Beyond its protective role for Gram-negative bacteria against environmental stress, LPS is also recognized by the innate immune system during infection.

Application

Lipopolysaccharides may have been used as a cell culture treatment:
  • to impair barrier functions of Caco-2 cell monolayers tight junction
  • cocultured along with A. muciniphila to study its effects on the NLR family pyrin domain containing 3 (NLRP3) expressions in Raw264.7 cells
  • to activate HepG2 cells as an endotoxin together with palmitic acid (PA)

Biochem/physiol Actions

LPS and its lipid A moiety stimulate cells of the innate immune system by the Toll-like receptor 4 (TLR4), a member of the Toll-like receptor protein family, which recognizes common pathogen-associated molecular patterns (PAMPs).,
A. muciniphila degrades mucus and utilizes it as a carbon/nitrogen source. Consequently, the host produces additional mucus while the bacterium produces oligosaccharides and Short Chain Fatty Acids (SCFAs) that can be utilized by the host and trigger the immune system. An additional protective effect of the SCFA is stimulation of mucus-associated microbiota growth, that serves as a barrier against penetration of pathogens to intestinal cells.,
A. muciniphila was crowned as the next-generation beneficial microbe. Several reports have indicated that A. muciniphila affects glucose metabolism, lipid metabolism, and intestinal immunity. In addition, decreasing levels of A. muciniphila are related to the development of some diseases such as metabolic disorders and inflammatory diseases (obesity, type 2 diabetes, inflammatory bowel disease (IBD), autism and atopy. Weir et al. found a correlation between low level of A. muciniphila and colorectal cancer. Shigemetzu Y et al. found that A. muciniphila acts as a regulator of the response to PD-1 blockade which is used for anti-cancer immunotherapy. A. muciniphila induce dendritic cells to secrete IL-12, that is a critical component of the anti-cancer effect of PD-1 blockade.
LPSs from A. muciniphila stimulate NF-κB dependent secreted embryonic cell alkaline phosphatase (SEAP) production via TLR4. In addition, it induces IL-8, IL-6 and minimal amounts of IL-10 and TNF-α in peripheral blood mononuclear cells (PBMCs). A. muciniphila stimulation of IL-8 production by enterocytes was shown to be significantly (100 fold) lower than E. coli stimulation. Low proinflammatory activity keep the mucosa-associated immune system alerted at an appropriate level for generation of mucosal homeostasis.

Other Notes

For additional information on our range of Biochemicals, please complete this form.
To gain a comprehensive understanding of our extensive range of Lipopolysaccharides for your research, we encourage you to visit our Carbohydrates Category page.

pictograms

Skull and crossbones

signalword

Danger

hcodes

Hazard Classifications

Acute Tox. 2 Oral

Storage Class

6.1A - Combustible acute toxic Cat. 1 and 2 / very toxic hazardous materials

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable


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Visite la Librería de documentos

Akkermansia muciniphila in the Human Gastrointestinal Tract: When, Where, and How?
Geerlings SY, Kostopoulos I, de Vos WM, Belzer C.
Microorganisms, 6(3), 75-75 (2018)
Analysis of Lipopolysaccharides of Gram-Negative Bacteria.
Mayer H, Tharanathan RN, Weckesser J.
Methods in Microbiology, 18, 157-207 (1985)
Mucolytic bacteria with increased prevalence in IBD mucosaaugment in vitro utilization of mucin by other bacteria.
Png CW, Linden SK, Gilshenan KS, Zoetendal EG, McSweeney CS, Sly LI, McGuckin MA, Florin TH.
The American Journal of Gastroenterology, 105(11), 2420-2428 (2010)
Microbes inside?from diversity to function: the case of Akkermansia.
Blezer C and DE Vos WM.
The ISME Journal, 6(8), 1449-1458 (2012)
Gut microbiome: a key player in cancer immunotherapy.
Shigematzu Y et al,
Hepatobiliary surgery and nutrition, 7(6) (2018)

Artículos

Explore the structure, function, and diverse applications of Lipopolysaccharides. Discover their role in bacteria, serological specificity, and research potential.

Explore the structure, function, and diverse applications of Lipopolysaccharides. Discover their role in bacteria, serological specificity, and research potential.

Explore the structure, function, and diverse applications of Lipopolysaccharides. Discover their role in bacteria, serological specificity, and research potential.

Explore the structure, function, and diverse applications of Lipopolysaccharides. Discover their role in bacteria, serological specificity, and research potential.

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