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BDE No 99
本产品不向个人销售,仅用作科学研究,不用于任何人体实验及非科研性质的动物实验。
BDE No 99图片
规格:98%
分子量:564.69
包装与价格:
包装价格(元)
10mg电议
50mg电议

产品介绍
BDE No 99 is the predominant Polybrominated diphenyl ethers(PBDE) congeners detected in human fluid and fatty diet.
货号:ajcx11548
CAS:60348-60-9
分子式:C12H5Br5O
分子量:564.69
溶解度:50 μg/mL in isooctane
纯度:98%
存储:Store at -20°C
库存:现货

Background:

BDE No 99 is the predominant Polybrominated diphenyl ethers(PBDE) congeners detected in human fluid and fatty diet. PBDEs are persistent and bio-accumulative in the environment.[1].

BDE No 99 reduced human and murine oligodendrocyte lineage (O4+) cell formation in a concentration-dependent manner (IC50 1.9?μM and 13.6?μM, respectively and IC20 0.9?μM and 6.9?μM, respectively) with human NPCs being 7-times more sensitive towards BDE No 99 exposure than their murine counterparts. BDE No 99 reduced generation of human and mouse O4+ cells, but there is no indication for BDE No 99 interfering with cellular TH signaling during O4+ cell formation. BDE No 99 reduced hMBP expression due to oligodendrocyte reduction, but concentrations that did not affect the number of mouse O4+ cells inhibited TH-induced mMog transcription by a yet unknown mechanism[2]

BDE No 99 increased unconjugated bile acids(BAs) in the serum, liver, small large intestinal contents(SIC) and large intestinal contents(LIC) of conventional mice. BDE No 99 profoundly decreased the alpha diversity of gut microbiome and differentially regulated 45 bacterial species. BDE No 99 downregulated enzymes and transporters involved in BA metabolism, in a gut microbiome-dependent manner[3]

参考文献:
[1]. Frederiksen M, Vorkamp K, et al. Human internal and external exposure to PBDEs--a review of levels and sources. Int J Hyg Environ Health. 2009 Mar;212(2):109-34.
[2]. Dach K, Bendt F, et al. BDE-99 impairs differentiation of human and mouse NPCs into the oligodendroglial lineage by species-specific modes of action. Sci Rep. 2017 Mar 20;7:44861.
[3]. Li CY, Dempsey JL, et al. PBDEs Altered Gut Microbiome and Bile Acid Homeostasis in Male C57BL/6 Mice. Drug Metab Dispos. 2018 Aug;46(8):1226-1240.

Protocol:

Cell experiment [1]:

Cell lines

Human and mouse neural progenitor cells

Preparation Method

Human mouse neural progenitor cells (NPCs) were differentiated with DMSO or increasing concentrations of BDE No 99 for 5 days. oligodendrocyte lineage cells were immunocytochemically stained with an antibody against O4 and nuclei were counterstained with Hoechst 33258. Viability was measured with the Alamar-Blue assay two hours prior fixation.

Reaction Conditions

0.01 - 20μM BDE No 99 for 5 days.

Applications

BDE No 99 reduces NPC differentiation to the oligodendrocyte (O4+ cells) lineage. BDE No 99 reduced human and murine O4+ cell formation in a concentration-dependent manner with human NPCs being 7-times more sensitive towards BDE No 99 exposure than their murine counterparts.

Animal experiment [2]:

Animal models

C57BL/6J conventional(CV) mice, C57BL/6J germ-free (GN) mice

Preparation Method

CV and GN mice were randomly allocated for the treatment of vehicle (corn oil, 10 ml/kg), or BDE No 99 via oral gavage once daily for 4 days. Livers were collected 24 hours after the last dosing on the fifth day and immediately frozen in liquid nitrogen. The mRNAs of phase-I drug-metabolizing enzymes Cyp1a2 , Cyp2b10, and Cyp3a11 were quantified in livers of CV mice using RT-qPCR.

Dosage form

10, 100 μmol/kg BDE No 99, oral gavage

Applications

Many Cyp2 family members (such as Cyp2a5, Cyp2b10, Cyp2c37, Cyp2c50, Cyp2c54, and Cyp2c55) are upregulated by BDE No 99 in livers of both CV and GF mice, with a much greater fold change observed in GF conditions.

参考文献:

[1]. Dach K, Bendt F, et al. BDE-99 impairs differentiation of human and mouse NPCs into the oligodendroglial lineage by species-specific modes of action. Sci Rep. 2017 Mar 20;7:44861.

[2]. Li CY, Lee S, et al. Novel Interactions between Gut Microbiome and Host Drug-Processing Genes Modify the Hepatic Metabolism of the Environmental Chemicals Polybrominated Diphenyl Ethers. Drug Metab Dispos. 2017 Nov;45(11):1197-1214.