The phenylalanine-tyrosine-dopa-dopamine pathway provides dopamine to the brain.Iin this process,tyrosine hydroxylase(TH)isthe rate-limiting enzyme that hydroxylates tyrosine and generates levodopa(L-dopa)with tetrany...The phenylalanine-tyrosine-dopa-dopamine pathway provides dopamine to the brain.Iin this process,tyrosine hydroxylase(TH)isthe rate-limiting enzyme that hydroxylates tyrosine and generates levodopa(L-dopa)with tetranydrobiopterin(BH_(4))as a coenzyme.Here,we show that oral berberine(BBR)might supply H^(·) through dihydroberberine(reduced BBR produced by bacterial nitroreductase)and promote the production of BHl from dihydrobiopterin;the increased BH,enhances TH activity,which accelerates the production of L-dopa by the gut bacteria.Oral BBR acts in a way similar to vitamins.The L-dopa produced by theintestinal bacteria enters the brain through the circulation and is transformed to dopamine.To verify the gut-brain dialog activatedby BBR's effect,Enterococcus foecalis or Enterococcus faecium was transplanted into Parkinson's disease(PD)mice.The bacteriasignificantly increased brain dopamine and ameliorated PD manifestation in mice;additionally,combination of BBR with bacteriashowed better therapeutic effect than that with bacteria alone.Moreover,2,4,6-trimethy-pyranylium tetrafluoroborate(TMP-TFB)-derivatized matrix-assisted laser desorption mass spectrometry(MALDI-MS)imaging of dopamine identihed elevated striataldopamine levels in mouse brains with oral Enterococcus,and BBR strengthened the imaging intensity of brain dopamine.Theseresults demonstrated that BBR was an agonist of TH in Enterococcus and could lead to the production of L-dopa in the gut.Furthermore,a study of 28 patients with hyperlipidemia conhrmed that oral BBR increased bloodfecal L-dopa by the intestinalbacteria.Hence,BBR might improve the brain function by upregulating the biosynthesis of-dopa in the gut microbiota through avitamin-like effect.展开更多
The drug metabolism in gut microbiota draws increasing attentions. After interacting with the gut bacteria, the biological effects of drugs might be altered, leading to toxicity or detoxification, production of potent...The drug metabolism in gut microbiota draws increasing attentions. After interacting with the gut bacteria, the biological effects of drugs might be altered, leading to toxicity or detoxification, production of potential bioactivities, regulating intestinal absorption, etc. In this review, we will focus on the metabolism of Chinese materia medica(CMM) in mammal gut microbiota and its biological effects to learn the interaction between gut bacteria and drugs through oral route in CMM.展开更多
基金supported by CAMS Innovation Fund for Medical Sciences(CIFMSNo.2016-I2M-3-011)+3 种基金the National Natural Science Foundation of China(Nos.81573493 and 81973290)Beijing Key Laboratory of Non-Clinical Drug Metabolism and PK/PD study(Z141102004414062)the Key Project of Beijing Natural Science Foundation(No.7181007)National Mega-project for Innovative Drugs and the National Megaproject for Innovative Drugs(No.2018ZX09711001-002-002).
文摘The phenylalanine-tyrosine-dopa-dopamine pathway provides dopamine to the brain.Iin this process,tyrosine hydroxylase(TH)isthe rate-limiting enzyme that hydroxylates tyrosine and generates levodopa(L-dopa)with tetranydrobiopterin(BH_(4))as a coenzyme.Here,we show that oral berberine(BBR)might supply H^(·) through dihydroberberine(reduced BBR produced by bacterial nitroreductase)and promote the production of BHl from dihydrobiopterin;the increased BH,enhances TH activity,which accelerates the production of L-dopa by the gut bacteria.Oral BBR acts in a way similar to vitamins.The L-dopa produced by theintestinal bacteria enters the brain through the circulation and is transformed to dopamine.To verify the gut-brain dialog activatedby BBR's effect,Enterococcus foecalis or Enterococcus faecium was transplanted into Parkinson's disease(PD)mice.The bacteriasignificantly increased brain dopamine and ameliorated PD manifestation in mice;additionally,combination of BBR with bacteriashowed better therapeutic effect than that with bacteria alone.Moreover,2,4,6-trimethy-pyranylium tetrafluoroborate(TMP-TFB)-derivatized matrix-assisted laser desorption mass spectrometry(MALDI-MS)imaging of dopamine identihed elevated striataldopamine levels in mouse brains with oral Enterococcus,and BBR strengthened the imaging intensity of brain dopamine.Theseresults demonstrated that BBR was an agonist of TH in Enterococcus and could lead to the production of L-dopa in the gut.Furthermore,a study of 28 patients with hyperlipidemia conhrmed that oral BBR increased bloodfecal L-dopa by the intestinalbacteria.Hence,BBR might improve the brain function by upregulating the biosynthesis of-dopa in the gut microbiota through avitamin-like effect.
基金National Mega-project for Innovative Drugs(2012ZX09301002)Beijing Key Laboratory of Non-Clinical Drug Metabolism and PK/PD Study(Z141102004414062)National 863 Program of China(no.2014AA020803)
文摘The drug metabolism in gut microbiota draws increasing attentions. After interacting with the gut bacteria, the biological effects of drugs might be altered, leading to toxicity or detoxification, production of potential bioactivities, regulating intestinal absorption, etc. In this review, we will focus on the metabolism of Chinese materia medica(CMM) in mammal gut microbiota and its biological effects to learn the interaction between gut bacteria and drugs through oral route in CMM.
