The role of gut-derived molecules on immune cells in the brain is unknown. A new paper via @nature describes how the microglia communicates on a molecular level to influence CNS inflammation, and shows that this interaction is controlled by gut microbes ht
#Microglia-derived TNF-a & VEGF-B regulates #astrocyte activity. TNF-a limits the experimental #AutoimmuneEncephalomyelitis (EAE) development in mice whereas VEGF-B worsens EAE symptoms. Study published @nature #MultipleSclerosis #neurodegeneration #CN
Interesting story for interaction between microglia and astrocytes in CNS https://t.co/FPtYXEHMJU
RT @broadinstitute: Microglial control of astrocytes in response to microbial metabolites https://t.co/n94bpGxGoc via @nature
Microglial control of astrocytes in response to microbial metabolites https://t.co/n94bpGxGoc via @nature
RT @knicol15: In the last few yrs, huge strides in understanding the gut-brain axis have been made! These discoveries lay a foundation for…
RT @joshreedhealth: Gut microbiome and neurodegenerative disease. An association made. https://t.co/4Q18HzcSeN
Gut microbiome and neurodegenerative disease. An association made. https://t.co/4Q18HzcSeN
Microglial control of astrocytes in response to microbial metabolites. https://t.co/xejysp7xQ1
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @drcameronjones: Microglial control of astrocytes in response to microbial metabolites | Nature https://t.co/DZiRyYz7hu
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
Microglial control of astrocytes in response to microbial metabolites | Nature https://t.co/DZiRyYz7hu
It is becoming clear that our gut bacteria are a critical component of neurodegenerative diseases. Take care of your gut bacteria and they will take care of you. We are not alone. #symbiosis #probiotics #prebiotics https://t.co/l8at6PMYxu
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
Gut microbes influence neurologic diseases: Scientists plan to optimise small molecules as well as probiotics that participate in new therapies for neurodegenerative diseases ( Parkinson's disease , Alzheimer's disease etc..) https://t.co/JFAvgjFUmD h
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @TKTLam: Microglial control of astrocytes in response to microbial metabolites https://t.co/0NC66wILgc
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
Researchers uncover gut bacteria's potential role in multiple sclerosis. https://t.co/VQUzTV9Yhh https://t.co/7mN6tksGv4
RT @LiddelowSA: Exciting new paper from the Quintana lab from @harvardmed and @broadinstitute on microglia-astrocyte crosstalk in neuroinfl…
Very interesting. https://t.co/OJYjIKp1Xf
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @kadzuis: May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial…
RT @LiddelowSA: Exciting new paper from the Quintana lab from @harvardmed and @broadinstitute on microglia-astrocyte crosstalk in neuroinfl…
RT @kadzuis: May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial…
RT @LiddelowSA: Exciting new paper from the Quintana lab from @harvardmed and @broadinstitute on microglia-astrocyte crosstalk in neuroinfl…
what was proposed in the @LiddelowSA and Prof Barres paper, about a signal from the microglia to the astrocytes, turning them into a proinflammatory state (A1), is a quite clear mechanism with the data from the new paper from the Quintana lab. https://t.co
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @LiddelowSA: Exciting new paper from the Quintana lab from @harvardmed and @broadinstitute on microglia-astrocyte crosstalk in neuroinfl…
RT @kadzuis: May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @StoroniMithu: Dietary tryptophan broken down by gut bacteria into products that modulate brain inflammation (in mouse model of MS) http…
@NIMHDirector . This is where @NIMH needs 2 invest ASD research $ https://t.co/lzPaWJ0ZnO
RT @microbeminded2: Microbial metabolites regulate human pathways 👉 In mouse/human MS models, tryptophan created by the gut #microbiome int…
RT @kadzuis: May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial…
RT @microbeminded2: Microbial metabolites regulate human pathways 👉 In mouse/human MS models, tryptophan created by the gut #microbiome int…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
Hay una relación muy directa entre la flora intestinal y las enfermedades neurodegenartivas como la esclerosis múltiple y el parkinson. En este estudio, se anuncia cuales son las células involucradas en esa interacción: la microglía y los astrocitos. http
RT @kadzuis: May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @ADeczk: of microglia, astrocytes, and bugs. Beautiful work by Francisco Quintana! https://t.co/qc4VrepuI5
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @TKTLam: Microglial control of astrocytes in response to microbial metabolites https://t.co/0NC66wILgc
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
Gut #microbiome→ brain cells→#inflammation and #neurodegeneration. Microbial metabolites limit pathogenic activities of #microglia and astrocytes, and suppress CNS inflammation. https://t.co/9vrFRNQEbs https://t.co/KjbyXdUo2z
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
Gut molecules control brain inflammation - microglial control of astrocytes in response to microbial metabolites @foundmyfitness @terrywahls https://t.co/tsFdCv0bA9
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
May became even more impressive @Nature for microbiota derived tryptophan metabolites https://t.co/9Ph51dyBa3 where "microbial metabolites limit pathogenic activities..., and suppress CNS inflammation". #microbiome #metabolomics https://t.co/zCDRnBO91k h
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
Wow! What a time to be alive. Imagine in few years putting those two things together: 1. Noninvasive CGM wearable https://t.co/Vo7jF9dW7i and 2. Real science of gut-brain relationship. https://t.co/bcGeWnzKR5
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT @jonykipnis: Great mechanistic story from the Quintana lab on microbial metabolites, microglia responses and their instruction of astroc…
RT microbeminded2: Microbial metabolites regulate human pathways 👉 In mouse/human MS models, tryptophan created by the gut #microbiome interacted w/ the AHR receptor on microglia/astrocytes. Subsequent changes in gene expression altered communication… http
RT @microbeminded2: Microbial metabolites regulate human pathways 👉 In mouse/human MS models, tryptophan created by the gut #microbiome int…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @nature: Changes in the gut microbiome alter immune cell activity in the brains of mice with a form of multiple sclerosis (MS), reports…
RT @ADeczk: of microglia, astrocytes, and bugs. Beautiful work by Francisco Quintana! https://t.co/qc4VrepuI5
RT @ADeczk: of microglia, astrocytes, and bugs. Beautiful work by Francisco Quintana! https://t.co/qc4VrepuI5
RT @ADeczk: of microglia, astrocytes, and bugs. Beautiful work by Francisco Quintana! https://t.co/qc4VrepuI5
They could have at least gone into the mechanisms........😂 https://t.co/XIn5qLG2zi
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…
RT @microbeminded2: Microbial metabolites regulate human pathways 👉 In mouse/human MS models, tryptophan created by the gut #microbiome int…
RT @EricTopol: The gut #microbiome and the #brain: how microbe metabolites influence the microglia and astrocytes https://t.co/nOUz0VDGLI @…