Rod-shaped microglia interact with neuronal dendrites to attenuate cortical excitability during TDP-43-related neurodegeneration: @ImmunityCP https://t.co/rbs6cgEZ9M
🎉 We’re thrilled to present our August issue, which includes a Focus on immune aging! 🎉Here, you’ll find a series of reviews and opinion pieces on recent advances in immune aging research https://t.co/ndA5WSSC9k 🎨by Alex Whitworth
Thrilled to see our study officially online in Neuron! We found that microglial ADGRG1 activates MYC to enhance amyloid phagocytosis, offering a potential therapeutic target in Alzheimer’s disease 🧠. Deeply grateful for everyone on the team, especially my mentor @LabPiao 🥳🥳
Online now: G-protein-coupled receptor ADGRG1 drives a protective microglial state in Alzheimer's disease through MYC activation https://t.co/juRix2JEBk
🗞️Our April issue is live!📷
We're featuring work on immune aging, oligodendrocytes in aging & disease, single-cell resources, and news about exciting initiatives involved in biomarker development, geroscience, and autophagy research.
Read it all here 👇
https://t.co/5DiJAWozKG
A new version of https://t.co/Z6U6eEKVhQ is out! This version adds the ability to export FlowJo workspaces and ACS files. It adds features to make pipelines and gates more intuitive. Also, our FCS file editor can now remove and reorder parameters. Try it out now! #flowcytometry
The program is now finalized for the 2nd annual Hans J. Müller-Eberhard Symposium on Neuroimmunology and Glial Biology! The event will be held @CNG_UTHealth at Institute of Molecular Medicine @McGovernMed@UTHealthHouston. Thanks all committed speakers and sponsors! Stay tuned!
"We could all use a little more X!" Thrilled our new study is out. Aging "wakes up" the silent X chromosome in the female brain - and this contributes cognitive resilience. Spearheaded by @MargaretGadek in @ScienceAdvances Collaborators Berenice Benayoun, @BBParis1984 Kaitlin Casaletto @YokoyamaLabUCSF@SimonsFdn@NIH https://t.co/Fko9tGDs1n
Our new study! 🚀 With @HenzeDoug, we uncover region-specific adaptations in cerebellar microglia and provide detailed molecular and spatial data on age-related glial changes in the cerebellum. 🧠 #Microglia
A @wysscoray & @StephenQuake labs collaboration! https://t.co/0peBIzeW3A