Jonathan Kipnis πποΈ
@jonykipnis
Obsessed with brain/immune system communication. Opinions are my own. This is a personal account. RT isnβt endorsement #Neuroimmunology #TcellsMakeYouSmart
I'm excited to share our new study published in Cell. This work uncovers a critical role for dural mast cells in shaping cerebrospinal fluid flow and protecting the brain from infection. cell.com/action/showPdfβ¦
Excited to share this new work from our lab, led by an exceptional graduate student, Tornike Mamuladze (@tornikemamu), on the role of meningeal mast cells in regulation of brain/dura access points, with implications to CSF flow dynamics and meningitis || authors.elsevier.com/sd/article/S00β¦
New issue is out! cell.com/neuron/home with 4 papers from the Mesoscopic Brain Mapping Consortium, including the cover art. You can read more about the Consortium and papers published across Cell, Neuron, and Developmental Cell in this commentary: cell.com/cell/fulltext/β¦
Now online! Mast cells regulate the brain-dura interface and CSF dynamics dlvr.it/TM5sBD
Mast cells regulate the brain-dura interface and CSF dynamics: Cell cell.com/cell/fulltext/β¦
Mast cells regulate the brain-dura interface and CSF dynamics @CellCellPress cell.com/cell/fulltext/β¦
A landmark study published in @Nature by @aaronmring et al. has revealed that autoantibodies β immune proteins traditionally associated with autoimmune disease β may profoundly influence how cancer patients respond to immunotherapy. bit.ly/4o4HANS
Nothing happens to @united while we are all waiting for them to board us. 30 min late and counting. The excuse - cleaning. The aircraft arrived 1.5hrs ago - plenty of time to clean, but what do they care? Air careers must made accountable for delays. If there were to pay for eachβ¦
We're hiring! Nature Neuroscience is hiring an Associate or Senior Editor with experience in cellular and molecular neuroscience, glia, and genomics to work in our New York or Shanghai office. Applications are due August 19. springernature.wd3.myworkdayjobs.com/en-US/Springerβ¦
Characterizing plaque-associated #microglia (PAM) and non-plaque-associated microglia (non-PAM) in a mouse model of Alzheimer's disease; non-PAM modulate cell population expansion in response to amyloid deposition and rapidly respond to environmental cues nature.com/articles/s4159β¦
We are #hiring! Please RT! If you have a PhD, are passionate about aging research, and curious about other disciplines than your own, consider joining the journalβs editorial team. springernature.wd3.myworkdayjobs.com/SpringerNatureβ¦
EVERYTHING YOU EVER WANTED TO KNOW ABOUT #PSYCHEDELICS AND THINGS YOU NEVER THOUGHT ABOUT! cell.com/neuron/abstracβ¦
Using newly developed mouse models and a microglia replacement strategy, researchers in Science show that bone marrow transplantation could be used as an effective therapy for ALSP, a rare and fatal neurodegenerative disease. π: scim.ag/4kW4jsR #SciencePerspective:β¦
Using newly developed mouse models and a microglia replacement strategy, researchers in Science show that bone marrow transplantation could be used as an effective therapy for ALSP, a rare and fatal neurodegenerative disease. π: scim.ag/4kW4jsR #SciencePerspective:β¦
Microglia replacement halts the progression of microgliopathy in mice and humans | Science science.org/doi/10.1126/scβ¦
Replacing microglia to treat a brain disease | Science science.org/doi/10.1126/scβ¦
Congrats to the authors of this exciting work! and the credit for our Perspective goes to @DuSiling!
The cells as living drug story expands today with replacement of microglia, vital immune cells in the brain, to treat a rare neurologic condition (ALSP) science.org/doi/10.1126/sc⦠science.org/doi/10.1126/sc⦠@ScienceMagazine