Soyon Hong
@soyonhonglab.bsky.social
I study neuro-glia-immune interactions in brain and gut with my wonderful lab in UKDRI at UCL
Very excited and honored to join the Warsaw glia symposium- can’t wait to learn more about and discuss together the beauty and the complexity of glia with the community!
We're back with another exciting session — this time, spotlight on microglial cells!
And wait until you see our star-studded lineup of speakers!
Don't miss it — join us and stay at the forefront of the latest research!
@soyonhonglab.bsky.social
#WGC #GLIA
And wait until you see our star-studded lineup of speakers!
Don't miss it — join us and stay at the forefront of the latest research!
@soyonhonglab.bsky.social
#WGC #GLIA
July 21, 2025 at 4:55 PM
Very excited and honored to join the Warsaw glia symposium- can’t wait to learn more about and discuss together the beauty and the complexity of glia with the community!
Dear immune/glia lovers of brain, gut and beyond… We’re looking for a lab tech/manager to join our team! Pls see details for application here ucl.ac.uk/work-at-ucl/se… @ukdri.ac.uk @uclqsion.bsky.social - pls help circulate among networks who’d be of interest, thank you!
https://ucl.ac.uk/work-at-ucl/se…
May 9, 2025 at 8:33 AM
Dear immune/glia lovers of brain, gut and beyond… We’re looking for a lab tech/manager to join our team! Pls see details for application here ucl.ac.uk/work-at-ucl/se… @ukdri.ac.uk @uclqsion.bsky.social - pls help circulate among networks who’d be of interest, thank you!
Reposted by Soyon Hong
Excited to share our new work demonstrating a role for astrocytic inflammasome signaling in modulating hippocampal plasticity. @cp-immunity.bsky.social
All credit to Kristine Zengeler, who was the brains🧠 and muscle💪 behind this project and is a wonderful collaborator. www.cell.com/immunity/ful...
All credit to Kristine Zengeler, who was the brains🧠 and muscle💪 behind this project and is a wonderful collaborator. www.cell.com/immunity/ful...
Inflammasome signaling in astrocytes modulates hippocampal plasticity
The function of immune pathways in homeostatic neurobiology remains underexplored.
Zengeler et al. find that the inflammasome complex, typically associated with immune
responses, is involved in memory...
www.cell.com
May 3, 2025 at 1:45 AM
Excited to share our new work demonstrating a role for astrocytic inflammasome signaling in modulating hippocampal plasticity. @cp-immunity.bsky.social
All credit to Kristine Zengeler, who was the brains🧠 and muscle💪 behind this project and is a wonderful collaborator. www.cell.com/immunity/ful...
All credit to Kristine Zengeler, who was the brains🧠 and muscle💪 behind this project and is a wonderful collaborator. www.cell.com/immunity/ful...
Reposted by Soyon Hong
Our lab's 1st paper, led by @fchrisbennett.bsky.social & @waisenberg.bsky.social. A decade thinking how to directly assess the impact of microglia replacement. Yrs of hard work. This kind of work is needed to expand brain disease care for kids & the vision for safer, more effective cell therapy.
Online now: Direct microglia replacement reveals pathologic and therapeutic contributions of brain macrophages to a monogenic neurological disease
Direct microglia replacement reveals pathologic and therapeutic contributions of brain macrophages to a monogenic neurological disease
Hematopoietic stem cell transplant is the gold standard for treatment of globoid cell leukodystrophy, also called Krabbe disease. Aisenberg et al. define the molecular signature of disease-associated macrophages (globoid cells) and demonstrate that brain-specific high-efficiency macrophage replacement in the twitcher model of Krabbe disease improves neuropathology, macrophage dysfunction, and survival.
dlvr.it
April 30, 2025 at 9:20 PM
Our lab's 1st paper, led by @fchrisbennett.bsky.social & @waisenberg.bsky.social. A decade thinking how to directly assess the impact of microglia replacement. Yrs of hard work. This kind of work is needed to expand brain disease care for kids & the vision for safer, more effective cell therapy.
Reposted by Soyon Hong
Check out this paper from the Movahedi lab! It’s a great companion to ours - showing the populations of brain macrophages that monocytes can replace.
Congrats to first author Jonathan Bastos!
Congrats to first author Jonathan Bastos!
Online now: Monocytes can efficiently replace all brain macrophages and fetal liver monocytes can generate bona fide SALL1+ microglia
Monocytes can efficiently replace all brain macrophages and fetal liver monocytes can generate bona fide SALL1+ microglia
Replacing brain macrophages holds substantial therapeutic promise but remains challenging. Bastos et al. uncover the requirements for monocytes to replace microglia and border-associated macrophages. They show that monocyte ontogeny shapes brain macrophage identity, with fetal monocytes acquiring a true microglial state. Using xenotransplantation and Alzheimer’s patient data, they identify human monocyte-derived microglia. These findings are important for microglia replacement therapies.
dlvr.it
May 1, 2025 at 2:10 AM
Check out this paper from the Movahedi lab! It’s a great companion to ours - showing the populations of brain macrophages that monocytes can replace.
Congrats to first author Jonathan Bastos!
Congrats to first author Jonathan Bastos!
Reposted by Soyon Hong
Excited to share this new work led by the talented Mike Dolan @dolan in collaboration with Evan macosko
See below for details and preprint
See below for details and preprint
How does the brain repair myelin after injury?
We mapped the full cellular choreography of white matter repair using snRNA-seq + Slide-seqv2, uncovering a type I interferon-driven glial program that recruits lymphocytes to promote remyelination.
www.biorxiv.org/content/10.1...
Details below 👇
We mapped the full cellular choreography of white matter repair using snRNA-seq + Slide-seqv2, uncovering a type I interferon-driven glial program that recruits lymphocytes to promote remyelination.
www.biorxiv.org/content/10.1...
Details below 👇
Spatiotemporal Analysis of Remyelination Reveals a Concerted Interferon-Responsive Glial State That Coordinates Immune Infiltration
Remyelination, the process by which axons are re-encased in myelin after injury, is a critical step in restoring brain function, yet the dynamics from initial injury to repair remain poorly characteri...
www.biorxiv.org
April 28, 2025 at 11:48 AM
Excited to share this new work led by the talented Mike Dolan @dolan in collaboration with Evan macosko
See below for details and preprint
See below for details and preprint
💪💪💪 @blurtonjoneslab.bsky.social sooo cool!
Exciting work @blurtonjoneslab.bsky.social: CRISPR-engineered iPSC-microglia use the plaque-responsive CD9 promoter to deliver Aβ-degrading neprilysin across the brain-- reducing plaques, inflammation & synaptic loss. A promising new cell therapy platform for AD www.sciencedirect.com/science/arti...
Harnessing human iPSC-microglia for CNS-wide delivery of disease-modifying proteins
Widespread delivery of therapeutic proteins to the brain remains challenging. To determine whether human induced pluripotent stem cell (iPSC)-microgli…
www.sciencedirect.com
April 27, 2025 at 6:23 AM
💪💪💪 @blurtonjoneslab.bsky.social sooo cool!
Super fascinating!! Congrats, Tomás!!!
Excited to share our new study:
"Cold memories control whole-body thermoregulatory responses"
by @andreamunozz.bsky.social, @aaron-douglas.bsky.social & team at @tcddublin.bsky.social, in collaboration with @lydialynch.bsky.social & @drchristineannd.bsky.social
www.nature.com/articles/s41...
"Cold memories control whole-body thermoregulatory responses"
by @andreamunozz.bsky.social, @aaron-douglas.bsky.social & team at @tcddublin.bsky.social, in collaboration with @lydialynch.bsky.social & @drchristineannd.bsky.social
www.nature.com/articles/s41...
Cold memories control whole-body thermoregulatory responses - Nature
Cold-sensitive engrams contribute to learned thermoregulation in mice that are returned to an environment in which they previously experienced a cold challenge, through a network formed betw...
www.nature.com
April 27, 2025 at 6:18 AM
Super fascinating!! Congrats, Tomás!!!
Reposted by Soyon Hong
I've #justsponsored Selina Wray, who's fundraising for Alzheimer's Research UK on @JustGiving. Donate now:
www.justgiving.com/page/selina-...
www.justgiving.com/page/selina-...
Selina's fundraiser for Alzheimer's Research UK
Help Selina wray raise money to support Alzheimer's Research UK
www.justgiving.com
February 16, 2025 at 1:28 PM
I've #justsponsored Selina Wray, who's fundraising for Alzheimer's Research UK on @JustGiving. Donate now:
www.justgiving.com/page/selina-...
www.justgiving.com/page/selina-...
Reposted by Soyon Hong
Hi #neuroscience community! This is one of my favorite posts ever. In close collaboration with @liddelowsa.bsky.social and Ye Zhang, we've built a new tool that we are eager to share! www.webseq.net
WEBseq
share freely
www.webseq.net
January 15, 2025 at 4:21 PM
Hi #neuroscience community! This is one of my favorite posts ever. In close collaboration with @liddelowsa.bsky.social and Ye Zhang, we've built a new tool that we are eager to share! www.webseq.net
Reposted by Soyon Hong
Day 2 Session 7 #ImmuneDynamics at #BarrierTissues #gut_brain in #neurodegeneration with Michal Schwartz Soyong Hong Sandro Da Mesquita Elizabeth Bradshaw & Ryan Hobson
January 10, 2025 at 7:19 PM
Day 2 Session 7 #ImmuneDynamics at #BarrierTissues #gut_brain in #neurodegeneration with Michal Schwartz Soyong Hong Sandro Da Mesquita Elizabeth Bradshaw & Ryan Hobson
Reposted by Soyon Hong
Thrilled to see this paper out!! 🧪
Spatial transcriptomics of brain aging and 'spatial aging clocks' identify cells that have pro-aging or pro-rejuvenating effects on their neighbors!
Huge CONGRATS to Eric Sun and all authors! Fantastic collaboration with @jameszou.bsky.social!
rdcu.be/d33uQ 🧵
Spatial transcriptomics of brain aging and 'spatial aging clocks' identify cells that have pro-aging or pro-rejuvenating effects on their neighbors!
Huge CONGRATS to Eric Sun and all authors! Fantastic collaboration with @jameszou.bsky.social!
rdcu.be/d33uQ 🧵
Spatial transcriptomic clocks reveal cell proximity effects in brain ageing
Nature - A spatially resolved single-cell transcriptomics map of the mouse brain at different ages reveals signatures of ageing, rejuvenation and disease, including ageing effects associated with T...
rdcu.be
December 18, 2024 at 10:40 PM
Thrilled to see this paper out!! 🧪
Spatial transcriptomics of brain aging and 'spatial aging clocks' identify cells that have pro-aging or pro-rejuvenating effects on their neighbors!
Huge CONGRATS to Eric Sun and all authors! Fantastic collaboration with @jameszou.bsky.social!
rdcu.be/d33uQ 🧵
Spatial transcriptomics of brain aging and 'spatial aging clocks' identify cells that have pro-aging or pro-rejuvenating effects on their neighbors!
Huge CONGRATS to Eric Sun and all authors! Fantastic collaboration with @jameszou.bsky.social!
rdcu.be/d33uQ 🧵
Reposted by Soyon Hong
new preprint!
www.biorxiv.org/content/10.1...
a characterization of APOE effects on the lipid droplet-ome (turns out you see a lot of "AD-related" proteins!)
first authors Cassi Friday & Isaiah Stephens + great collaborators Scott Gordon, @cohenlaboratory.bsky.social @morganti.bsky.social
www.biorxiv.org/content/10.1...
a characterization of APOE effects on the lipid droplet-ome (turns out you see a lot of "AD-related" proteins!)
first authors Cassi Friday & Isaiah Stephens + great collaborators Scott Gordon, @cohenlaboratory.bsky.social @morganti.bsky.social
December 21, 2024 at 3:17 PM
new preprint!
www.biorxiv.org/content/10.1...
a characterization of APOE effects on the lipid droplet-ome (turns out you see a lot of "AD-related" proteins!)
first authors Cassi Friday & Isaiah Stephens + great collaborators Scott Gordon, @cohenlaboratory.bsky.social @morganti.bsky.social
www.biorxiv.org/content/10.1...
a characterization of APOE effects on the lipid droplet-ome (turns out you see a lot of "AD-related" proteins!)
first authors Cassi Friday & Isaiah Stephens + great collaborators Scott Gordon, @cohenlaboratory.bsky.social @morganti.bsky.social
Reposted by Soyon Hong
Happy to share our review on how different lipids shape microglial biology in #GLIA journal. 💫 onlinelibrary.wiley.com/doi/full/10....
👉🏽with Gaurav Chopra, Caitlin Randolph, and @katherinewalker.bsky.social
👉🏽with Gaurav Chopra, Caitlin Randolph, and @katherinewalker.bsky.social
Lipids: Emerging Players of Microglial Biology
Lipids are crucial in mediating microglial metabolism and function. The microglial lipidome is vast and complex, with over 10,000 lipid species. We discuss key lipid classes and their roles in m...
onlinelibrary.wiley.com
December 17, 2024 at 2:46 PM
Happy to share our review on how different lipids shape microglial biology in #GLIA journal. 💫 onlinelibrary.wiley.com/doi/full/10....
👉🏽with Gaurav Chopra, Caitlin Randolph, and @katherinewalker.bsky.social
👉🏽with Gaurav Chopra, Caitlin Randolph, and @katherinewalker.bsky.social
Reposted by Soyon Hong
it's big, and it's a review of 601 papers on the topic - but here's an update on Neuroinflammation in Alzheimer's Disease
www.nature.com/articles/s41...
led by Michael Heneka, published in @natrevimmunol.bsky.social today
(MANY more authors listed and linked below)
www.nature.com/articles/s41...
led by Michael Heneka, published in @natrevimmunol.bsky.social today
(MANY more authors listed and linked below)
Neuroinflammation in Alzheimer disease - Nature Reviews Immunology
This Review provides an in-depth examination of how inflammation contributes to neurodegeneration in Alzheimer disease. The authors explore the impact of extrinsic factors, such as brain trauma, diet ...
www.nature.com
December 10, 2024 at 3:03 AM
it's big, and it's a review of 601 papers on the topic - but here's an update on Neuroinflammation in Alzheimer's Disease
www.nature.com/articles/s41...
led by Michael Heneka, published in @natrevimmunol.bsky.social today
(MANY more authors listed and linked below)
www.nature.com/articles/s41...
led by Michael Heneka, published in @natrevimmunol.bsky.social today
(MANY more authors listed and linked below)