Heading to #FENS2026 in Barcelona?

Join us on July 8 (6:45pm–8:15pm) for a casual networking aperitif 🥂
Great chance to meet, chat, and connect with fellow researchers.

Free, but registration is required
👉 forms.gle/Fo2ym8csqWBP...

Open to everyone, no GSRNet membership needed!

Please share!

Was great to play a part in this! Congrats to all on this stellar paper 🥳🥳

Astrocytes in mouse amygdala encode emotional state The glial cells’ activity reliably tracks with freezing, hesitancy and other behaviors reminiscent of anxiety.

“Based on astrocytic activity alone, you can tell whether a mouse is in its comfort zone,” a new study suggests.

By Holly Barker

www.thetransmitter.org/spectrum/ast...

Basolateral amygdala astrocytes encode anxiety states Ghenissa et al. provide evidence that basolateral amygdala astrocytes reliably encode anxiety states. Using simultaneous in vivo calcium recordings across an array of behavioral tasks, combined with g...

Incredibly proud of this paper led by @ossamaghenissa.bsky.social and @mathiasgua.bsky.social titled Basolateral 'Amygdala Astrocytes Encode Anxiety States'.
www.cell.com/neuron/fullt...
🧵 below

First ride of the post-doc!!
Change is always hard but these views defo help! 😍

🚨 Calls for Proposals are now open!

Submit your ideas for:
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Be part of shaping the scientific program of GSRNet 2027.

📅 Deadline: April 15, 2026
🔗 Details: stress-and-resilience-meeting27.epfl.ch/call-for-pro...

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🚨Great science in a stunning location!🚨
(Can confirm both are true)

Congrats Caroline and team! 🥳

Astrocytic Encoding of Threat in the Basolateral Amygdala The basolateral amygdala (BLA) has long been implicated in threat detection and the generation of anxiety states. While previous experiments have demonstrated the important role of BLA principal neuro...

Delighted to share our first preprint of the year!

A project that we're all really proud of in the lab led by @ossamaghenissa.bsky.social with @mathiasgua.bsky.social in which we set out to test the role of basolateral amygdala astrocytes in anxiety behaviour.
www.biorxiv.org/content/10.6...

Congrats 👏!

Thanks Bruno Geoffroy @crchum.bsky.social for the nice write up on our recent publication with @lewisholt.bsky.social

nouvelles.umontreal.ca/en/article/2...

Congrats Silvia! Looks great 😊

Super psyched to help close out the #AstrocyteCafe on thursday!

Thanks! 😄 @joscience.bsky.social

This all came online while we were at @gliameeting.bsky.social 2025 meeting! I couldn't think of a better community to celebrate it with and in a better setting than the south of France!

I want to give a big shout out to all the people in the CMR lab that helped with this project over the past few years, including those not on the paper. 💙

10. Astrocytic glucocorticoid receptor deletion correct the excitability changes we saw after ELS in a sex specific manner! The remarkable thing was that these changes were sufficient enough to rescue the behavioural deficits caused by ELS back in Fig.1!

9. Given the changes in blood CORT, we questioned if all these changes in running activity, firing rates and morphology could be a result of stress signalling in astrocytes? To get at this we selectively delete glucocorticoid receptors in astrocytes.

8. In ELS female mice we observed deficits in lactate availability. We also used some cool intracellular sensors to look at lactate dynamics in LH neurons after ELS!

7. We then got into what was underlying the divergent effects on orexin neuron firing in male and female mice. – Males first. Long story short, we saw elevated P2X receptor signalling was driving the hyper-excitability after ELS.

6. By chemogenetically manipulating astrocyte activity, we could recapitulate the behavioural and cellular phenotypes we saw after ELS - see paper for all the data!

5. But what about astrocytes after ELS? We saw changes in GFAP and Cx43. But to look at astrocyte morphology we developed a sparse viral labeling technique, which gave beautiful reconstructions of astrocytes in the LH. ELS shrunk astrocytes with a pronounced effect on branching in females!

4. This behavioural phenotype was nicely reflected at the neuronal level in the lateral hypothalamus, where ELS male orexin neurons had increased firing rates and hyper-excitability and ELS female orexin neurons had reduced firing rates and hypo-excitability.

3. We next found that ELS had opposing effects on running wheel behaviour across the light-dark cycle. Males ran more in their light phase and females ran less in their dark phase!

2. Firstly, replicating the findings from previous work in the lab, we see mice that experience ELS (maternal separation 4hr / day + limited bedding) display much higher nadir levels of blood corticosterone, the primary stress hormone in rodents!

1. Globally, this work builds on the growing body of literature investigating the effects of Early-Life Stress (ELS) on astrocytes, neuronal excitability and behaviour. This time we focused on astrocytes in the lateral hypothalamus.

A divergent astrocytic response to stress alters activity patterns via distinct mechanisms in male and female mice - Nature Communications Early-life stress has lifelong impacts on neuronal function and behavior. Here, the authors show that astrocytic glucocorticoid receptor signaling drives stress-induced neuronal and behavioral change ...

Absolutely thrilled to share the first half of my PhD work! Super proud to see it finally out!
www.nature.com/articles/s41...

Thread below for a quick (10 point) recap of what we found!
🧵🧪🧠

Thanks!! @dibenedetto-lab.bsky.social

Final leg of the Tour de France done with an excellent @gliameeting.bsky.social !
Amazing science in a great city, (despite some smoke!) and a nice travel award for @lewisholt.bsky.social 🥳

Going to make sure we come back to this meeting again next time! #glia2025