Read CAN Connection – September 2024

The cellular secret of how memories are made, and lost

Dr. Sheena Josselyn - Photo credit: SickKid news

Dr. Sheena Josselyn

From: SickKids news

Scientists use a peptide to strengthen connections between brain cells and restore memory in a pre-clinical model.

Research led at The Hospital for Sick Children (SickKids) is illuminating the mechanism underlying memory, which could result in future therapeutic targets for conditions such as Alzheimer’s disease and dementia. 

Alzheimer’s disease is a condition that causes memory loss, characterized by the accumulation of a protein, called A-beta, in the brain that damages neurons and their connections.

Published in Nature Neuroscience, Drs. Paul Frankland and Sheena Josselyn, Senior Scientists in the Neurosciences & Mental Health program, used a peptide to block adverse effects of the accumulation of A-beta in pre-clinical models – a technique that showed promise in restoring memory.

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Read our submission to pre-budget consultations

The House of Commons Standing Committee on Finance invited Canadians to participate in its annual pre-budget consultations process. The committee will table a report on these consultations in the House of Commons with recommendations to be considered by the Deputy Prime Minister and Minister of Finance in the development of the 2025 federal budget.

Read CAN’s submission to these consultations here:

Read CAN Connection – June 2024

Congratulations to the winners of the 2023 CAN- CIHR-INMHA Brain Star Awards!

The Canadian Association for Neuroscience (CAN) and the Canadian Institutes of Health’s Institute of Neurosciences, Mental Health and Addiction (CIHR-INMHA) are proud to announce the winners of the 2023 Brain Star Awards.

The CIHR-INMHA Brain Star awards, administered by the Canadian Association for Neuroscience, are awarded to students and trainees who have published high impact discoveries in all fields and disciplines covered by CIHR’s Institute of Neurosciences, Mental Health and Addiction in the 2023 calendar year.

The top 3 Brain Star Award winners of the year have been invited to make a presentation at the CAN meeting in May.

Caroline Ménard wins the 2024 CAN New Investigator Award for groundbreaking research on stress vulnerability and resilience.

Caroline Ménard

The Canadian Association for Neuroscience is very proud to announce that Dr. Caroline Ménard from Université Laval is the winner of the 2024 CAN New Investigator Award. Her innovative research program is shedding light on the biological mechanisms underlying vulnerability and resilience to stress, with the help of state-of-the-art photonic technology and with the aim of developing pioneer strategies to treat or prevent depression.

Read her profile here

Read our latest newsletter: CAN Connection – March 2024

Read CAN Connection – the September 2023 edition!

Read our latest newsletter today!

Table of content:

Message from the President, Adriana Di Polo

A Promising Non-Invasive Therapy to Promote Repair and Remyelination in Multiple Sclerosis

Valerie Verge

Source of story: MS Canada website

Summary: Researchers find that a non-drug based treatment approach called acute intermittent hypoxia (AIH), which consists of short periods of reduced oxygen, reduces inflammation, protects nerve fibres, and promotes repair in mice with multiple sclerosis-like disease. While the findings of this study are promising, further research will need to assess whether this treatment has the same effect in people with MS.

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Identification of a previously unknown mechanism controlling the interaction between astrocytes and blood vessels in the brain

Moises Freitas-Andrade and Baptiste Lacoste

Moises Freitas-Andrade, Baptiste Lacoste

Title of publication : Astroglial Hmgb1 regulates postnatal astrocyte morphogenesis and cerebrovascular maturation.

First author : Dr. Moises Freitas-Andrade

A new publication from Dr. Baptiste Lacoste’s laboratory at University of Ottawa identifies a previously unknown mechanism controlling the interaction between astrocytes and blood vessels in the brain.

Serving as bridges between neurons and blood vessels in the brain, astrocytes (a type of glial cells) send specialized extensions or ‘endfeet’ around blood vessels to help shape these vessels during development and later control cerebral blood flow (CBF). Astrocytes belong to the ‘neurovascular unit’ (NVU), a multi-cellular ensemble serving as a hub for neurovascular interactions. Despite a wealth of knowledge on astrocytes, and while we know these cells become mature after birth, little is known about the mechanisms driving their recruitment around brain blood vessels, or about their contribution to blood vessel maturation.

In this study, Dr. Lacoste’s team addresses these knowledge gaps not only by thoroughly characterizing the time course of astrocyte-blood vessel interactions in the early postnatal mouse brain, but also by assessing gene expression changes in astrocytes during that period. Doing so, the researchers identify an important molecular player produced by astrocytes, namely HMGB1, which controls their morphology, their placement around blood vessels, and the maturation of NVU.

Using genetic tools to block the production of HMGB1 protein selectively in astrocytes early after birth, Dr. Lacoste’s team shows that HMGB1 controls astrocyte morphogenesis and the maturation of endfeet around blood vessels. Lack of HMGB1 in astrocytes at birth impaired blood vessel maturation and resulted in surprising alterations of behavior in adult mice, that displayed an anxiety-like phenotype.

This study thus identifies a previously unknown mechanism controlling the interaction between astrocytes and blood vessels in the brain, helping scientists to better understand postnatal brain development and the contribution of non-neuronal cells to this process.

Publication: Freitas-Andrade, M., Comin, C.H., Van Dyken, P. et al. Astroglial Hmgb1 regulates postnatal astrocyte morphogenesis and cerebrovascular maturation. Nat Commun 14, 4965 (2023). https://doi.org/10.1038/s41467-023-40682-3