Chromosome integrity is essential for cell viability and, therefore, highly proliferative cell types require active telomere elongation mechanisms to grow indefinitely. Consistently, deletion of telomerase activity in a genetically modified mouse strain results in growth impairments in all highly proliferative cell populations analyzed so far. We show that telomere attrition dramatically impairs the in vitro proliferation of adult neural stem cells (NSCs) isolated from the subventricular zone (SVZ) of telomerase-deficient adult mice. Reduced proliferation of postnatal neurogenic progenitors was also observed in vivo, in the absence of exogenous mitogenic stimulation. Strikingly, severe telomere erosion resulting in chromosomal abnormalities and nuclear accumulation of p53 did not affect the in vitro proliferative potential of embryonic NSCs. These results suggest that intrinsic differences exist between embryonic and adult neural progenitor cells in their response to telomere shortening, and that some populations of tissue-specific stem cells can bypass DNA damage check points.
Development presents…
Development is delighted to host a webinar series showcasing the latest developmental biology and stem cell research. The webinars are held each month with talks from postdocs applying for independent positions as part of our Pathway to Independence programme. Visit Development presents... on the Node to see which stimulating topics are coming up in the next few months.
Meet our 2025 Pathway to Independence (PI) fellows
We are delighted to announce our third cohort of PI fellows - researchers whom we will be supporting as they transition from postdoc to Principal Investigator. Read about the eight talented fellows chosen, whom we're excited to be working with as they navigate the job market.
A case for broadening our view of mechanism in developmental biology
In this Perspective, B. Duygu Özpolat and colleagues survey researchers on their views on what it takes to infer mechanism in developmental biology. They examine what factors shape our idea of what we mean by ‘mechanism’ and suggest a path forward that embraces a broad outlook on the diversity of studies that advance knowledge in our field.
Browse by subject
![Development logo - Browse by subject: Explore Development's content, now easily accessible by subject area. The ad has a black background with three vibrant scientific images: a developing embryo on the left, a green plant-like structure in the center, and a gastruloid (a circular cell with a bright pink center and blue outer ring) on the right. [Blue button: browse content].](https://cob.silverchair-cdn.com/ImageLibrary/Development/Snippets/2025_05_Dev_Browse-by-subject_600x230_Snippet.png?versionId=8863)
From cardiovascular development and regeneration to tissue engineering and organoids, Development’s browse by subject archive allows you to access the latest papers (from late 2024 onwards) on a particular field of interest. In addition to our curated subject collections, these subject pages allow readers to browse a broader range of papers organised by topic.
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