Bensun C. Fong scite author profile

In mammals, hippocampal dentate gyrus granule cells (DGCs) constitute a particular neuronal population produced both during embryogenesis and adult life, and play key roles in neural plasticity and memory. However, the molecular mechanisms regulating neurogenesis in the dentate lineage throughout development and adulthood are still not well understood. The Retinoblastoma protein (RB), a transcriptional repressor primarily involved in cell cycle control and cell death, plays crucial roles during cortical development but its function in the formation and maintenance of DGCs remains unknown. Here, we show that loss of RB during embryogenesis induces massive ectopic proliferation and delayed cell cycle exit of young DGCs specifically at late developmental stages but without affecting stem cells. This phenotype was partially counterbalanced by increased cell death. Similarly, during adulthood, loss of RB causes ectopic proliferation of newborn DGCs and dramatically impairs their survival. These results demonstrate a crucial role for RB in the generation and the survival of DGCs in the embryonic and the adult brain. © 2016 Wiley Periodicals, Inc.

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The Rb/E2F axis is a key regulator of the molecular signatures instructing the quiescent and activated adult neural stem cell state

Fong¹,

Chakroun²,

Iqbal³

et al. 2022

Cell Reports

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RB: An essential player in adult neurogenesis

Fong

Slack

2017

Neurogenesis

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The fundamental mechanisms underlying adult neurogenesis remain to be fully clarified. Members of the cell cycle machinery have demonstrated key roles in regulating adult neural stem cell (NSC) quiescence and the size of the adult-born neuronal population. The retinoblastoma protein, Rb, is known to possess CNS-specific requirements that are independent from its classical role as a tumor suppressor. The recent study by Vandenbosch et al. has clarified distinct requirements for Rb during adult neurogenesis, in the restriction of proliferation, as well as long-term adult-born neuronal survival. However, Rb is no longer believed to be the main cell cycle regulator maintaining the quiescence of adult NSCs. Future studies must consider Rb as part of a larger network of regulatory effectors, including the other members of the Rb family, p107 and p130. This will help elucidate the contribution of Rb and other pocket proteins in the context of adult neurogenesis, and define its crucial role in regulating the size and fate of the neurogenic niche.

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Early postnatal defects in neurogenesis in the 3xTg mouse model of Alzheimer’s disease

et al. 2023

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Alzheimer’s disease (AD) is a progressive neurodegenerative disorder leading to dementia. The hippocampus, which is one of the sites where neural stem cells reside and new neurons are born, exhibits the most significant neuronal loss in AD. A decline in adult neurogenesis has been described in several animal models of AD. However, the age at which this defect first appears remains unknown. To determine at which stage, from birth to adulthood, the neurogenic deficits are found in AD, we used the triple transgenic mouse model of AD (3xTg). We show that defects in neurogenesis are present as early as postnatal stages, well before the onset of any neuropathology or behavioral deficits. We also show that 3xTg mice have significantly fewer neural stem/progenitor cells, with reduced proliferation and decreased numbers of newborn neurons at postnatal stages, consistent with reduced volumes of hippocampal structures. To determine whether there are early changes in the molecular signatures of neural stem/progenitor cells, we perform bulk RNA-seq on cells sorted directly from the hippocampus. We show significant changes in the gene expression profiles at one month of age, including genes of the Notch and Wnt pathways. These findings reveal impairments in neurogenesis very early in the 3xTg AD model, which provides new opportunities for early diagnosis and therapeutic interventions to prevent neurodegeneration in AD.

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Bensun C. Fong

RB regulates the production and the survival of newborn neurons in the embryonic and adult dentate gyrus

The Rb/E2F axis is a key regulator of the molecular signatures instructing the quiescent and activated adult neural stem cell state

RB: An essential player in adult neurogenesis

Early postnatal defects in neurogenesis in the 3xTg mouse model of Alzheimer’s disease

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