Your search keyword '"Borday, Caroline"' showing total 2 results

1. Hes4 Controls Proliferative Properties of Neural Stem Cells During Retinal Ontogenesis

Author

El Yakoubi, Warif, Borday, Caroline, Hamdache, Johanna, Parain, Karine, Tran, Hong Thi, Vleminckx, Kris, Perron, Muriel, and Locker, Morgane

Abstract

The retina of fish and amphibian contains genuine neural stem cells located at the most peripheral edge of the ciliary marginal zone (CMZ). However, their cell‐of‐origin as well as the mechanisms that sustain their maintenance during development are presently unknown. We identified Hes4(previously named XHairy2), a gene encoding a bHLH‐O transcriptional repressor, as a stem cell‐specific marker of the XenopusCMZ that is positively regulated by the canonical Wnt pathway and negatively by Hedgehog signaling. We found that during retinogenesis, Hes4labels a small territory, located first at the pigmented epithelium (RPE)/neural retina (NR) border and later in the retinal margin, that likely gives rise to adult retinal stem cells. We next addressed whether Hes4 might impart this cell subpopulation with retinal stem cell features: inhibited RPE or NR differentiation programs, continuous proliferation, and slow cell cycle speed. We could indeed show that Hes4overexpression cell autonomously prevents retinal precursor cells from commitment toward retinal fates and maintains them in a proliferative state. Besides, our data highlight for the first time that Hes4 may also constitute a crucial regulator of cell cycle kinetics. Hes4gain of function indeed significantly slows down cell division, mainly through the lengthening of G1 phase. As a whole, we propose that Hes4 maintains particular stemness features in a cellular cohort dedicated to constitute the adult retinal stem cell pool, by keeping it in an undifferentiated and slowly proliferative state along embryonic retinogenesis. STEMCELLS2012;30:2784–2795

Published

2012

2. Stemness or Not Stemness? Current Status and Perspectives of Adult Retinal Stem Cells

Author

Locker, Morgane, Borday, Caroline, and Perron, Muriel

Abstract

Many retinal dystrophies are associated with photoreceptor loss, which causes irreversible blindness. The recent identification of various sources of stem cells in the mammalian retina has raised the possibility that cell-based therapies might be efficient strategies to treat a wide range of incurable eye diseases. A first step towards the successful therapeutic exploitation of these cells is to unravel intrinsic and extrinsic regulators that control their proliferation and cell lineage determination. In this review, we provide an overview of the different types and molecular fingerprints of retinal stem cells identified so far. We also detail the current knowledge on molecular cues that influence their self-renewal and proliferation capacity. In particular, we focus on recent data implicating developmental signaling pathways, such as Wnt, Notch and Hedeghog, both in the normal and regenerating retina in different animal models. Last, we discuss the potential of ES cells and various adult stem cells for retinal repair.

Published

2009