Gap junction‐mediated calcium waves define communication networks among murine postnatal neural progenitor cells

Lacar, Benjamin; Young, Stephanie Z.; Platel, Jean‐Claude; Bordey, Angélique

doi:10.1111/j.1460-9568.2011.07901.x

Cited by 78 publications

(102 citation statements)

References 25 publications

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“…Gap junctions appear to function via several mechanisms in Ca 2+ wave propagation. In one mechanism, gap junctions act intercellularly to propagate Ca 2+ waves by allowing the spread of Ca 2+ releasing factors, including Ca 2+ itself (Leybaert et al, 1998;Isakson et al, 2006;Lacar et al, 2011). A second mechanism has been described in the developing mammalian CNS and involves extracellular propagation via ATP released from hemichannels acting via P2 receptors to trigger Ca 2+ waves (Dale, 2008;Orellana et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

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A transiently expressed connexin is essential for anterior neural plate development in Ciona intestinalis

et al. 2013

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SUMMARYA forward genetic screen in the ascidian Ciona intestinalis identified a mutant line (frimousse) with a profound disruption in neural plate development. In embryos with the frimousse mutation, the anteriormost neural plate cells, which are products of an FGF induction at the blastula and gastrula stages, initially express neural plate-specific genes but fail to maintain the induced state and ultimately default to epidermis. The genetic lesion in the frimousse mutant lies within a connexin gene (cx-11) that is transiently expressed in the developing neural plate in a temporal window corresponding to the period of a-lineage neural induction. Using a genetically encoded calcium indicator we observed multiple calcium transients throughout the developing neural plate in wild-type embryos, but not in mutant embryos. A series of treatments at the gastrula and neurula stages that block the calcium transients, including gap junction inhibition and calcium depletion, were also found to disrupt the development of the anterior neural plate in a similar way to the frimousse mutation. The requirement for cx-11 for anterior neural fate points to a crucial role for intercellular communication via gap junctions, probably through mediation of Ca 2+ transients, in Ciona intestinalis neural induction.

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Section: Discussionmentioning

confidence: 99%

“…Connexins are known to mediate Ca 2+ waves in mammalian cells (Toyofuku et al, 1998;Lacar et al, 2011;Orellana et al, 2012), although a role in vertebrate neural plate induction has not been demonstrated. Gap junctions appear to function via several mechanisms in Ca 2+ wave propagation.…”

Section: Discussionmentioning

confidence: 99%

A transiently expressed connexin is essential for anterior neural plate development in Ciona intestinalis

et al. 2013

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“…Most recently, connexin 43 was shown to prevent HSC senescence by transferring reactive oxygen species into the supporting stromal cells, thus reducing their damage to HSCs (Taniguchi Ishikawa et al, 2012). In the mouse subventricular NSC niche, the gap junction-mediated calcium transfer between supporting astrocytes and NSCs is important for NSC proliferation (Lacar et al, 2011). In Drosophila ovary and testis, Zero population growth (Zpg), a gap junction protein, is required for GSC maintenance and differentiation (Gilboa et al, 2003;Tazuke et al, 2002).…”

Section: Other Classes Of Adhesion Moleculesmentioning

confidence: 99%

Adhesion in the stem cell niche: biological roles and regulation

2013

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Stem cell self-renewal is tightly controlled by the concerted action of stem cell-intrinsic factors and signals within the niche. Niche signals often function within a short range, allowing cells in the niche to self-renew while their daughters outside the niche differentiate. Thus, in order for stem cells to continuously self-renew, they are often anchored in the niche via adhesion molecules. In addition to niche anchoring, however, recent studies have revealed other important roles for adhesion molecules in the regulation of stem cell function, and it is clear that stem cell-niche adhesion is crucial for stem cell self-renewal and is dynamically regulated. Here, we highlight recent progress in understanding adhesion between stem cells and their niche and how this adhesion is regulated.

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“…Further, engagements with the vasculature were also detected in vascular regions devoid of mural cell coverage, indicating direct contacts (Tavazoie et al, 2008). Type B1 stem cells were found to extend long cytoplasmic processes with their endfeets contacting nearby striatal vessels (Lacar et al, 2011;Mirzadeh et al, 2008) and see Fig. 1A.…”

Section: The Svz Vascular Nichementioning

confidence: 92%

“…Does the apparent communication between NSCs and neural progenitors with blood vessels also involve a reciprocal response of NSCs affecting blood vessel characteristics? Type B1 cells were indeed found capable of transmitting Ca ++ currents to capillaries through their cytoplasmic processes using via gap junctions (Lacar et al, 2011) and purinergic signaling from B1 cells to pericytes evoked local vasoconstriction (Lacar et al, 2012b). Induction of NSC activation by intra-ventricular injection of EGF and bFGF resulted in an opposing vascular response of vasorelaxation and increased blood flow.…”

Section: The Svz Vascular Nichementioning

confidence: 98%

The vascular niche in adult neurogenesis

Licht

2015

Mechanisms of Development

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Blood vessels (BVs) not only serve as conduits for oxygen and nutrients but may also fulfill perfusion-independent functions. A growing body of data suggests that blood vessels are an integral component of stem cell niches, including stem cell niches in the adult brain. This review summarizes in vivo studies supporting the contention that blood vessels may indeed control function of neuronal stem cells (NSCs) residing in the two major neurogenic niches of the adult brain, namely the sub-ventricular zone and the hippocampus. The review discusses different modes of BV-NSC communication and possible mechanisms by which BV may modulate NSC behavior and responses to external stimuli.

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Gap junction‐mediated calcium waves define communication networks among murine postnatal neural progenitor cells

Cited by 78 publications

References 25 publications

A transiently expressed connexin is essential for anterior neural plate development in Ciona intestinalis

A transiently expressed connexin is essential for anterior neural plate development in Ciona intestinalis

Adhesion in the stem cell niche: biological roles and regulation

The vascular niche in adult neurogenesis

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