Local and Long-range Regulation of Adult Neural Stem Cell Quiescence

Paul, Alexander J.

January 2016

Quiescent neural stem cells support continuous, lifelong neurogenesis in specific regions of the adult mammalian brain. The largest adult neurogenic region is the ventricular-subventricular zone (V-SVZ), which lines the entire lateral wall of the lateral ventricles. Quiescent neural stem cells (qNSCs) enter the cell cycle (activate) and give rise to new neurons during homeostasis and regeneration, suggesting they can potentially be harnessed for regenerating the brain after neurodegenerative disease, stroke, and injury. Defining the signals that regulate NSC quiescence and activation is essential to unlock their potential for regenerative medicine. NSCs residing in specific regions of the V-SVZ give rise to distinct subtypes of olfactory bulb interneurons. It is unknown whether quiescence-regulating signals map onto the regional heterogeneity of NSCs, and might thereby underlie the production of distinct interneuron subtypes. A major limitation to our understanding of the regulation of NSC quiescence has been the lack of specific markers to identify qNSCs, and prospectively purify them from their in vivo niche. Using a novel fluorescence-activated cell sorting (FACS) strategy that allows the purification of qNSCs from the adult mouse V-SVZ niche for the first time, I performed in vitro screens for quiescence-regulating signals. Unexpectedly, neurotransmitters emerged as the main class of qNSC-activating signals, including dopamine, GABA, serotonin, acetylcholine, and opioids. Local and long-range neurons that use these neurotransmitters innervate the V-SVZ in unique regional patterns, suggesting these signals map onto the regional heterogeneity of NSCs. Consistent with this hypothesis, infusions of cholinergic agonist and antagonists into the lateral ventricle resulted in regional changes in NSC proliferation. Moreover, cholinergic antagonists blocked the activation of qNSCs during regeneration, providing evidence that neurotransmitter signaling activates qNSCs in vivo. I then showed that hypothalamic Pomc-expressing neurons innervate the anterior-ventral V-SVZ and promote the activation of Nkx2.1+ qNSCs. Ablation of Pomc+ neurons resulted in decreased proliferation of NSCs in the anterior-ventral, but not anterior-dorsal, V-SVZ. Moreover, both the activity of Pomc+ neurons, and the proliferation of Nkx2.1+ NSCs in the anterior-ventral V-SVZ decreased in fasted animals, suggesting that hunger and satiety states regulation the generation of a single olfactory bulb interneuron subtype. Indeed, ablation of Pomc+ neurons resulted in a loss of the subtype of olfactory bulb interneuron that is generated by Nkx2.1+ NSCs. Together, my findings suggest that both local and long-range neurons regionally innervate the V-SVZ and mediate neural stem cell activation from the quiescent state.

Neurotransmitters

Neural stem cells

Cellular control mechanisms

Neurosciences

Purification and characterisation of the plasma membrane NADH:oxidoreductase

Baker, Mark Andrew, 1974-

January 2002

Abstract not available

Oxidoreductases

Cell membranes

Enzymes

Enzyme inhibitors

Cellular control mechanisms

Short lived bacterial regulatory proteins : what determines their fate?

Ebel, Wolfgang, 1967-

19 June 1997

Rapid degradation of certain short lived "timing" proteins is an effective mechanism for cells to control important regulatory pathways. The mechanisms by which regulatory proteases recognize their substrates are not well understood. Escherichia coli Lon, an energy dependent protease highly conserved in many prokaryotes and eukaryotes provides a model system to study protease/substrate interactions. RcsA, a regulator of capsule synthesis, when present in levels high enough to saturate Lon, cannot protect SulA, a cell division inhibitor, from being degraded. These observations suggest Lon recognizes its different substrates with different affinities. The different affinities of these substrates might relate to the role these substrates play in the cell: stabilization of RcsA leads to a nonlethal phenotype (capsule), while stabilization of SulA leads to lethal filamentation. To further examine protease/substrate interactions, targeted mutagenesis was employed to select for mutations in rcsA which give rise to mutant RcsA protein no longer degraded by Lon protease. Two mutants with an increased half-life in the presence of Lon were identified. Their mutations fall into the C-terminal region of RcsA, supporting the hypothesis that this region is involved in the interaction of RcsA with Lon. Stabilization of RcsA was dependent on its partner RcsB; the interaction of RcsA with RcsB is believed to protect RcsA from Lon dependent degradation. However, it was shown that rcsA expression is enhanced in the presence of RcsB, and RcsA protein cannot be detected in strains mutant for RcsB in the presence or absence of Lon. Furthermore, rcsA expression was shown to be activated by RcsA itself: rcsA::lacZ expression is low in the absence of RcsA. A conserved 25 by motif, designated "RcsA-Box" was identified in the promoter region of the rcsA and capsule (cps) genes. This motif was shown to be a likely candidate for RcsA binding: high level expression of both cps::lacZ and rcsA::lacZ fusions was shown to be dependent on the presence of the "RcsA-Box". These studies expand the understanding of the specific interactions between regulatory proteases and their targets, specifically as they relates to complex regulatory networks. / Graduation date: 1998

Cellular control mechanisms

Proteolytic enzymes

Escherichia coli -- Physiology

The G1 DNA damage checkpoint in S. cerevisiae /

Fitz Gerald, Jonathan Nesbit.

January 2001

Thesis (Ph. D.)--University of Chicago, Dept. of Molecular Genetics and Cell Biology, 2002. / Includes bibliographical references. Also available on the Internet.

Mechanisms of transmembrane signaling between neuroglian and the spectrin cytoskeleton /

Jefford, Greg.

January 2001

Thesis (Ph. D.)--University of Chicago, Committee on Human Nutrition and Nutritional Biology, 2001. / Includes bibliographical references. Also available on the Internet.

Cellular and molecular mechanisms of enhanced neuronal damage in hyperglycemic ischemia

Ding, Chaonan

January 2005

Mode of access: World Wide Web. / Thesis (Ph. D.)--University of Hawaii at Manoa, 2005. / Includes bibliographical references (leaves 116-154). / Electronic reproduction. / Also available by subscription via World Wide Web / xvii, 157 leaves, bound ill. 29 cm

Cellular control mechanisms

Diabetic neuropathies

Hyperglycemia -- Complications

Ischemia -- Complications

Akt/IKK[alpha]/Vav1 signaling in endothelial cell survival and angiogenesis

DeBusk, Laura M.

January 2008

Thesis (Ph. D. in Cancer Biology)--Vanderbilt University, May 2008. / Title from title screen. Includes bibliographical references.

Polymer-modified plates for enrichment of phosphopeptides prior to analysis by matrix-assisted laser desorption/ionization mass spectrometry

Dunn, Jamie D.

January 2007

Thesis (Ph. D.)--Michigan State University. Dept. of Chemistry, 2007. / Title from PDF t.p. (viewed on Apr. 16, 2009) Includes bibliographical references. Also issued in print.

Mechanisms by which hypoxia augments Leydig cell viability and differentiated cell function in vitro /

Kukucka, Mark Anthony,

January 1993

Thesis (Ph. D.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references (leaves 154-169). Also available via the Internet.

Requirement of MyoD for myogenic lineage maintenance and regulation of skeletal muscle terminal differentiation by the MAPK signaling pathway /

Perry, Robert L. S. Rudnicki, Michael.

January 2003

Thesis (Ph. D.)--McMaster University, 2003. / Advisor: Michael Rudnicki. Includes bibliographical references (leaves 187-228). Also available via World Wide Web.