Pigment epithelium–derived factor is a niche signal for neural stem cell renewal

Ramírez-Castillejo, Carmen; Sánchez-Sánchez, Francisco; Andreu-Agulló, Celia; Ferrón, Sacri R.; Aroca-Aguilar, José-Daniel; Sánchez, Pilar Fernández; Mira, Helena; Escribano, Julio; Fariñas, Isabel

doi:10.1038/nn1657

Cited by 412 publications

(377 citation statements)

References 45 publications

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“…PEDF has also been shown to be secreted by adult murine subventricular zone cells and maintains a niche for adult neuronal stem cells. 35 It is likely that PEDF is released by the photoreceptor cells or proliferating neuronal progenitor cells into the matrix and taken up by the CSF and may act on cell types and neurons by diffusion through the CSF. Similarly, the Neuronal Cell Adhesion Molecule L1-Like Protein, also found only in the human e-CSF, is known to play important roles in neurite outgrowth and neuronal survival.…”

Section: Resultsmentioning

confidence: 99%

A Comparative Proteomic Analysis of Human and Rat Embryonic Cerebrospinal Fluid

et al. 2007

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During vertebrate central nervous system development, the apical neuroepithelium is bathed with embryonic Cerebrospinal Fluid (e-CSF) which plays regulatory roles in cortical cell proliferation and maintenance. Here, we report the first proteomic analysis of human e-CSF and compare it to an extensive proteomic analysis of rat e-CSF. As expected, we identified a large collection of protease inhibitors, extracellular matrix proteins, and transport proteins in CSF. However, we also found a surprising suite of signaling and intracellular proteins not predicted by previous proteomic analysis. Some of the intracellular proteins are likely to represent the contents of microvesicles recently described within the CSF (Marzesco, A. M., et al. J. Cell Sci. 2005, 118 (Pt. 13), 2849−2858). Defining the rich composition of e-CSF will enable a greater understanding of its concerted actions during critical stages of brain development. Keywords: embryonic CSF (e-CSF) • human CSF • rat CSF • brain development • cerebrospinal fluid • mass spectrometry • proteomics

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Section: Resultsmentioning

confidence: 99%

A Comparative Proteomic Analysis of Human and Rat Embryonic Cerebrospinal Fluid

et al. 2007

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“…For example, endothelial cells were shown to be critical for maintenance of neural stem cells and it appears that CD133 þ brain tumor stem cells may also require such niche. [15][16][17] Based on these data demonstrating the necessity of the niche for maintenance of both normal and cancer stem cells, the question is, how is it possible that in 'sphere cultures' cells alone without any ECM attachment display a stem cell phenotype? Previous studies have also described that cells in suspension upregulate many pro-survival pathways, increase their antioxidant levels, and as a consequence become resistant to apoptosis.…”

Section: What Makes a Cancer Cell A Cancer Stem Cell?mentioning

confidence: 99%

The cancer stem cell hypothesis: in search of definitions, markers, and relevance

Shipitsin

Polyák

2008

Laboratory Investigation

191

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Cancer is a disease of genes. Inherited or somatic alterations in genes are what make a normal cell ignore growthcontrolling signals and form a tumor that eventually leads to the destruction of the organism. Based on accumulated knowledge on the genetic composition of cancer cells, the clonal evolution model of tumorigenesis was established, which explains multiple aspects of human disease and clinical observations. However, the recently popularized cancer stem cell hypothesis questions that all or most tumor cells can participate in tumor evolution and restricts this property to a subset of them defined as 'cancer stem cells' due to their stem cell-like characteristics. Enthusiasm surrounding this area of investigation and its presumed clinical implications led to a spurt of studies in various cancer types and model systems. Rigorous study design and critical data interpretation have to be employed to test the scientific and clinical relevance of the cancer stem cell hypothesis and its relationship to the clonal evolution model.

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“…In the SGZ of the adult CNS, mitotic cells are closely associated with blood vessels (Palmer et al, 2000). Endothelial cells in coculture with neural stem cells were found to release soluble factors that increase self-renewal of the stem cells, an effect that is likely to be mediated through VEGF-C/VEGFR-3 and/or pigment epithelium derived factor (PEDF) (Shen et al, 2004;Le Bras et al, 2006;Ramirez-Castillejo et al, 2006) Additionally, basal-lamina-like extensions (called fractones) extend from blood vessels in the SEZ and make contact with all cells in the niche providing a source of ECM containing collagen-IV, laminins, perlecan, nidogen and, in some cases, heparan sulfate proteoglycans (HSPG). These likely send important signals to the stem cells that may include the presentation of FGF-2, which binds to fractone HSPG (Mercier et al, 2002;Kerever et al, 2007).…”

Section: Signaling In Adult Neural and Other Stem Cell Nichesmentioning

confidence: 99%

The microenvironment of the embryonic neural stem cell: Lessons from adult niches?

Lathia

Rao

Mattson

et al. 2007

Developmental Dynamics

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A better understanding of the signals regulating embryonic neural stem cells is clearly an important goal. However, many studies on neural stem cell biology are conducted on the slowly-dividing cells found in the adult CNS, where specialized microenvironments or niches maintain the stem cells throughout life. By contrast, the embryonic VZ is a transient structure that does not fulfill the criteria conventionally used to define niches. In this review we will examine whether, despite these differences, the signals found in other adult stem cell niches are present in the VZ. Using the similarities and differences we observe, we will reconsider whether the location of embryonic stem cell populations such as the VZ can be thought of as niches. Finally, we will ask how these lessons from the niche inform our understanding of neurodevelopmental diseases and cancers of the CNS. Developmental Dynamics 236:3267-3282, 2007.

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Pigment epithelium–derived factor is a niche signal for neural stem cell renewal

Cited by 412 publications

References 45 publications

A Comparative Proteomic Analysis of Human and Rat Embryonic Cerebrospinal Fluid

A Comparative Proteomic Analysis of Human and Rat Embryonic Cerebrospinal Fluid

The cancer stem cell hypothesis: in search of definitions, markers, and relevance

The microenvironment of the embryonic neural stem cell: Lessons from adult niches?

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