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2. Roles of vimentin in health and disease

Author

Ridge, Karen M., Eriksson, John E., Pekny, Milos, and Goldman, Robert D.

Abstract

In this review, Ridge et al. discuss the essential functions of vimentin IFs revealed from studies of Vim−/−mice and cells derived from them.

Published
2022
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3. Reactive astrocyte nomenclature, definitions, and future directions

Author

Escartin, Carole, Galea, Elena, Lakatos, András, O’Callaghan, James P., Petzold, Gabor C., Serrano-Pozo, Alberto, Steinhäuser, Christian, Volterra, Andrea, Carmignoto, Giorgio, Agarwal, Amit, Allen, Nicola J., Araque, Alfonso, Barbeito, Luis, Barzilai, Ari, Bergles, Dwight E., Bonvento, Gilles, Butt, Arthur M., Chen, Wei-Ting, Cohen-Salmon, Martine, Cunningham, Colm, Deneen, Benjamin, De Strooper, Bart, Díaz-Castro, Blanca, Farina, Cinthia, Freeman, Marc, Gallo, Vittorio, Goldman, James E., Goldman, Steven A., Götz, Magdalena, Gutiérrez, Antonia, Haydon, Philip G., Heiland, Dieter H., Hol, Elly M., Holt, Matthew G., Iino, Masamitsu, Kastanenka, Ksenia V., Kettenmann, Helmut, Khakh, Baljit S., Koizumi, Schuichi, Lee, C. Justin, Liddelow, Shane A., MacVicar, Brian A., Magistretti, Pierre, Messing, Albee, Mishra, Anusha, Molofsky, Anna V., Murai, Keith K., Norris, Christopher M., Okada, Seiji, Oliet, Stéphane H. R., Oliveira, João F., Panatier, Aude, Parpura, Vladimir, Pekna, Marcela, Pekny, Milos, Pellerin, Luc, Perea, Gertrudis, Pérez-Nievas, Beatriz G., Pfrieger, Frank W., Poskanzer, Kira E., Quintana, Francisco J., Ransohoff, Richard M., Riquelme-Perez, Miriam, Robel, Stefanie, Rose, Christine R., Rothstein, Jeffrey D., Rouach, Nathalie, Rowitch, David H., Semyanov, Alexey, Sirko, Swetlana, Sontheimer, Harald, Swanson, Raymond A., Vitorica, Javier, Wanner, Ina-Beate, Wood, Levi B., Wu, Jiaqian, Zheng, Binhai, Zimmer, Eduardo R., Zorec, Robert, Sofroniew, Michael V., and Verkhratsky, Alexei

Abstract

Reactive astrocytes are astrocytes undergoing morphological, molecular, and functional remodeling in response to injury, disease, or infection of the CNS. Although this remodeling was first described over a century ago, uncertainties and controversies remain regarding the contribution of reactive astrocytes to CNS diseases, repair, and aging. It is also unclear whether fixed categories of reactive astrocytes exist and, if so, how to identify them. We point out the shortcomings of binary divisions of reactive astrocytes into good-vs-bad, neurotoxic-vs-neuroprotective or A1-vs-A2. We advocate, instead, that research on reactive astrocytes include assessment of multiple molecular and functional parameters—preferably in vivo—plus multivariate statistics and determination of impact on pathological hallmarks in relevant models. These guidelines may spur the discovery of astrocyte-based biomarkers as well as astrocyte-targeting therapies that abrogate detrimental actions of reactive astrocytes, potentiate their neuro- and glioprotective actions, and restore or augment their homeostatic, modulatory, and defensive functions.

Published
2021
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6. Intermediate Filaments in Astrocytes in Health and Disease.

Author

Paramio, Jesús M., Pekny, Milos, and Wilhelmsson, Ulrika

Abstract

Astroglial cells (Fig. 1) are the most abundant cells in the mammalian central nervous system (CNS), and we only now start to fully realize their importance both in health and disease. Upregulation of intermediate filaments (IFs) has been a well-known hallmark of astrocytes activated by a disease process. This chapter focuses on the function of IF proteins and IFs in astroglial cells both in health and in pathological situations, such as severe mechanical or osmotic stress, hypoxia, brain and spinal cord injury as well as in CNS regeneration. [ABSTRACT FROM AUTHOR]

Published
2006
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7. Astrocytoma grade IV (glioblastoma multiforme) displays 3 subtypes with unique expression profiles of intermediate filament proteins.

Author

Skalli, Omar, Wilhelmsson, Ulrika, Örndahl, Charlotte, Fekete, Boglarka, Malmgren, Kristina, Rydenhag, Bertil, and Pekny, Milos

Subjects
GLIOBLASTOMA multiforme treatment, GENE expression, INTERMEDIATE filament proteins, CENTRAL nervous system, ONCOLOGY, IMMUNOHISTOCHEMISTRY
Abstract

Astrocytoma grade IV (glioblastoma multiforme) is the most common and most malignant tumor of the central nervous system and is currently noncurable. Here, we have examined a populationbased cohort of 47 patients with grade IV astrocytoma, who underwent tumor surgery at Sahlgrenska University Hospital in Sweden and who survived after surgery for less than 200 days (short survivors, 28 patients) and more than 500 days (long survivors, 19 patients). For each tumor, we ascertained information on patient age, sex, tumor location, oncological treatment, and survival after surgery. The analysis of the tumor volume and the extent of tumor resection (incomplete versus complete resection of the macroscopic tumor) was made retrospectively from the preoperative radiological investigations and, when available, also from postoperative radiology. We performed semiquantitative immunohistochemical evaluation of the presence of intermediate filament (nanofilament) proteins glial fibrillary acidic protein, vimentin, nestin, and synemin in tumor cells. The intermediate filament system helps cells and tissues to cope with various types of stress, and thus, it might affect the malignant potential of grade IV astrocytoma. We propose a subclassification of astrocytomas grade IV with respect to the expression of the intermediate filament proteins glial fibrillary acidic protein, vimentin, nestin, and synemin, namely, type A, B, and C. Our results suggest that the expression of the intermediate filament proteins glial fibrillary acidic protein, vimentin, nestin, and synemin is coregulated in grade IV astrocytomas. The expression patterns of the intermediate filament proteins in astrocytoma type A, B, and C might have biological and clinical significance. [ABSTRACT FROM AUTHOR]

Published
2013
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10. A Novel Method for Three-Dimensional Culture of Central Nervous System Neurons

Author

Puschmann, Till B., de Pablo, Yolanda, Zandén, Carl, Liu, Johan, and Pekny, Milos

Abstract

Neuronal signal transduction and communication in vivois based on highly complex and dynamic networks among neurons expanding in a three-dimensional (3D) manner. Studies of cell–cell communication, synaptogenesis, and neural network plasticity constitute major research areas for understanding the involvement of neurons in neurodegenerative diseases, such as Huntington's, Alzheimer's, and Parkinson's disease, and in regenerative neural plasticity responses in situations, such as neurotrauma or stroke. Various cell culture systems constitute important experimental platforms to study neuronal functions in health and disease. A major downside of the existing cell culture systems is that the alienating planar cell environment leads to aberrant cell–cell contacts and network formation and increased reactivity of cell culture-contaminating glial cells. To mimic a suitable 3D environment for the growth and investigation of neuronal networks in vitrohas posed an insurmountable challenge. Here, we report the development of a novel electrospun, polyurethane nanofiber-based 3D cell culture system for the in vitrosupport of neuronal networks, in which neurons can grow freely in all directions and form network structures more complex than any culture system has so far been able to support. In this 3D system, neurons extend processes from their cell bodies as a function of the nanofiber diameter. The nanofiber scaffold also minimizes the reactive state of contaminating glial cells.

Published
2014
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12. Astrocytes Negatively Regulate Neurogenesis Through the Jagged1‐Mediated Notch Pathway

Author

Wilhelmsson, Ulrika, Faiz, Maryam, de Pablo, Yolanda, Sjöqvist, Marika, Andersson, Daniel, Widestrand, Åsa, Potokar, Maja, Stenovec, Matjaž, Smith, Peter L. P., Shinjyo, Noriko, Pekny, Tulen, Zorec, Robert, Ståhlberg, Anders, Pekna, Marcela, Sahlgren, Cecilia, and Pekny, Milos

Abstract

Adult neurogenesis is regulated by a number of cellular players within the neurogenic niche. Astrocytes participate actively in brain development, regulation of the mature central nervous system (CNS), and brain plasticity. They are important regulators of the local environment in adult neurogenic niches through the secretion of diffusible morphogenic factors, such as Wnts. Astrocytes control the neurogenic niche also through membrane‐associated factors, however, the identity of these factors and the mechanisms involved are largely unknown. In this study, we sought to determine the mechanisms underlying our earlier finding of increased neuronal differentiation of neural progenitor cells when cocultured with astrocytes lacking glial fibrillary acidic protein (GFAP) and vimentin (GFAP−/−Vim−/−). We used primary astrocyte and neurosphere cocultures to demonstrate that astrocytes inhibit neuronal differentiation through a cell–cell contact. GFAP−/−Vim−/−astrocytes showed reduced endocytosis of Notch ligand Jagged1, reduced Notch signaling, and increased neuronal differentiation of neurosphere cultures. This effect of GFAP−/−Vim−/−astrocytes was abrogated in the presence of immobilized Jagged1 in a manner dependent on the activity of γ‐secretase. Finally, we used GFAP−/−Vim−/−mice to show that in the absence of GFAP and vimentin, hippocampal neurogenesis under basal conditions as well as after injury is increased. We conclude that astrocytes negatively regulate neurogenesis through the Notch pathway, and endocytosis of Notch ligand Jagged1 in astrocytes and Notch signaling from astrocytes to neural stem/progenitor cells depends on the intermediate filament proteins GFAP and vimentin. STEMCells2012;30:2320–2329

Published
2012
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13. Increased Cell Proliferation and Neurogenesis in the Hippocampal Dentate Gyrus of Old GFAP−/−Vim−/−Mice

Author

Larsson, Åsa, Wilhelmsson, Ulrika, Pekna, Marcela, and Pekny, Milos

Abstract

In response to central nervous system (CNS) injury, and more discretely so also during aging, astrocytes become reactive and increase their expression of the intermediate filament proteins glial fibrillary acidic protein (GFAP) and vimentin. Studies of mice deficient in astrocytic intermediate filaments have provided insights into the function of reactive gliosis. Recently we demonstrated robust integration␣of retinal transplants (1) and increased posttraumatic synaptic regeneration (2) in GFAP−/−Vim−/−mice, suggesting that modulation of astrocyte activity affects the permissiveness of the CNS environment for regeneration. Neurogenesis in the adult mammalian CNS is restricted to essentially two regions, the hippocampus and the subventricular zone. Here, we assessed neurogenesis in the hippocampus of 18-month-old GFAP−/−Vim−/−mice. In the granular layer of the dentate gyrus, cell proliferation/survival was 34% higher and neurogenesis 36% higher in GFAP−/−Vim−/−mice than in wildtype controls. These findings suggest that the adult hippocampal neurogenesis in healthy old mice can be increased by modulating astrocyte reactivity.

Published
2004
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14. Consequences of eliminating adenosine A1receptors in mice

Author

Fredholm, Bertil B., Halldner, Linda, Johansson, Catarina, Schulte, Gunnar, Lövdahl, Cecilia, Thorén, Peter, Dunwiddie, Thomas V., Masino, Susan A., Poelchen, Wolfgang, Diao, Lihong, Illes, Peter, Zahniser, Nancy R., Valen, Guro, Tokuno, Shinichi, Sommerschild, Hilchen, Giménez‐Llort, Lydia, Fernández‐Teruel, Alberto, Escorihuela, Rosa M., Wiesenfeld‐Hallin, Zsuzsanna, Xu, Xiao‐Jun, Hårdemark, Anna, Herlenius, Eric, Pekny, Milos, Gebré‐Medhin, Samuel, Brown, Russell, Ollerstam, Anna, Persson, A. Erik G., Skøtt, Ole, and Johansson, Björn

Abstract

The second coding exon of the adenosine A1receptor gene was eliminated by homologous recombination. The phenotype of mice (mixed C57B6/129OlaHsd background) was studied, using siblings from matings of heterozygous mice. Among the offspring the ratio between+/+,+/−and−/−animals was 1:2:1. Over the first half‐year—at least—growth and viability were the same in all genotypes. Binding of A1ligands was eliminated in−/−mice and halved in+/−mice. Blood pressure was increased in−/−mice and this was paralleled by an increase in plasma renin. Heart rate was unaffected, as was contractility. Furthermore, the response of the perfused heart to ischemia was similar in+/+and −/−hearts. However, remote preconditioning was eliminated in−/−mouse hearts. Tubuloglomerular feedback in the kidney was also lost in−/−mice. The analgesic response to a non‐selective adenosing receptor agonist was lost in−/−mice, which also showed hyperalgesia in the tail‐flick test. There was a slight hypoactivity in−/−mice, but responses to caffeine were essentially normal. The inhibition of excitatory neurotransmission in hippocampus by adenosine was lost in−/−mice and reduced in+/−mice. Responses to ATP were affected similarly. Hypoxic depression of synaptic transmission was essentially eliminated in hippocampus and hypoxic decrease in spinal respiratory neuron firing was markedly reduced. These results show that adenosine A1receptors play a physiologically important role in the kidney, spinal cord, and hippocampus and that they are critically important in the adaptive responses to hypoxia. Drug Dev. Res. 58:350–353, 2003. © 2003 Wiley‐Liss, Inc.

Published
2003
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15. Consequences of eliminating adenosine A<INF>1</INF> receptors in mice

Author

Fredholm, Bertil B., Halldner, Linda, Johansson, Catarina, Schulte, Gunnar, Lövdahl, Cecilia, Thorén, Peter, Dunwiddie, Thomas V., Masino, Susan A., Poelchen, Wolfgang, Diao, Lihong, Illes, Peter, Zahniser, Nancy R., Valen, Guro, Tokuno, Shinichi, Sommerschild, Hilchen, Giménez-Llort, Lydia, Fernández-Teruel, Alberto, Escorihuela, Rosa M., Wiesenfeld-Hallin, Zsuzsanna, Xu, Xiao-Jun, Hårdemark, Anna, Herlenius, Eric, Pekny, Milos, Gebré-Medhin, Samuel, Brown, Russell, Ollerstam, Anna, Persson, A. Erik G., Skøtt, Ole, and Johansson, Björn

Abstract

The second coding exon of the adenosine A1 receptor gene was eliminated by homologous recombination. The phenotype of mice (mixed C57B6/129OlaHsd background) was studied, using siblings from matings of heterozygous mice. Among the offspring the ratio between+/+,+/−and−/−animals was 1:2:1. Over the first half-year—at least—growth and viability were the same in all genotypes. Binding of A1 ligands was eliminated in−/−mice and halved in+/−mice. Blood pressure was increased in−/−mice and this was paralleled by an increase in plasma renin. Heart rate was unaffected, as was contractility. Furthermore, the response of the perfused heart to ischemia was similar in+/+and −/−hearts. However, remote preconditioning was eliminated in−/−mouse hearts. Tubuloglomerular feedback in the kidney was also lost in−/−mice. The analgesic response to a non-selective adenosing receptor agonist was lost in−/−mice, which also showed hyperalgesia in the tail-flick test. There was a slight hypoactivity in−/−mice, but responses to caffeine were essentially normal. The inhibition of excitatory neurotransmission in hippocampus by adenosine was lost in−/−mice and reduced in+/−mice. Responses to ATP were affected similarly. Hypoxic depression of synaptic transmission was essentially eliminated in hippocampus and hypoxic decrease in spinal respiratory neuron firing was markedly reduced. These results show that adenosine A1 receptors play a physiologically important role in the kidney, spinal cord, and hippocampus and that they are critically important in the adaptive responses to hypoxia. Drug Dev. Res. 58:350–353, 2003. © 2003 Wiley-Liss, Inc.

Published
2003
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16. Neuron-Specific Ablation of PDGF-B Is Compatible with Normal Central Nervous System Development and Astroglial Response to Injury

Author

Enge, Maria, Wilhelmsson, Ulrika, Abramsson, Alexandra, Stakeberg, Josefina, Kühn, Ralf, Betsholtz, Christer, and Pekny, Milos

Abstract

Members of the PDGF family have multiple roles during embryogenesis and in a variety of pathological situations in the adult. One of the major sites of PDGF-B expression in adult mammals are postmitotic CNS neurons. Combined with reported neurotrophic and neuroprotective effects of exogenously administered PDGFs, this has led to the speculation that PDGF-B may have a role in CNS development, in maintenance, or in response to CNS injury. To test these hypotheses, we developed mice in which PDGF-B was ablated genetically in postmitotic neurons at sites where PDGF-B is normally expressed. We found that these mice develop to adulthood without apparent defects. We demonstrate PDGF-B expression in the postnatal mouse hippocampus and forebrain cortex. We show that neuron-specific knockout of PDGF-B does not influence the astroglial and angiogenic responses to injury in the hippocampus or forebrain cortex. We conclude that the role of neuron-derived PDGF-B remains obscure. A role for neuron-derived PDGF-B, if existing, might be redundant with other CNS growth factors. Alternatively, other and more specific analyses of CNS functions in the normal and injured states will be required to demonstrate such a role.

Published
2003
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17. The Impact of Genetic Removal of GFAP and/or Vimentin on Glutamine Levels and Transport of Glucose and Ascorbate in Astrocytes

Author

Pekny, Milos, Eliasson, Camilla, Siushansian, Ramin, Ding, Mei, Dixon, S., Pekna, Marcela, Wilson, John, and Hamberger, Anders

Abstract

The importance of the intermediate filament (IF) proteins glial fibrillary acidic protein (GFAP) and vimentin for astrocyte function was studied by investigating astrocytes prepared from GFAP-/-and/or vimentin-/- mice. The rate of glucose uptake through facilitative hexose transporters was not affected by depletion of GFAP or vimentin. Similarly, the absence of these IF proteins did not affect ascorbate uptake, under control or cyclic AMP-stimulated conditions, or ascorbate efflux through volume-sensitive organic anion channels. However, compared with wild-type astrocytes, glutamine concentrations were increased up to 200% in GFAP-/- astrocytes and up to 150% in GFAP+/-astrocytes and this increase was not dependent on the presence of vimentin. GFAP-/- astrocytes in culture still contain IFs (made of vimentin and nestin), whereas GFAP-/-vim-/- cultured astrocytes lack IFs. Thus, glutamine levels appear to correlate inversely with GFAP, rather than depend on the presence of IFs per se. Furthermore, the effect of GFAP is dose-dependent since the glutamine concentration in GFAP+/- astrocytes falls between those in wild-type and GFAP-/-astrocytes.

Published
1999
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18. Intermediate Filament Protein Partnership in Astrocytes*

Author

Eliasson, Camilla, Sahlgren, Cecilia, Berthold, Claes-Henric, Stakeberg, Josefina, Celis, Julio E., Betsholtz, Christer, Eriksson, John E., and Pekny, Milos

Abstract

Intermediate filaments are general constituents of the cytoskeleton. The function of these structures and the requirement for different types of intermediate filament proteins by individual cells are only partly understood. Here we have addressed the role of specific intermediate filament protein partnerships in the formation of intermediate filaments in astrocytes. Astrocytes may express three types of intermediate filament proteins: glial fibrillary acidic protein (GFAP), vimentin, and nestin. We used mice with targeted mutations in the GFAP or vimentin genes, or both, to study the impact of loss of either or both of these proteins on intermediate filament formation in cultured astrocytes and in normal or reactive astrocytes in vivo. We report that nestin cannot form intermediate filaments on its own, that vimentin may form intermediate filaments with either nestin or GFAP as obligatory partners, and that GFAP is the only intermediate filament protein of the three that may form filaments on its own. However, such filaments show abnormal organization. Aberrant intermediate filament formation is linked to diseases affecting epithelial, neuronal, and muscle cells. Here we present models by which the normal and pathogenic functions of intermediate filaments may be elucidated in astrocytes.

Published
1999
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19. Increased Insulin Secretion and Glucose Tolerance in Mice Lacking Islet Amyloid Polypeptide (Amylin)

Author

Gebre-Medhin, Samuel, Mulder, Hindrik, Pekny, Milos, Westermark, Gunilla, Törnell, Jan, Westermark, Per, Sundler, Frank, Ahrén, Bo, and Betsholtz, Christer

Abstract

Islet amyloid polypeptide (IAPP or amylin) is costored and cosecreted with insulin and may regulate insulin secretion and blood glucose handling. However, the role and importance of endogenous IAPP in the regulation of insulin release and glucose homeostasis have been controversial. Here we report on the generation and phenotypic analysis of IAPP-deficient mice. These mice have normal, or near to normal, basal levels of circulating insulin and glucose. However, following glucose administration, IAPP-deficient males presented increased insulin responses paralleled with a more rapid blood glucose elimination compared to wild-type controls. Blood glucose elimination was also found to be enhanced in IAPP-deficient females, but the insulin response in this gender did not differ from controls. In a transgenic rescue experiment, using an insulin-promoter human-IAPP fusion gene, insulin responses and blood glucose elimination were reversed in IAPP-deficient males, whereas the female phenotype appeared unaffected. Our results provide the first firm evidence of a physiological role for endogenous IAPP and indicate that IAPP, apparently in a gender-dependent manner, limits the degree of glucose-induced insulin secretion and the rate of blood glucose elimination.

Published
1998
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20. Paracrine PDGF-B/PDGF-Rβ signaling controls mesangial cell development in kidney glomeruli

Author

Lindahl, Per, Hellström, Mats, Kalén, Mattias, Karlsson, Linda, Pekny, Milos, Pekna, Marcela, Soriano, Philippe, and Betsholtz, Christer

Abstract

Kidney glomerulus mesangial cells fail to develop in mice carrying targeted null mutations in the platelet-derived growth factor (PDGF)-B or PDGF-Rβ genes. We have examined the pattern of expression of these genes and smooth muscle markers during kidney development, to address the possible mechanisms underlying the mutant phenotypes. In wild-type embryos, PDGF-B was expressed in vascular endothelial cells, particularly in capillary endothelial cells in the developing glomeruli, whereas PDGF-Rβ was found in perivascular mesenchymal cells in the developing renal cortex. In the course of glomerular development, small groups of PDGF-Rβ and desmin-expressing cells collected in the ‘S’-shaped and early cup-shaped vesicles, and at later stages such cells were found in the glomerular mesangium. In PDGF-B or -Rβ null embryos, some PDGF-Rβ/desmin or desmin-positive cells, respectively, were seen in early cup-shaped vesicles, but fewer than in the wild type, and further development of the mesangium failed. In mouse chimeras composed of PDGF-Rβ +/+ and −/− cells, the Rβ−/− cells failed to populate the glomerular mesangium. Our results show that while the mesangial cell lineage is specified independently of PDGF-B/Rβ, these molecules provide critical permissive signals in mesangial cell development. We propose a model in which mesangial cells originate from PDGF-Rβ-positive progenitors surrounding the developing glomerular afferent and efferent arterioles, and are co-recruited in response to PDGF-B during angiogenic formation of the glomerular capillary tuft.

Published
1998
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21. Differences in Binding to the Solid Substratum and Extracellular Matrix may Explain Isoform-Specific Paracrine Effects of Platelet-Derived Growth Factor

Author

Pekny, Milos, Östman, Arne, Hermansson, Annika, Nister, Monica, Heldin, Carl-Henrik, and Westermark, Bengt

Abstract

We have studied the paracrine response of fibroblasts to the two homodimeric isoforms of platelet-derived growth factor (PDGF-AA and -BB). CHO-cells stably transfected with a B-chain cDNA expression vector (CHO-PDGF-B cells), were found to elicit a marked paracrine response when seeded at clonal density on preformed monolayers of human or murine fibroblasts; no such response was elicited by CHO-PDGF-A cells. Immunofluorescence microscopy of CHO-PDGF-B cell cultures showed the presence of a pericellular deposit of material reacting with antibodies against PDGF-BB; no corresponding PDGF-AA immunoreactive material was found in the CHO-PDGF-A cultures. The pericellular material, deposited by CHO-PDGF-B cells, was shown to have a growth promoting effect on target cells. Furthermore, we could show that 125I-PDGF-BB binds more efficiently than 125I-PDGF-AA to extracellular matrix prepared from foreskin fibroblast cultures, as well as to defined extracellular matrix components (fibronectin, laminin and collagen III). The results reveal a marked difference in the paracrine activity of PDGF-AA and PDGF-BB; the latter has a strong local growth enhancing effect, that is most likely to be ascribed to its association with components of the extracellular matrix.

Published
1994
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22. GFAP-Deficient Astrocytes Are Capable of Stellationin VitroWhen Cocultured with Neurons and Exhibit a Reduced Amount of Intermediate Filaments and an Increased Cell Saturation Density

Author

Pekny, Milos, Eliasson, Camilla, Chien, Chung-Liang, Kindblom, Lars Gunnar, Liem, Ronald, Hamberger, Anders, and Betsholtz, Christer

Abstract

Glial fibrillary acidic protein (GFAP) is an intermediate filament protein predominantly expressed in cells of astroglial origin. To allow for the study of the biological functions of GFAP we have previously generated GFAP-negative mice by gene targeting [Peknyet al.(1995)EMBO J.14, 1590–1598]. Astrocytes in culture, similar to reactive astrocytesin vivo,express three intermediate filament proteins: GFAP, vimentin, and nestin. Using primary astrocyte-enriched cultures from GFAP-negative mice, we now report on the effect of GFAP absence on (i) the synthesis of other intermediate filament proteins in astrocytes, (ii) intermediate filament formation, (iii) astrocyte process formation (stellation) in response to neurons in mixed cerebellar astrocyte/neuron cultures, and (iv) saturation cell densityin vitro.GFAP−/− astrocytes were found to produce both nestin and vimentin. At the ultrastructural level, the amount of intermediate filaments as revealed by transmission electron microscopy was reduced in GFAP−/− astrocytes compared to that in GFAP+/+ astrocytes. GFAP−/− astrocytes retained the ability to form processes in response to neurons in mixed astrocyte/neuron cultures from the cerebellum. GFAP−/− astrocyte-enriched primary cultures exhibited an increased final cell saturation density. The latter leads us to speculate that the loss of GFAP expression observed focally in a proportion of human malignant gliomas may reflect tumor progression toward a more rapidly growing and malignant phenotype.

Published
1998
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