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Start Over Descriptor "STEM-CELLS" Publisher escholarship, university of california
20 results on '"STEM-CELLS"'

2. Tumor-Specific Chromosome Mis-Segregation Controls Cancer Plasticity by Maintaining Tumor Heterogeneity

Author

Hu, Yuanjie, Ru, Ning, Xiao, Huasheng, Chaturbedi, Abhishek, Hoa, Neil T, Tian, Xiao-Jun, Zhang, Hang, Ke, Chao, Yan, Fengrong, Nelson, Jodi, Li, Zhenzhi, Gramer, Robert, Yu, Liping, Siegel, Eric, Zhang, Xiaona, Jia, Zhenyu, Jadus, Martin R, Limoli, Charles L, Linskey, Mark E, Xing, Jianhua, Zhou, Yi-Hong, and Hjelmeland, Anita B

Subjects
Growth-Factor, Stem-Cells, Glioblastoma-Multiforme, Glioma-Cells, Malignant Glioma, Initiating Cells, Clonal Evolution, Mitotic Errors, Aneuploidy, Expression
Published
2013

10. Incorporation of a Horizontally Transferred Gene into an Operon during Cnidarian Evolution

Author

Dana, Catherine E., Glauber, Kristine M., Chan, Titus A., Bridge, Diane M., and Steele, Robert E.

Subjects
transfected brugia-malayi, class-level relationships, cell-cycle kinetics, hydra-attenuata, stem-cells, ciona-intestinalis, phylum cnidaria, messenger-rnas, genome, sequences
Abstract

Genome sequencing has revealed examples of horizontally transferred genes, but we still know little about how such genes are incorporated into their host genomes. We have previously reported the identification of a gene (flp) that appears to have entered the Hydra genome through horizontal transfer. Here we provide additional evidence in support of our original hypothesis that the transfer was from a unicellular organism, and we show that the transfer occurred in an ancestor of two medusozoan cnidarian species. In addition we show that the gene is part of a bicistronic operon in the Hydra genome. These findings identify a new animal phylum in which trans-spliced leader addition has led to the formation of operons, and define the requirements for evolution of an operon in Hydra. The identification of operons in Hydra also provides a tool that can be exploited in the construction of transgenic Hydra strains.

Published
2012

11. An XMRV Derived Retroviral Vector as a Tool for Gene Transfer

Author

Cervantes-Garcia, Daniel, Rojas-Martinez, Augusto, and Camerini, David

Subjects
murine leukemia-virus, stem-cells, therapy, transduction, infection, progress, design
Abstract

Background: Retroviral vectors are widely used tools for gene delivery and gene therapy. They are useful for gene expression studies and genetic manipulation in vitro and in vivo. Many retroviral vectors are derived from the mouse gammaretrovirus, murine leukemia virus (MLV). These vectors have been widely used in gene therapy clinical trials. XMRV, initially found in prostate cancer tissue, was the first human gammaretrovirus described. Findings: We developed a new retroviral vector based on XMRV called pXC. It was developed for gene transfer to human cells and is produced by transient cotransfection of LNCaP cells with pXC and XMRV-packaging plasmids. Conclusions: We demonstrated that pXC mediates expression of inserted transgenes in cell lines. This new vector will be a useful tool for gene transfer in human and non-human cell lines, including gene therapy studies.

Published
2011

12. FoxO and Stress Responses in the Cnidarian Hydra vulgaris

Author

Bridge, Diane, Theofiles, Alexander G., Holler, Rebecca L., Marcinkevicius, Emily, Steele, Robert E., and Martinez, Daniel E.

Subjects
forkhead transcription factor, coral montastraea-faveolata, multiple sequence alignment, n-terminal kinase, caenorhabditis-elegans, gene-expression, cell-cycle, oxidative stress, stem-cells, life-span
Abstract

BackgroundIn the face of changing environmental conditions, the mechanisms underlying stress responses in diverse organisms are of increasing interest. In vertebrates, Drosophila, and Caenorhabditis elegans, FoxO transcription factors mediate cellular responses to stress, including oxidative stress and dietary restriction. Although FoxO genes have been identified in early-arising animal lineages including sponges and cnidarians, little is known about their roles in these organisms.Methods/Principal FindingsWe have examined the regulation of FoxO activity in members of the well-studied cnidarian genus Hydra. We find that Hydra FoxO is expressed at high levels in cells of the interstitial lineage, a cell lineage that includes multipotent stem cells that give rise to neurons, stinging cells, secretory cells and gametes. Using transgenic Hydra that express a FoxO-GFP fusion protein in cells of the interstitial lineage, we have determined that heat shock causes localization of the fusion protein to the nucleus. Our results also provide evidence that, as in bilaterian animals, Hydra FoxO activity is regulated by both Akt and JNK kinases.ConclusionsThese findings imply that basic mechanisms of FoxO regulation arose before the evolution of bilaterians and raise the possibility that FoxO is involved in stress responses of other cnidarian species, including corals.

Published
2010

13. Correction: Cellular Senescence in Livers from Children with End Stage Liver Disease

Author

Gutierrez-Reyes, Gabriela, del Carmen Garcia de Leon, Maria, Varela-Fascinetto, Gustavo, Valencia, Pedro, Pérez Tamayo, Ruy, Rosado, Claudia Gonzalez, Labonne, Blanca Farfan, Rochilin, Norma Morales, Garcia, Rosalinda Martinez, Valadez, Jonathan Aguirre, Latour, Gabriela Togno, Corona, Dana Lau, Diaz, Guillermo Robles, Zlotnik, Albert, and Kershenobich, David

Subjects
replicative senescence, dna-damage, hepatitis-c, stem-cells, in-vivo, expression, hepatocytes, p16(ink4a), biomarker, markers
Abstract

Correction.

Published
2010

14. Cellular Senescence in Livers from Children with End Stage Liver Disease

Author

Gutierrez-Reyes, Gabriela, del Carmen Garcia de Leon, Maria, Varela-Fascinetto, Gustavo, Valencia, Pedro, Perez Tamayo, Ruy, Rosado, Claudia Gonzalez, Labonne, Blanca Farfan, Rochilin, Norma Morales, Garcia, Rosalinda Martinez, Valadez, Jonathan Aguirre, Latour, Gabriela Togno, Corona, Dana Lau, Diaz, Guillermo Robles, Zlotnik, Albert, and Kershenobich, David

Subjects
replicative senescence, dna-damage, hepatitis-c, stem-cells, in-vivo, expression, hepatocytes, p16(ink4a), biomarker, markers
Abstract

BackgroundSenescent cells occur in adults with cirrhotic livers independent of the etiology. Aim: Investigate the presence rate of cellular senescence and expression of cell cycle check points in livers from children with end stage disease.Methodology/Principal FindingsLivers of five children aged three years or less undergoing liver transplantation due to tyrosinemia (n = 1), biliary atresia (n = 2), or fulminant hepatitis (n = 2) were analyzed for senescence associated β-galactosidase (SA-βgal) activity and p16INK4a, p21cip1 and p53. All livers displayed positive cellular staining for SA-βgal in the canals of Hering and interlobular biliary ducts. In the presence of cirrhosis (3/5 cases) SA-βgal was found at the cholangioles and hepatocytes surrounding the regenerative nodules. Children with fulminant hepatic failure without cirrhosis had significant ductular transformation with intense SA-βgal activity. No SA-βgal activity was evident in the fibrous septa. Staining for p53 had a similar distribution to that observed for SA-βgal. Staining for p16INK4a and p21cip1 was positive in the explanted liver of the patient with tyrosinemia, in the hepatocytes, the canals of Hering, cholangioles and interlobular bile ducts. In the livers with fulminant hepatitis, p21cip1 staining occurred in the areas of ductular transformation and in the interlobular bile ducts.Conclusions/SignificanceCellular senescence in livers of children with end stage disease is associated with damage rather than corresponding to an age dependent phenomenon. Further studies are needed to support the hypothesis that these senescence markers correlate with disease progression.

Published
2010

15. Expression of transmembrane carbonic anhydrases, CAIX and CAXII, in human development

Author

Liao, Shu-Yuan, Lerman, Michael I, and Stanbridge, Eric J

Subjects
diagnostic biomarker, cell carcinoma, stem-cells, human gut, mn/ca ix, hypoxia, identification, protein, marker, xii
Abstract

Background: Transmembrane CAIX and CAXII are members of the alpha carbonic anhydrase (CA) family. They play a crucial role in differentiation, proliferation, and pH regulation. Expression of CAIX and CAXII proteins in tumor tissues is primarily induced by hypoxia and this is particularly true for CAIX, which is regulated by the transcription factor, hypoxia inducible factor-1 (HIF-1). Their distributions in normal adult human tissues are restricted to highly specialized cells that are not always hypoxic. The human fetus exists in a relatively hypoxic environment. We examined expression of CAIX, CAXII and HIF-1 alpha in the developing human fetus and postnatal tissues to determine whether expression of CAIX and CAXII is exclusively regulated by HIF-1. Results: The co-localization of CAIX and HIF-1 alpha was limited to certain cell types in embryonic and early fetal tissues. Those cells comprised the primitive mesenchyma or involved chondrogenesis and skin development. Transient CAIX expression was limited to immature tissues of mesodermal origin and the skin and ependymal cells. The only tissues that persistently expressed CAIX protein were coelomic epithelium (mesothelium) and its remnants, the epithelium of the stomach and biliary tree, glands and crypt cells of duodenum and small intestine, and the cells located at those sites previously identified as harboring adult stem cells in, for example, the skin and large intestine. In many instances co-localization of CAIX and HIF-1 alpha was not evident. CAXII expression is restricted to cells involved in secretion and water absorption such as parietal cells of the stomach, acinar cells of the salivary glands and pancreas, epithelium of the large intestine, and renal tubules. Co-localization of CAXII with CAIX or HIF-1 alpha was not observed. Conclusion: The study has showed that: 1) HIF-1 alpha and CAIX expression co-localized in many, but not all, of the embryonic and early fetal tissues; 2) There is no evidence of co-localization of CAIX and CAXII; 3) CAIX and CAXII expression is closely related to cell origin and secretory activity involving proton transport, respectively. The intriguing finding of rare CAIX-expressing cells in those sites corresponding to stem cell niches requires further investigation.

Published
2009

16. Ascending central canal dilation and progressive ependymal disruption in a contusion model of rodent chronic spinal cord injury

Author

Radojicic, Milan, Nistor, Gabriel, and Keirstead, Hans S

Subjects
cerebrospinal-fluid flow, pressure wave-propagation, central-nervous-system, posttraumatic syringomyelia, adult-rat, animal-model, stem-cells, noncommunicating syringomyelia, neural progenitors, subarachnoid space
Abstract

Background: Chronic spinal cord injury (SCI) can lead to an insidious decline in motor and sensory function in individuals even years after the initial injury and is accompanied by a slow and progressive cytoarchitectural destruction. At present, no pathological mechanisms satisfactorily explain the ongoing degeneration. Methods: Adult female Sprague-Dawley rats were anesthetized laminectomized at T10 and received spinal cord contusion injuries with a force of 250 kilodynes using an Infinite Horizon Impactor. Animals were randomly distributed into 5 groups and killed 1 ( n = 4), 28 ( n = 4), 120 ( n = 4), 450 ( n = 5), or 540 ( n = 5) days after injury. Morphometric and immunohistochemical studies were then performed on 1 mm block sections, 6 mm cranial and 6 mm caudal to the lesion epicenter. The SPSS 11.5 t test was used to determine differences between quantitative measures. Results: Here, we document the first report of an ascending central canal dilation and progressive ependymal disruption cranial to the epicenter of injury in a contusion model of chronic SCI, which was characterized by extensive dural fibrosis and intraparenchymal cystic cavitation. Expansion of the central canal lumen beyond a critical diameter corresponded with ependymal cell ciliary loss, an empirically predictable thinning of the ependymal region, and a decrease in cell proliferation in the ependymal region. Large, aneurysmal dilations of the central canal were accompanied by disruptions in the ependymal layer, periependymal edema and gliosis, and destruction of the adjacent neuropil. Conclusion: Cells of the ependymal region play an important role in CSF homeostasis, cellular signaling and wound repair in the spinal cord. The possible effects of this ascending pathology on ependymal function are discussed. Our studies suggest central canal dilation and ependymal region disruption as steps in the pathogenesis of chronic SCI, identify central canal dilation as a marker of chronic SCI and provide novel targets for therapeutic intervention.

Published
2007

17. Neural progenitor cells from an adult patient with fragile X syndrome

Author

Schwartz, Philip H., Tassone, Flora, Greco, Claudia M., Nethercott, Hubert E., Ziaeian, Boback, Hagerman, Randi J., and Hagerman, Paul J.

Subjects
central-nervous-system, stem-cells, mental-retardation, human brain, cgg repeat, gene, model, establishment, instability, neurons
Abstract

Background: Currently, there is no adequate animal model to study the detailed molecular biochemistry of fragile X syndrome, the leading heritable form of mental impairment. In this study, we sought to establish the use of immature neural cells derived from adult tissues as a novel model of fragile X syndrome that could be used to more fully understand the pathology of this neurogenetic disease. Methods: By modifying published methods for the harvest of neural progenitor cells from the post-mortem human brain, neural cells were successfully harvested and grown from post-mortem brain tissue of a 25-year-old adult male with fragile X syndrome, and from brain tissue of a patient with no neurological disease. Results: The cultured fragile X cells displayed many of the characteristics of neural progenitor cells, including nestin and CD133 expression, as well as the biochemical hallmarks of fragile X syndrome, including CGG repeat expansion and a lack of FMRP expression. Conclusion: The successful production of neural cells from an individual with fragile X syndrome opens a new avenue for the scientific study of the molecular basis of this disorder, as well as an approach for studying the efficacy of new therapeutic agents.

Published
2005

18. Eosinophils regulate adipose tissue inflammation and sustain physical and immunological fitness in old age

Author

Noemi Zbären, Neill R. Graff-Radford, Peter M. Villiger, Alicia Shiu, Mario Noti, Johan Auwerx, Pascal Guntern, Zhaoqing Ding, Norman Moullan, Federico Storni, Hanadie Yousef, Joseph M. Castellano, Alexander Eggel, Denis Grandgirard, Markus Britschgi, Wilhelm Hofstetter, Magdalena Hinterbrandner, Robin van Brummelen, Mark Siegrist, Stephen L. Leib, Pascal Gasser, Daniel Brigger, Saul A. Villeda, Kira I. Mosher, Tony Wyss-Coray, and Carsten Riether

Subjects
Adoptive cell transfer, Aging, Endocrinology, Diabetes and Metabolism, rejuvenation, Adipose tissue, White, Inbred C57BL, stem-cells, Mice, perspectives, Medicine, Homeostasis, 610 Medicine & health, t-cells, Middle Aged, macrophages, Satellite Cells, medicine.anatomical_structure, Adipose Tissue, caloric restriction, medicine.symptom, Adult, Satellite Cells, Skeletal Muscle, Skeletal Muscle, Adipose Tissue, White, Inflammation, Article, insulin-resistance, Young Adult, Immune system, Immunity, increase, Physiology (medical), expression, Internal Medicine, Animals, Humans, Muscle Strength, Obesity, Aged, Nutrition, life-span, business.industry, Cell Biology, Eosinophil, Glucose Tolerance Test, Mice, Inbred C57BL, Eosinophils, Gene Expression Regulation, Ageing, Physical Fitness, Immunology, 570 Life sciences, biology, Interleukin-4, business
Abstract

Adipose tissue eosinophils (ATEs) are important in the control of obesity-associated inflammation and metabolic disease. However, the way in which ageing impacts the regulatory role of ATEs remains unknown. Here, we show that ATEs undergo major age-related changes in distribution and function associated with impaired adipose tissue homeostasis and systemic low-grade inflammation in both humans and mice. We find that exposure to a young systemic environment partially restores ATE distribution in aged parabionts and reduces adipose tissue inflammation. Approaches to restore ATE distribution using adoptive transfer of eosinophils from young mice into aged recipients proved sufficient to dampen age-related local and systemic low-grade inflammation. Importantly, restoration of a youthful systemic milieu by means of eosinophil transfers resulted in systemic rejuvenation of the aged host, manifesting in improved physical and immune fitness that was partially mediated by eosinophil-derived IL-4. Together, these findings support a critical function of adipose tissue as a source of pro-ageing factors and uncover a new role of eosinophils in promoting healthy ageing by sustaining adipose tissue homeostasis.

Published
2020

19. Cellular Senescence in Livers from Children with End Stage Liver Disease

Author

Guillermo Robles Díaz, Claudia Gonzalez Rosado, Blanca Farfan Labonne, Ruy Pérez Tamayo, Rosalinda Martinez Garcia, Jonathan Aguirre Valadez, Pedro Valencia, Gabriela Gutierrez-Reyes, Albert Zlotnik, Maria del Carmen Garcia de Leon, Gabriela Togno Latour, Dana Lau Corona, David Kershenobich, Gustavo Varela-Fascinetto, and Norma Morales Rochilin

Subjects
Senescence, Cyclin-Dependent Kinase Inhibitor p21, Liver Cirrhosis, medicine.medical_specialty, Pathology, Pathology/Histopathology, Cirrhosis, medicine.medical_treatment, lcsh:Medicine, markers, Liver transplantation, Biology, Gastroenterology, in-vivo, Gastroenterology and Hepatology/Hepatology, stem-cells, replicative senescence, Fulminant hepatic failure, Canals of Hering, Biliary atresia, Biliary Atresia, Internal medicine, expression, medicine, Medicine and Health Sciences, Humans, Fulminant hepatitis, lcsh:Science, Child, Cellular Senescence, Cyclin-Dependent Kinase Inhibitor p16, Multidisciplinary, dna-damage, Tyrosinemias, lcsh:R, hepatitis-c, p16(ink4a), Cell Biology, Liver Failure, Acute, medicine.disease, Liver Transplantation, Interlobular bile ducts, Liver, biomarker, lcsh:Q, hepatocytes, Tumor Suppressor Protein p53, Liver Failure, Research Article
Abstract

BACKGROUND: Senescent cells occur in adults with cirrhotic livers independent of the etiology. AIM: Investigate the presence rate of cellular senescence and expression of cell cycle check points in livers from children with end stage disease. METHODOLOGY/PRINCIPAL FINDINGS: Livers of five children aged three years or less undergoing liver transplantation due to tyrosinemia (n = 1), biliary atresia (n = 2), or fulminant hepatitis (n = 2) were analyzed for senescence associated beta-galactosidase (SA-betagal) activity and p16INK4a, p21cip1 and p53. All livers displayed positive cellular staining for SA-betagal in the canals of Hering and interlobular biliary ducts. In the presence of cirrhosis (3/5 cases) SA-betagal was found at the cholangioles and hepatocytes surrounding the regenerative nodules. Children with fulminant hepatic failure without cirrhosis had significant ductular transformation with intense SA-betagal activity. No SA-betagal activity was evident in the fibrous septa. Staining for p53 had a similar distribution to that observed for SA-betagal. Staining for p16(INK4a) and p21(cip1) was positive in the explanted liver of the patient with tyrosinemia, in the hepatocytes, the canals of Hering, cholangioles and interlobular bile ducts. In the livers with fulminant hepatitis, p21(cip1) staining occurred in the areas of ductular transformation and in the interlobular bile ducts. CONCLUSIONS/SIGNIFICANCE: Cellular senescence in livers of children with end stage disease is associated with damage rather than corresponding to an age dependent phenomenon. Further studies are needed to support the hypothesis that these senescence markers correlate with disease progression.

Published
2010

20. Expression of transmembrane carbonic anhydrases, CAIX and CAXII, in human development

Author

Eric J. Stanbridge, Shu-Yuan Liao, and Michael I. Lerman

Subjects
diagnostic biomarker, cell carcinoma, Cellular differentiation, Embryonic Development, xii, Biology, stem-cells, 03 medical and health sciences, Fetus, 0302 clinical medicine, Carbonic anhydrase, medicine, Humans, Child, Hypoxia, lcsh:QH301-705.5, Transcription factor, mn/ca ix, Carbonic Anhydrases, 030304 developmental biology, marker, 0303 health sciences, hypoxia, Infant, Newborn, Gene Expression Regulation, Developmental, Infant, Life Sciences, Hypoxia (medical), Transmembrane protein, Cell biology, lcsh:Biology (General), Child, Preschool, 030220 oncology & carcinogenesis, Immunology, biology.protein, identification, Stem cell, medicine.symptom, protein, Developmental biology, Research Article, Developmental Biology, human gut
Abstract

Background Transmembrane CAIX and CAXII are members of the alpha carbonic anhydrase (CA) family. They play a crucial role in differentiation, proliferation, and pH regulation. Expression of CAIX and CAXII proteins in tumor tissues is primarily induced by hypoxia and this is particularly true for CAIX, which is regulated by the transcription factor, hypoxia inducible factor-1 (HIF-1). Their distributions in normal adult human tissues are restricted to highly specialized cells that are not always hypoxic. The human fetus exists in a relatively hypoxic environment. We examined expression of CAIX, CAXII and HIF-1α in the developing human fetus and postnatal tissues to determine whether expression of CAIX and CAXII is exclusively regulated by HIF-1. Results The co-localization of CAIX and HIF-1α was limited to certain cell types in embryonic and early fetal tissues. Those cells comprised the primitive mesenchyma or involved chondrogenesis and skin development. Transient CAIX expression was limited to immature tissues of mesodermal origin and the skin and ependymal cells. The only tissues that persistently expressed CAIX protein were coelomic epithelium (mesothelium) and its remnants, the epithelium of the stomach and biliary tree, glands and crypt cells of duodenum and small intestine, and the cells located at those sites previously identified as harboring adult stem cells in, for example, the skin and large intestine. In many instances co-localization of CAIX and HIF-1α was not evident. CAXII expression is restricted to cells involved in secretion and water absorption such as parietal cells of the stomach, acinar cells of the salivary glands and pancreas, epithelium of the large intestine, and renal tubules. Co-localization of CAXII with CAIX or HIF-1α was not observed. Conclusion The study has showed that: 1) HIF-1α and CAIX expression co- localized in many, but not all, of the embryonic and early fetal tissues; 2) There is no evidence of co-localization of CAIX and CAXII; 3) CAIX and CAXII expression is closely related to cell origin and secretory activity involving proton transport, respectively. The intriguing finding of rare CAIX-expressing cells in those sites corresponding to stem cell niches requires further investigation.

Published
2009
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