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299 results on '"Cell research -- Methods"'

1. New Findings on Carcinomas Described by Investigators at East China University of Science and Technology (A Systematic Evaluation of Quenching and Extraction Procedures for Quantitative Metabolome Profiling of Hela Carcinoma Cell Under 2d and ...)

Subjects
Cell research -- Methods, Cancer cells -- Physiological aspects, Metabolomics -- Methods, Health
Abstract

2023 APR 8 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators discuss new findings in Oncology - Carcinomas. According to news reporting [...]

Published
2023

2. Studies from Shenzhen University Further Understanding of Cancer (Cryopreservable Through-hole Arrays for the High-throughput Three-dimensional Smartphone-based Cell Colorimetric Assay)

Subjects
Oncology, Experimental -- Methods, Colorimetric analysis -- Methods, Cell research -- Methods, High-throughput screening (Biochemical assaying) -- Methods -- Equipment and supplies, Cancer -- Research, Health
Abstract

2023 MAR 25 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Cancer have been published. According to news originating [...]

Published
2023

3. The chimaera challenge

Author

Drew, Liam

Subjects
Cell research -- Methods, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The ability to develop animals that have human organs could save the lives of people waiting for transplants, but ethical issues still need to be faced. The ability to develop animals that have human organs could save the lives of people waiting for transplants, but ethical issues still need to be faced., Author(s): Liam Drew Author Affiliations: Credit: Markos Kay Artisitic representation of chimaeric cells The chimaera challenge It's 2036, and you have kidney failure. Until recently, this condition meant months or [...]

Published
2021
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4. Findings on Cancer Reported by Investigators at Beihang University (Sensitive Interrogation of Enhancer Activity In Living Cells On a Nanoelectroporation-probing Platform)

Subjects
Electroporation -- Usage, Oncology, Experimental -- Methods, Cell research -- Methods, Nucleotides -- Physiological aspects -- Health aspects, Cancer -- Research, Health
Abstract

2022 DEC 31 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Cancer have been published. According to news reporting [...]

Published
2022

6. Single-cell analysis enters the multiomics age

Author

Perkel, Jeffrey M.

Subjects
Genomics -- Research, Cell research -- Methods, Cells -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

A rapidly growing collection of software tools is helping researchers to analyse multiple huge '-omics' data sets. A rapidly growing collection of software tools is helping researchers to analyse multiple huge '-omics' data sets., Author(s): Jeffrey M. Perkel Author Affiliations: Single-cell analysis enters the multiomics age Single-cell data (top) increasingly are being combined with spatial information (bottom). Credit: 10x Genomics Two sheets of visual [...]

Published
2021
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9. Cell Painting speeds drug discovery: A public-private consortium has released a huge collection of image-based cell profiles

Author

Landhuis, Esther

Subjects
Cell research -- Methods, Drug discovery -- Innovations, Consortia -- Aims and objectives, Consortium, Business, Computers and office automation industries, High technology industry
Abstract

One of the earliest stages in the process of identifying a potential new drug is to expose cells to the compound in a lab dish and scour microscope images to [...]

Published
2023

13. Measurement of adherent cell mass and growth

Author

Park, Kidong, Millet, Larry J., Kim, Namjung, Li, Huan, Jin, Xiaozhong, Popescu, Gabriel, Aluru, N.R., Hsia, K. Jimmy, and Bashir, Rashid

Subjects
Cell research -- Methods, Biosensors -- Usage, Cell division -- Observations, Science and technology
Abstract

The characterization of physical properties of cells such as their mass and stiffness has been of great interest and can have profound implications in cell biology, tissue engineering, cancer, and disease research. For example, the direct dependence of cell growth rate on cell mass for individual adherent human cells can elucidate the mechanisms underlying cell cycle progression. Here we develop an array of micro-electro-mechanical systems (MEMS) resonant mass sensors that can be used to directly measure the biophysical properties, mass, and growth rate of single adherent cells. Unlike conventional cantilever mass sensors, our sensors retain a uniform mass sensitivity over the cell attachment surface. By measuring the frequency shift of the mass sensors with growing (soft) cells and fixed (stiff) cells, and through analytical modeling, we derive the Young's modulus of the unfixed cell and unravel the dependence of the cell mass measurement on cell stiffness. Finally, we grew individual cells on the mass sensors and measured their mass for 50+ hours. Our results demonstrate that adherent human colon epithelial cells have increased growth rates with a larger cell mass, and the average growth rate increases linearly with the cell mass, at 3.25%/hr. Our sensitive mass sensors with a position-independent mass sensitivity can be coupled with microscopy for simultaneous monitoring of cell growth and status, and provide an ideal method to study cell growth, cell cycle progression, differentiation, and apoptosis. cell mechanics | cell division | bio-sensor doi/ 10.1073/pnas.1011365107

Published
2010

14. Multipotential hematopoietic blast colony-forming cells exhibit delays in self-generation and lineage commitment

Author

Metcalf, Donald, Ng, Ashley, Mifsud, Sandra, and Di Rago, Ladina

Subjects
Cells -- Properties, Spleen -- Medical examination, Bone marrow cells -- Properties, Eosinophils -- Properties, Cell research -- Methods, Science and technology
Abstract

Murine hematopoietic blast colony-forming cells (BL-CFCs) are able to generate up to 30,000 progeny blast cells within 10 d in agar cultures. Contained in these populations are large numbers of lineage-committed progenitor cells in the granulocytic and macrophage lineages. Sequential analyses of blast colonies revealed that self-generation of BL-CFCs occurs but is surprisingly late in clonal expansion, as is the emergence of progenitor cells committed to megakaryocytic and eosinophil lineages. Self-generating BL-CFCs were highly enriched in [lineage.sup.-] [Kit.sup.+] [Sca1.sup.+] [CD34.sup.-] [Flt3R.sup.-] populations, and colonies generated by such cells contained colony-forming units--spleen and formed erythroid and lymphoid progeny in vivo. The data suggest the existence of a hierarchical structure in BL-CFC populations with at least a subset being cells assayable as colony-forming units-spleen. Because BL-CFCs can self-generate and are able to generate lymphoid and myeloid populations, BL-CFCs appear to be ideal cells in which to analyze the processes of self-generation and lineage commitment in clonal in vitro cultures. colony-forming units-spleen | megakaryocytes | eosinophils www.pnas.org/cgi/doi/ 10.1073/pnas.1011881107

Published
2010

15. Reverse engineering dynamic temporal models of biological processes and their relationships

Author

Ramakrishnan, Naren, Tadepalli, Satish, Watson, Layne T., Helm, Richard F., Antoniotti, Marco, and Mishra, Bud

Subjects
Reverse engineering -- Research, Electronic data processing -- Methods, Cell cycle -- Models, Yeast fungi -- Physiological aspects, Yeast fungi -- Models, Cell research -- Methods, Science and technology
Abstract

Biological processes such as circadian rhythms, cell division, metabolism, and development occur as ordered sequences of events. The synchronization of these coordinated events is essential for proper cell function, and hence the determination of critical time points in biological processes is an important component of all biological investigations. In particular, such critical time points establish logical ordering constraints on subprocesses, impose prerequisites on temporal regulation and spatial compartmentalization, and situate dynamic reorganization of functional elements in preparation for subsequent stages. Thus, building temporal phenomenological representations of biological processes from genome-wide datasets is relevant in formulating biological hypotheses on: how processes are mechanistically regulated; how the regulations vary on an evolutionary scale, and how their inadvertent disregulation leads to a diseased state or fatality. This paper presents a general framework (GOALIE) to reconstruct temporal models of cellular processes from time-course gene expression data. We mathematically formulate the problem as one of optimally segmenting datasets into a succession of 'informative' windows such that time points within a window expose concerted clusters of gene action whereas time points straddling window boundaries constitute points of significant restructuring. We illustrate here how GOALIE successfully brings out the interplay between multiple yeast processes, inferred from combined experimental datasets for the cell cycle and the metabolic cycle. model building and model-checking | temporal data analysis | yeast cell cycle | yeast metabolic cycle | Kripke structures doi/10.1073/pnas.1006283107

Published
2010

16. Mitochondrial iron trafficking and the integration of iron metabolism between the mitochondrion and cytosol

Author

Richardson, Des R., Lane, Darius J.R., Becker, Erika M., Huang, Michael L.- H., Whitnall, Megan, Rahmanto, Yohan Suryo, Sheftel, Alex D., and Ponka, Prem

Subjects
Mitochondria -- Properties, Iron in the body -- Properties, Cell metabolism -- Observations, Cytosol -- Properties, Cell research -- Methods, Science and technology
Abstract

The mitochondrion is well known for its key role in energy transduction. However, it is less well appreciated that it is also a focal point of iron metabolism. Iron is needed not only for heme and iron sulfur cluster (ISC)- containing proteins involved in electron transport and oxidative phosphorylation, but also for a wide variety of cytoplasmic and nuclear functions, including DNA synthesis. The mitochondrial pathways involved in the generation of both heme and ISCs have been characterized to some extent. However, little is known concerning the regulation of iron uptake by the mitochondrion and how this is coordinated with iron metabolism in the cytosol and other organelles (e.g., lysosomes). In this article, we discuss the burgeoning field of mitochondrial iron metabolism and trafficking that has recently been stimulated by the discovery of proteins involved in mitochondrial iron storage (mitochondrial ferritin) and transport (mitoferrin-1 and -2). In addition, recent work examining mitochondrial diseases (e.g., Friedreich's ataxia) has established that communication exists between iron metabolism in the mit0chondrion and the cytosol. This finding has revealed the ability of the mitochondrion to modulate whole-cell iron-processing to satisfy its own requirements for the crucial processes of heme and ISC synthesis. Knowledge of mitochondrial iron-processing pathways and the interaction between organelles and the cytosol could revolutionize the investigation of iron metabolism. iron sulfur cluster | heine | Friedreich's ataxia | frataxin | sideroblastic anemia doi/ 10.1073/pnas.0912925107

Published
2010

17. A robust cell cycle control mechanism limits E2F-induced proliferation of terminally differentiated cells in vivo

Author

Buttitta, Laura A., Katzaroff, Alexia J., and Edgar, Bruce A.

Subjects
Cell cycle -- Observations, Cell research -- Methods, Biological sciences
Abstract

Terminally differentiated cells in Drosophila melanogaster wings and eyes are largely resistant to proliferation upon deregulation of either E2F or cyclin E (CycE), but exogenous expression of both factors together can bypass cell cycle exit. In this study, we show this is the result of cooperation of cell cycle control mechanisms that limit E2F-CycE positive feedback and prevent cycling after terminal differentiation. Aberrant CycE activity after differentiation leads to the degradation of E2F activator complexes, which increases the proportion of CycE-resistant E2F repressor complexes, resulting in stable E2F target gene repression. If E2F-dependent repression is lost after differentiation, high anaphase-promoting complex/cyclosome (APC/C) activity degrades key E2F targets to limit cell cycle reentry. Providing both CycE and E2F activities bypasses exit by simultaneously inhibiting the APC/C and inducing a group of E2F target genes essential for cell cycle reentry after differentiation. These mechanisms are essential for proper development, as evading them leads to tissue outgrowths composed of dividing but terminally differentiated cells. doi/10.1083/jcb.200910006

Published
2010

18. Disclosure and sickle cell disorder: A mixed methods study of the young person with sickle cell at school

Author

Dyson, Simon Martin, Atkin, Karl, Culley, Lorraine A., Dyson, Sue E., Evans, Hala, and Rowley, Dave T.

Subjects
Cell research -- Methods, Cell research -- Analysis, Medical research -- Methods, Medical research -- Analysis, Medicine, Experimental -- Methods, Medicine, Experimental -- Analysis, Sickle cell anemia -- Methods, Sickle cell anemia -- Analysis, Teachers -- Methods, Teachers -- Analysis, Health, Social sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.socscimed.2010.03.010 Byline: Simon Martin Dyson (a), Karl Atkin (b), Lorraine A. Culley (a), Sue E. Dyson (a), Hala Evans (a), Dave T. Rowley (a) Abstract: Sickle cell is a leading genetic condition, both globally and in England. Little research has been conducted into the experiences of young people with sickle cell at school. A mixed methods study (May 2007-September 2008) based on 569 questionnaires and 40 taped interviews with young people living with sickle cell disorder (SCD) in England found that students with SCD are faced with a dilemma as to whether or not to disclose their sickle cell to teachers and pupils: the latent and hidden characteristics of their symptoms make it possible, in Goffmanesque terms, to 'pass'. However the variable and unpredictable course of sickle cell is a reminder of Goffman's notion of being 'discreditable'. We found that teacher or pupil knowledge that a young person has sickle cell is not statistically associated with reported better treatment of young people with SCD at school. Analysis of interviews suggests most young people favour disclosing their sickle cell status (on the basis that teachers will then know what actions to take in the face of bouts of illness and in terms of making allowances for illness or school absences). A minority disagreed because disclosure was felt to attract unwarranted attention or disabling attitudes. Attitudes to disclosing to peers were more varied: either for or against disclosure to peers, or ambivalent in that they felt a tension between acknowledging the reality of their sickle cell, and not wanting it to be a central part of their identity. Some health promotion advice appears to assume that teacher and/or peer awareness is the key to improving school experience for young people with SCD, but this is not borne out by this study. Rather a change in wider school environments is required such that young people with SCD are supported irrespective of whether they themselves foreground or play down their disabled identity. Author Affiliation: (a) De Montfort University, Leicester, UK (b) University of York, York, UK

Published
2010

19. Function of Apollo (SNM1B) at telomere highlighted by a splice variant identified in a patient with Hoyeraal-Hreidarsson syndrome

Author

Touzot, Fabien, Callebaut, Isabelle, Soulier, Jean, Galliard, Laetitia, Azerrad, Chantal, Durandy, Anne, Fischer, Alain, de Villartay, Jean-Pierre, and Revy, Patrick

Subjects
Telomeres -- Properties, Child development deviations -- Diagnosis, Child development deviations -- Development and progression, Developmental disabilities -- Diagnosis, Developmental disabilities -- Development and progression, Homology (Biology) -- Research, Cell research -- Methods, Science and technology
Abstract

Telomeres, the protein--DNA complexes at the ends of linear chromosomes, are protected and regulated by the shelterin molecules, the telomerase complex, and other accessory factors, among which is Apollo, a DNA repair factor of the [beta]-lactamase/[beta]-CASP family. Impaired telomere protection in humans causes dyskeratosis congenita and Hoyeraal--Hreidarsson (HH) syndrome, characterized by premature aging, bone marrow failure, and immunodeficiency. We identified a unique Apollo splice variant (designated Apollo-[DELTA]) in fibroblasts from a patient with HH syndrome. Apollo-[DELTA] generates a dominant negative form of Apollo lacking the telomeric repeat-binding factor homology (TRFH)-binding motif (TBM) required for interaction with the shelterin TRF2 at telomeres. Apollo-[DELTA] hampers the proper replication of telomeres, leading to major telomeric dysfunction and cellular senescence, but maintains its DNA interstrand cross-link repair function in the whole genome. These results identify Apollo as a crucial actor in telomere maintenance in vivo, independent of its function as a general DNA repair factor. telomeric repeat-binding factor homology-binding motif | TRF2 doi/ 10.1073/pnas.0914918107

Published
2010

20. The structure of the Myo4p globular tail and its function in ASH1 mRNA localization

Author

Heuck, Alexander, Fetka, Ingrid, Brewer, Daniel N., Huls, Daniela, Munson, Mary, Jansen, Ralf-Peter, and Niessing, Dierk

Subjects
Messenger RNA -- Structure, Myosin -- Properties, Cell research -- Methods, Muscle proteins -- Properties, Biological sciences
Abstract

Type V myosin (MyoV)-dependent transport of cargo is an essential process in eukaryotes. Studies on yeast and vertebrate MyoV showed that their globular tails mediate binding to the cargo complexes. In Saccharomyces cerevisiae, the MyoV motor Myo4p interacts with She3p to localize asymmetric synthesis of HO 1 (ASH1) mRNA into the bud of dividing cells. A recent study showed that localization of GFP-MS2-tethered ASH1 particles does not require the Myo4p globular tail, challenging the supposed role of this domain. We assessed ASH1 mRNA and Myo4p distribution more directly and found that their localization is impaired in cells expressing globular tail-lacking Myo4p. In vitro studies further show that the globular tail together with a more N-terminal linker region is required for efficient She3p binding. We also determined the x-ray structure of the Myo4p globular tail and identify a conserved surface patch important for She3p binding. The structure shows pronounced similarities to membrane-tethering complexes and indicates that Myo4p may not undergo auto-inhibition of its motor domain. doi/ 10.1083/jcb.201002076

Published
2010

21. [alpha]v[beta]3 integrin spatially regulates VASP and RIAM to control adhesion dynamics and migration

Author

Worth, Daniel C., Hodivala-Dilke, Kairbaan, Robinson, Stephen D., King, Samantha J., Morton, Penny E., Gertler, Frank B., Humphries, Martin J., and Parsons, Maddy

Subjects
Integrins -- Properties, Cell research -- Methods, Biological sciences
Abstract

Integrins are fundamental to the control of protrusion and motility in adherent cells. However, the mechanisms by which specific members of this receptor family cooperate in signaling to cytoskeletal and adhesion dynamics are poorly understood. Here, we show that the loss of [beta]3 integrin in fibroblasts results in enhanced focal adhesion turnover and migration speed but impaired directional motility on both 2D and 3D matrices. These motility defects are coupled with an increased rate of actin-based protrusion. Analysis of downstream signaling events reveals that loss of [beta]3 integrin results in a loss of protein kinase A--dependent phosphorylation of the actin regulatory protein vasodilator-stimulated phosphoprotein (VASP). Dephosphorylated VASP in [beta]3-null cells is preferentially associated with Rap1-GTP--interacting adaptor molecule (RIAM) both in vitro and in vivo, which leads to enhanced formation of a VASP--RIAM complex at focal adhesions and subsequent increased binding of talin to [beta]1 integrin. These data demonstrate a novel mechanism by which [alpha]v[beta]3 integrin acts to locally suppress [beta]1 integrin activation and regulate protrusion, adhesion dynamics, and persistent migration. doi/10.1083/jcb.200912014

Published
2010

22. I-BAR protein antagonism of endocytosis mediates directional sensing during guided cell migration

Author

Quinones, Gabriel A., Jin, Janet, and Oro, Anthony E.

Subjects
Cell research -- Methods, Endocytosis -- Observations, Biological sciences
Abstract

Although directed cellular migration facilitates the coordinated movement of cells during development and repair, the mechanisms regulating such migration remain poorly understood. Missing-in-metastasis (MIM) is a defining member of the inverse Bin/Amphiphysin/Rvs domain (I-BAR) subfamily of lipid binding, cytoskeletal regulators whose levels are altered in a number of cancers. Here, we provide the first genetic evidence that an I-BAR protein regulates directed cell migration in vivo. Drosophila MIM (dmim) is involved in Drosophila border cell migration, with loss of dmim function resulting in a lack of directional movement by the border cell cluster. In vivo endocytosis assays combined with genetic analyses demonstrate that the dmim product regulates directed cell movement by inhibiting endocytosis and antagonizing the activities of the CD2-associated protein/cortactin complex in these cells. These studies demonstrate that DMIM antagonizes pro-endocytic components to facilitate polarity and localized guidance cue sensing during directional cell migration. doi/10.1083/jcb.200910136

Published
2010

23. Rho1 regulates apoptosis via activation of the JNK signaling pathway at the plasma membrane

Author

Neisch, Amanda L., Speck, Olga, Stronach, Beth, and Fehon, Richard G.

Subjects
Cell research -- Methods, Apoptosis -- Observations, Cell membranes -- Properties, Biological sciences
Abstract

Precisely controlled growth and morphogenesis of developing epithelial tissues require coordination of multiple factors, including proliferation, adhesion, cell shape, and apoptosis. RhoA, a small GTPase, is known to control epithelial morphogenesis and integrity through its ability to regulate the cytoskeleton. In this study, we examine a less well-characterized RhoA function in cell survival. We demonstrate that the Drosophila melanogaster RhoA, Rho1, promotes apoptosis independently of Rho kinase through its effects on c-Jun N[H.sub.2]-terminal kinase (JNK) signaling. In addition, Rho1 forms a complex with Slipper (Slpr), an upstream activator of the JNK pathway. Loss of Moesin (Moe), an upstream regulator of Rho1 activity, results in increased levels of Rho1 at the plasma membrane and cortical accumulation of Slpr. Together, these results suggest that Rho1 functions at the cell cortex to regulate JNK activity and implicate Rho1 and Moe in epithelial cell survival. doi/10.1083/jcb.200912010

Published
2010

24. Hsp90--Sgt1 and Skp1 target human Mis12 complexes to ensure efficient formation of kinetochore--microtubule binding sites

Author

Davies, Alexander E. and Kaplan, Kenneth B.

Subjects
Cell research -- Methods, Kinetochores -- Properties, Biological sciences
Abstract

The formation of functional kinetochores requires the accurate assembly of a large number of protein complexes. The Hsp90--Sgt1 chaperone complex is important for this process; however, its targets are not conserved and its exact contribution to kinetochore assembly is unclear. Here, we show that human Hsp90--Sgt1 interacts with the Mis12 complex, a so-called keystone complex required to assemble a large fraction of the kinetochore. Inhibition of Hsp90 or Sgt1 destabilizes the Mis12 complex and delays proper chromosome alignment due to inefficient formation of microtubule-binding sites. Interestingly, coinhibition of Sgt1 and the SCF subunit, Skp1, increases Mis12 complexes at kinetochores and restores timely chromosome alignment but forms less-robust microtubule-binding sites. We propose that a balance of Mis12 complex assembly and turnover is required for the efficient and accurate assembly of kinetochore--microtubule binding sites. These findings support a novel role for Hsp90--Sgt1 chaperones in ensuring the fidelity of multiprotein complex assembly. doi/10.1083/jcb.200910036

Published
2010

25. A dual function for chaperones SSB--RAC and the NAC nascent polypeptide--associated complex on ribosomes

Author

Koplin, Ansgar, Preissler, Steffen, Ilina, Yulia, Koch, Miriam, Scior, Annika, Erhardt, Marc, and Deuerling, Elke

Subjects
Cell research -- Methods, Heat shock proteins -- Properties, Biological sciences
Abstract

The yeast Hsp70/40 system SSB--RAC (stress 70 B-ribosome-associated complex) binds to ribosomes and contacts nascent polypeptides to assist co-translational folding. In this study, we demonstrate that nascent polypeptide-associated complex (NAC), another ribosome-tethered system, is functionally connected to SSB-RAC and the cytosolic Hsp70 network. Simultaneous deletions of genes encoding NAC and SSB caused conditional loss of cell viability under protein-folding stress conditions. Furthermore, NAC mutations revealed genetic interaction with a deletion of Sse1, a nucleotide exchange factor regulating the cytosolic Hsp70 network. Cells lacking SSB or Sse1 showed protein aggregation, which is enhanced by additional loss of NAC; however, these mutants differ in their potential client repertoire. Aggregation of ribosomal proteins and biogenesis factors accompanied by a pronounced deficiency in ribosomal particles and translating ribosomes only occurs in ssb[DELTA] and nac[DELTA]ssb[DELTA] cells, suggesting that SSB and NAC control ribosome biogenesis. Thus, SSB--RAC and NAC assist protein folding and likewise have important functions for regulation of ribosome levels. These findings emphasize the concept that ribosome production is coordinated with the protein-folding capacity of ribosome-associated chaperones. doi/ 10.1083/jcb.200910074

Published
2010

26. Caveolin-1--dependent occludin endocytosis is required for TNF-induced tight junction regulation in vivo

Author

Marchiando, Amanda M., Shen, Le, Graham, W. Vallen, Weber, Christopher R., Schwarz, Brad T., Austin, Jotham R., II, Raleigh, David R., Guan, Yanfang, Watson, Alastair J.M., Montrose, Marshall H., and Turner, Jerrold R.

Subjects
Cell research -- Methods, Endocytosis -- Observations, Biological sciences
Abstract

Epithelial paracellular barrier function, determined primarily by tight junction permeability, is frequently disrupted in disease. In the intestine, barrier loss can be mediated by tumor necrosis factor ([alpha]) (TNF) signaling and epithelial myosin light chain kinase (MLCK) activation. However, TNF induces only limited alteration of tight junction morphology, and the events that couple structural reorganization to barrier regulation have not been defined. We have used in vivo imaging and transgenic mice expressing fluorescent-tagged occludin and ZO-1 fusion proteins to link occludin endocytosis to TNF-induced tight junction regulation. This endocytosis requires caveolin-1 and is essential for structural and functional tight junction regulation. These data demonstrate that MLCK activation triggers caveolin-1--dependent endocytosis of occludin to effect structural and functional tight junction regulation. doi/ 10.1083/jcb.200902153

Published
2010

27. CDK5RAP2 functions in centrosome to spindle pole attachment and DNA damage response

Author

Barr, Alexis R., Kilmartin, John V., and Gergely, Fanni

Subjects
DNA -- Properties, Cell research -- Methods, Biological sciences
Abstract

The centrosomal protein, CDK5RAP2, is mutated in primary microcephaly, a neurodevelopmental disorder characterized by reduced brain size. The Drosophila melanogaster homologue of CDK5RAP2, centrosomin (Cnn), maintains the pericentriolar matrix (PCM) around centrioles during mitosis. In this study, we demonstrate a similar role for CDK5RAP2 in vertebrate cells. By disrupting two evolutionarily conserved domains of CDK5RAP2, CNN1 and CNN2, in the avian B cell line DT40, we find that both domains are essential for linking centrosomes to mitotic spindle poles. Although structurally intact, centrosomes lacking the CNN1 domain fail to recruit specific PCM components that mediate attachment to spindle poles. Furthermore, we show that the CNN1 domain enforces cohesion between parental centrioles during interphase and promotes efficient DNA damage--induced G2 cell cycle arrest. Because mitotic spindle positioning, asymmetric centrosome inheritance, and DNA damage signaling have all been implicated in cell fate determination during neurogenesis, our findings provide novel insight into how impaired CDK5RAP2 function could cause premature depletion of neural stem cells and thereby microcephaly. doi/10.1083/jcb.200912163

Published
2010

28. Amyloidogenic light chains induce cardiomyocyte contractile dysfunction and apoptosis via a noncanonical p38[alpha] MAPK pathway

Author

Shi, Jianru, Guan, Jian, Jiang, Bingbing, Brenner, Daniel A., del Monte, Federica, Ward, Jennifer E., Connors, Lawreen H., Sawyer, Douglas B., Semigran, Marc J., Macgillivray, Thomas E., Seldin, David C., Falk, Rodney, and Liao, Ronglih

Subjects
Cell research -- Methods, Apoptosis -- Causes of, Glycoproteins -- Properties, Mitogen-activated protein kinases -- Properties, Heart cells -- Properties, Reactive oxygen species -- Properties, Heart -- Contraction, Heart -- Observations, Science and technology
Abstract

Patients with primary (AL) cardiac amyloidosis suffer from progressive cardiomyopathy with a median survival of less than 8 months and a 5-year survival of amyloid | cell death | heart failure | TAB1 | reactive oxygen species doi/10.1073/pnas.0912263107

Published
2010

29. Fission yeast and other yeasts as emergent models to unravel cellular aging in eukaryotes

Author

Roux, Antoine E., Chartrand, Pascal, Ferbeyre, Gerardo, and Rokeach, Luis A.

Subjects
Cell research -- Methods, Aging -- Models, Yeast fungi -- Physiological aspects, Yeast fungi -- Genetic aspects, Health, Seniors
Abstract

In the past years, simple organisms such as yeasts and worms have contributed a great deal to aging research. Studies pioneered in Saccharomyces cerevisiae were useful to elucidate a significant number of molecular mechanisms underlying cellular aging and to discover novel longevity genes. Importantly, these genes proved many times to be conserved in multicellular eukaryotes. Consequently, such discovery approaches are being extended to other yeast models, such as Schizosaccharomyces pombe, Candida albicans, Kluyveromyces lactis, and Cryptococcus neoformans. In fission yeast, researchers have found links between asymmetrical cell division and nutrient signaling pathways with aging. In this review, we discuss the state of knowledge on the mechanisms controlling both replicative and chronological aging in S pombe and the other emergent yeast models. Key Words: Longevity--Yeast--Schizosaccharomyces pombe--Candida albicans--Replicative life span--Chronological life span. doi: 10.1093/gerona/glp152

Published
2010
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30. Molecular priming of Lyn by GPVI enables an immune receptor to adopt a hemostatic role

Author

Schmaier, Alec A., Zou, Zhiying, Kazlauskas, Arunas, Emert-Sedlak, Lori, Fong, Karen P., Neeves, Keith B., Maloney, Sean F., Diamond, Scott L., Kunapuli, Satya P., Ware, Jerry, Brass, Lawrence F., Smithgall, Thomas E., Saksela, Kalle, and Kahn, Mark L.

Subjects
Hemostasis -- Observations, Cell receptors -- Properties, Cell research -- Methods, Substrates (Biochemistry) -- Properties, Science and technology
Abstract

The immune receptor signaling pathway is used by nonimmune cells, but the molecular adaptations that underlie its functional diversification are not known. Circulating platelets use the immune receptor homologue glycoprotein VI (GPVI) to respond to collagen exposed at sites of vessel injury. In contrast to immune cell responses, platelet activation must take place within seconds to successfully form thrombi in flowing blood. Here, we show that the GPVI receptor utilizes a unique intracellular proline-rich domain (PRD) to accelerate platelet activation, a requirement for efficient platelet adhesion to collagen under flow. The GPVI PRD specifically binds the Src-family kinase Lyn and directly activates it, presumably through SH3 displacement. In resting platelets, Lyn is constitutively bound to GPVI in an activated state and platelets lacking Lyn exhibit defective collagen adhesion like that of platelets with GPVI receptors lacking the PRD. These findings define a molecular priming mechanism that enables an immune-type receptor to adopt a hemostatic function. These studies also demonstrate that active kinases can constitutively associate with immune-type receptors without initiating signal transduction before receptor ligation, consistent with a recent molecular model of immune receptor signaling in which receptor ligation is required to bring active kinases to their receptor substrates. doi/10.1073/pnas.0906436106

Published
2009

31. Inositol pyrophosphate mediated pyrophosphorylation of AP3B1 regulates HIV-1 Gag release

Author

Azevedo, Cristina, Burton, Adam, Ruiz-Mateos, Ezequiel, Marsh, Mark, and Saiardi, Adolfo

Subjects
Inositol phosphates -- Properties, Kinesin -- Properties, Phosphorylation -- Observations, Cell research -- Methods, Science and technology
Abstract

High-energy inositol pyrophosphates, such as [IP.sup.7] (diphosphoinositol pentakisphosphate), can directly donate a [beta]-phosphate to a prephosphorylated serine residue generating pyrophosphorylated proteins. Here, we show that the [beta] subunit of AP-3, a clathrin-associated protein complex required for HIV-1 release, is a target of [IP.sub.7]-mediated pyrophosphoryiation. We have identified Kif3A, a motor protein of the kinesin superfamily, as an AP3B1-binding partner and demonstrate that Kif3A, like the AP-3 complex, is involved in an intracellular process required for HIV-1 Gag release. Importantly, [IP.sub.7]-mediated pyrophosphorylation of AP3B1 modulates the interaction with Kif3A and, as a consequence, affects the release of HIV-1 virus-like particles. This study identifies a cellular process that is regulated by [IP.sub.7]mediated pyrophosphorylation. phosphorylation | trafficking | kinesin doi/10.1073/pnas.0909176106

Published
2009

32. Acute in vivo exposure to interferon-[gamma] enables resident brain dendritic cells to become effective antigen presenting cells

Author

Gottfried-Blackmore, Andres, Kaunzner, Ulrike W., Idoyaga, Juliana, Felger, Judit C., McEwen, Bruce S., and Bulloch, Karen

Subjects
Antigens -- Properties, Cell research -- Methods, Interferon gamma -- Properties, Dendritic cells -- Properties, Science and technology
Abstract

Dendritic cells (DC) are the professional antigen presenting cells (APC) that bridge the innate and adaptive immune system. Previously, in a CD11c/EYFP transgenic mouse developed to study DC functions, we anatomically mapped and phenotypically characterized a discrete population of [EYFP.sup.+] cells within the microglia that we termed brain dendritic cells (bDC). In this study, we advanced our knowledge of the function of these cells in the CD11c/EYFP transgenic mouse and its chimeras, using acute stimuli of stereotaxically inoculated IFN[gamma] or IL-4 into the CNS. The administration of IFN[gamma], increased the number of [EYFP.sup.+]bDC but did not recruit peripheral DC into the CNS. IFN[gamma], but not IL-4, upregulated the expression levels of major histocompatibility class II (MHC-II). In addition, IFN[gamma]-activated [EYFP.sup.+]bDC induced antigen-specific naive CD4 T cells to proliferate and secrete Th1/Th17 cytokines. Activated bDC were also able to stimulate naive CD8 T cells. Collectively, these data reveal the Th1 cytokine IFN[gamma], but not the Th2 cytokine IL4, induces bDC to up-regulate MHC-II and become competent APC. doi/10.1073/pnas.0911509106

Published
2009

33. Quaternary structure of the human Cdt1-Geminin complex regulates DNA replication licensing

Author

De Marco, V., Gillespie, P.J., Li, A., Karantzelis, N., Christodoulou, E., Klompmaker, R., van Gerwen, S., Fish, A., Petoukhov, M.V., Iliou, M.S., Lygerou, Z., Medema, R.H., Blow, J.J., Svergun, D.I., Taraviras, S., and Perrakis, A.

Subjects
Cell research -- Methods, DNA replication -- Observations, Cell cycle -- Research, Science and technology
Abstract

All organisms need to ensure that no DNA segments are re-replicated in a single cell cycle. Eukaryotes achieve this through a process called origin licensing, which involves tight spatiotemporal control of the assembly of prereplicative complexes (pre-RCs) onto chromatin. Cdt1 is a key component and crucial regulator of pre-RC assembly. In higher eukaryotes, timely inhibition of Cdt1 by Geminin is essential to prevent DNA rereplication. Here, we address the mechanism of DNA licensing inhibition by Geminin, by combining X-ray crystallography, small-angle X-ray scattering, and functional studies in Xenopus and mammalian cells. Our findings show that the Cdt1:Geminin complex can exist in two distinct forms, a 'permissive' heterotrimer and an 'inhibitory' heterohexamer. Specific Cdt1 residues, buried in the heterohexamer, are important for licensing. We postulate that the transition between the heterotrimer and the heterohexamer represents a molecular switch between licensing-competent and licensing-defective states. solution structure | X-ray structure | pre-RC | cell cycle doi/10.1073/pnas.0905281106

Published
2009

34. A perinuclear actin cap regulates nuclear shape

Author

Khatau, Shyam B., Hale, Christopher M., Stewart-Hutchinson, P.J., Patel, Meet S., Stewart, Colin L., Searson, Peter C., Hodzic, Didier, and Wirtz, Denis

Subjects
Actin -- Properties, Fibroblasts -- Properties, Cell adhesion -- Observations, Cell research -- Methods, Science and technology
Abstract

Defects in nuclear morphology often correlate with the onset of disease, including cancer, progeria, cardiomyopathy, and muscular dystrophy. However, the mechanism by which a cell controls its nuclear shape is unknown. Here, we use adhesive micropatterned surfaces to control the overall shape of fibroblasts and find that the shape of the nucleus is tightly regulated by the underlying cell adhesion geometry. We found that this regulation occurs through a dome-like actin cap that covers the top of the nucleus. This cap is composed of contractile actin filament bundles containing phosphorylated myosin, which form a highly organized, dynamic, and oriented structure in a wide variety of cells. The perinuclear actin cap is specifically disorganized or eliminated by inhibition of actomyosin contractility and rupture of the LINC complexes, which connect the nucleus to the actin cap. The organization of this actin cap and its nuclear shape-determining function are disrupted in cells from mouse models of accelerated aging (progeria) and muscular dystrophy with distorted nuclei caused by alterations of A-type lamins. These results highlight the interplay between cell shape, nuclear shape, and cell adhesion mediated by the perinuclear actin cap. LINC complexes I nucleus www.pnas.org/cgi/doi/10.1073/pnas.0908686106

Published
2009

35. Fibulin-4 conducts proper elastogenesis via interaction with cross-linking enzyme lysyl oxidase

Author

Horiguchi, Masahito, Inoue, Tadashi, Ohbayashi, Tetsuya, Hirai, Maretoshi, Noda, Kazuo, Marmorstein, Lihua Y., Yabe, Daisuke, Takagi, Kyoko, Akama, Tomoya O., Kita, Toru, Kimura, Takeshi, and Nakamura, Tomoyuki

Subjects
Elastin -- Properties, Extracellular matrix -- Properties, Enzyme kinetics -- Research, Cell research -- Methods, Science and technology
Abstract

Great arteries, as well as lungs and skin, contain elastic fibers as important components to maintain their physiological functions. Although recent studies have revealed that a glycoprotein fibulin-4 (FBLN4) is indispensable for the assembly of mature elastic fibers, it remains to be elucidated how FBLN4 takes part in elastogenesis. Here, we report a dose-dependent requirement for FBLN4 in the development of the elastic fibers in arteries, and a specific role of FBLN4 in recruiting the elastin-cross-linking enzyme, lysyl oxidase (LOX). Reduced expression of Fbln4, which was achieved with a smooth muscle-specific Cre-mediated gene deletion, caused arterial stiffness. Electron-microscopic examination revealed disorganized thick elastic laminae with aberrant deposition of elastin. Aneurysmal dilation of the ascending aorta was found when the Fbln4 expression level was reduced to an even lower level, whereas systemic Fbln4 null mice died perinatally from rupture of the diaphragm. We also found a specific interaction between FBLN4 and the propeptide of LOX, which efficiently promotes assembly of LOX onto tropoelastin. These data suggest a mechanism of elastogenesis, in which a sufficient amount of FBLN4 is essential for tethering LOX to tropoelastin to facilitate cross-linking. development | elastin | extracellular matrix www.pnas.org/cgi/doi/10.1073/pnas.0908268106

Published
2009

36. Calcium influx is sufficient to induce muscular dystrophy through a TRPC-dependent mechanism

Author

Millay, Douglas P., Goonasekera, Sanjeewa A., Sargent, Michelle A., Maillet, Marjorie, Aronow, Bruce J., and Molkentin, Jeffery D.

Subjects
Muscles -- Properties, Muscular dystrophy -- Risk factors, Cell research -- Methods, Calcium, Dietary -- Properties, Science and technology
Abstract

Muscular dystrophy is a general term encompassing muscle disorders that cause weakness and wasting, typically leading to premature death. Membrane instability, as a result of a genetic disruption within the dystrophin-glycoprotein complex (DGC), is thought to induce myofiber degeneration, although the downstream mechanism whereby membrane fragility leads to disease remains controversial. One potential mechanism that has yet to be definitively proven in vivo is that unregulated calcium influx initiates disease in dystrophic myofibers. Here we demonstrate that calcium itself is sufficient to cause a dystrophic phenotype in skeletal muscle independent of membrane fragility. For example, overexpression of transient receptor potential canonical 3 (TRPC3) and the associated increase in calcium influx resulted in a phenotype of muscular dystrophy nearly identical to that observed in DGC-lacking dystrophic disease models, including a highly similar molecular signature of gene expression changes. Furthermore, transgene-mediated inhibition of TRPC channels in mice dramatically reduced calcium influx and dystrophic disease manifestations associated with the mdx mutation (dystrophin gene) and deletion of the [delta]-sarcoglycan (Scgd) gene. These results demonstrate that calcium itself is sufficient to induce muscular dystrophy in vivo, and that TRPC channels are key disease initiators downstream of the unstable membrane that characterizes many types of muscular dystrophy. fibrosis | necrosis | degeneration | skeletal muscle www.pnas.org/cgi/doi/10.1073/pnas.0906591106

Published
2009

37. Deterministic lateral displacement as a means to enrich large cells for tissue engineering

Author

Green, James V., Radisic, Milica, and Murthy, Shashi K.

Subjects
Tissue engineering -- Research, Cell research -- Methods, Separation (Technology) -- Methods, Chemistry
Abstract

The enrichment or isolation of selected cell types from heterogeneous suspensions is required in the area of tissue engineering. State of the art techniques utilized for this separation include preplating and sieve-based approaches that have limited ranges of purity and variable yield. Here, we present a deterministic lateral displacement (DLD) microfluidic device that is capable of separating large epithelial cells (17.3 [+ or -] 2.7 in diameter) from smaller fibroblast cells (13.7 [+ or -] 3.0 [micro]m in diameter) as a potential alternative approach. The mixed suspension examined is intended to represent the content of digested rat cardiac tissue, which contains equal proportions of cardiomyocyte (17.0 [+ or -] 4.0 [micro]m diameter) and nonmyocyte populations (12.0 [+ or -] 3.0 [micro]m diameter). High purity separation ( > 97%) of the larger cell type is achieved with 90% yield in a rapid and single-pass process. The significance of this work lies in the recognition that DLD design principles can be applied for the microfluidic enrichment of large cells, up to the 40 [micro]m diameter level examined in this work. 10.1021/ac9018395

Published
2009

38. Miz1 is a signal- and pathway-specific modulator or regulator (SMOR) that suppresses TNF-[alpha]-induced JNK1 activation

Author

Liu, Jing, Zhao, Yingming, Eilers, Martin, and Lin, Anning

Subjects
Mitogen-activated protein kinases -- Properties, Tumor necrosis factor -- Properties, Cell research -- Methods, Science and technology
Abstract

The proinflammatory cytokine TNF-[alpha] exerts its pleiotropic functions through activation of multiple downstream effectors, including JNK1. Yet, the underlying regulatory mechanism is incompletely understood. Here, we report that the transcription factor Myc-interacting zinc-finger protein 1 (Miz1) selectively suppresses TNF-[alpha]-induced JNK1 activation and cell death independently of its transcription activity. Proteomics analysis and yeast two-hybrid screening reveal that Mizl is a JNK-associated protein. The TNF-[alpha]induced activation of JNK1 is augmented in Miz1-deficient mouse embryonic fibroblasts ([Miz1.sup.-/-] MEFs), but the augmentation is abrogated by reintroduction of Miz1 or its transcription-deficient mutant. The regulation by Miz1 is highly specific, because it regulates TNF-[alpha]-induced TRAF2 K63-linked polyubiquitination. Neither JNK1 activation by IL-1[beta] or UV nor TNF-[alpha]-induced activation of p38, ERK, or I[kappa]B kinase complex is affected by the loss of Miz1. The TNF-[alpha]-induced cell death also is accelerated in [Miz1.sup.-/-] MEFs. Upon TNF-[alpha] stimulation, Miz1 is degraded rapidly by the proteasome, relieving its suppression on JNK1 activation. Thus, our results show that in addition to being a transcription factor Miz1 acts as a signal-and pathway-specific modulator or regulator that specifically regulates TNF-[alpha]-induced JNK1 activation and cell death. doi/10.1073/pnas.0906328106

Published
2009

39. Continuous imaging of plasmon rulers in live cells reveals early-stage caspase-3 activation at the single-molecule level

Author

Jun, Young-wook, Sheikholeslami, Sassan, Hostetter, Daniel R., Tajon, Cheryl, Craik, Charles S., and Alivisatos, A. Paul

Subjects
Computational biology -- Research, Microscope and microscopy -- Methods, Cell research -- Methods, Science and technology
Abstract

The use of plasmon coupling in metal nanopartides has shown great potential for the optical characterization of many biological processes. Recently, we have demonstrated the use of 'plasmon rulers' to observe conformational changes of single biomolecules in vitro. Plasmon rulers provide robust signals without photo-bleaching or blinking. Here, we show the first application of plasmon rulers to in vivo studies to observe very long trajectories of single biomolecules in live cells. We present a unique type of plasmon ruler comprised of peptide-linked gold nanoparticle satellites around a core particle, which was used as a probe to optically follow cell-signaling pathways in vivo at the single-molecule level. These 'crown nanoparticle plasmon rulers' allowed us to continuously monitor trajectories of caspase-3 activity in live cells for over 2 h, providing sufficient time to observe early-stage caspase-3 activation, which was not possible by conventional ensemble analyses. caspase | live cell imaging | plasmonic nanoparticles | protease sensor | single-molecule imaging doi/ 10.1073/pnas.0907367106

Published
2009

40. Structural organization of Weibel-Palade bodies revealed by cryo-EM of vitrified endothelial cells

Author

Berriman, John A., Li, Sam, Hewlett, Lindsay J., Wasilewski, Sebastian, Kiskin, Fedir N., Carter, Tom, Hannah, Matthew J., and Rosenthal, Peter B.

Subjects
Von Willebrand factor -- Properties, Endothelium -- Properties, Cryoelectron microscopy -- Methods, Cell research -- Methods, Science and technology
Abstract

In endothelial cells, the multifunctional blood glycoprotein von Willebrand Factor (VWF) is stored for rapid exocytic release in specialized secretory granules called Weibel-Palade bodies (WPBs). Electron cryomicroscopy at the thin periphery of whole, vitrified human umbilical vein endothelial cells (HUVECs) is used to directly image WPBs and their interaction with a 3D network of closely apposed membranous organelles, membrane tubules, and filaments. Fourier analysis of images and tomographic reconstruction show that VWF is packaged as a helix in WPBs. The helical signature of VWF tubules is used to identify VWF-containing organelles and characterize their paracrystalline order in low dose images. We build a 3D model of a WPB in which individual VWF helices can bend, but in which the paracrystalline packing of VWF tubules, closely wrapped by the WPB membrane, is associated with the rod-like morphology of the granules. electron cryomicroscopy | pracrystal | von Willebrand factor | tomography doi/ 10.1073/pnas.0902977106

Published
2009

41. Arterial-venous segregation by selective cell sprouting: an alternative mode of blood vessel formation

Author

Herbert, Shane P., Huisken, Jan, Kim, Tyson N., Feldman, Morri E., Houseman, Benjamin T., Wang, Rong A., Shokat, Kevan M., and Stainier, Didier Y.R.

Subjects
Neovascularization -- Research, Blood vessels -- Properties, Cell research -- Methods, Science and technology
Abstract

Blood vessels form de novo (vasculogenesis) or upon sprouting of capillaries from preexisting vessels (angiogenesis). With high-resolution imaging of zebrafish vascular development, we uncovered a third mode of blood vessel formation whereby the first embryonic artery and vein, two unconnected blood vessels, arise from a common precursor vessel. The first embryonic vein formed by selective sprouting of progenitor ceils from the precursor vessel, followed by vessel segregation. These processes were regulated by the ligand EphrinB2 and its receptor EphB4, which are expressed in arterial-fated and venous-fated progenitors, respectively, and interact to orient the direction of progenitor migration. Thus, directional control of progenitor migration drives arterial-venous segregation and generation of separate parallel vessels from a single precursor vessel, a process essential for vascular development. 10.1126/science.1178577

Published
2009
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42. MEIG1 is essential for spermiogenesis in mice

Author

Zhang, Zhibing, Shen, Xuening, Gude, David R., Wilkinson, Bonney M., Justice, Monica J., Flickinger, Charles J., Herr, John C., Eddy, Edward M., and Strauss, Jerome F., III

Subjects
Spermatozoa -- Genetic aspects, Cell cycle -- Research, Cell research -- Methods, Science and technology
Abstract

Spermatogenesis can be divided into three stages: spermatogonial mitosis, meiosis of spermatocytes, and spermiogenesis. During spermiogenesis, spermatids undergo dramatic morphological changes including formation of a flagellum and chromosomal packaging and condensation of the nucleus into the sperm head. The genes regulating the latter processes are largely unknown. We previously discovered that a bi-functional gene, Spag16, is essential for spermatogenesis. SPAG16S, the 35 kDa, testis-specific isoform derived from the Spag16 gene, was found to bind to meiosis expressed gene 1 product (MEIG1), a protein originally thought to play a role in meiosis. We inactivated the Meigl gene and, unexpectedly, found that Meig1 mutant male mice had no obvious defect in meiosis, but were sterile as a result of impaired spermatogenesis at the stage of elongation and condensation. Transmission electron microscopy revealed that the manchette, a microtubular organelle essential for sperm head and flagellar formation was disrupted in spermatids of MEIG1-deficient mice. We also found that MEIG1 associates with the Parkin co-regulated gene (PACRG) protein, and that testicular PACRG protein is reduced in MEIGl-deficient mice. PACRG is thought to play a key role in assembly of the axonemes/flagella and the reproductive phenotype of Pacrg-deficient mice mirrors that of the Meigl mutant mice. Our findings reveal a critical role for the MEIG1/PARCG partnership in manchette structure and function and the control of spermiogenesis.

Published
2009

43. The Tor and PKA signaling pathways independently target the Atg1/Atg13 protein kinase complex to control autophagy

Author

Stephan, Joseph S., Yeh, Yuh-Ying, Ramachandrana, Vidhya, Deminoff, Stephen J., and Herman, Paul K.

Subjects
Protein kinases -- Properties, Autophagy (Cytology) -- Observations, Cellular signal transduction -- Observations, Cell research -- Methods, Science and technology
Abstract

Macroautophagy (or autophagy) is a conserved degradative pathway that has been implicated in a number of biological processes, including organismal aging, innate immunity, and the progression of human cancers. This pathway was initially identified as a cellular response to nutrient deprivation and is essential for cell survival during these periods of starvation. Autophagy is highly regulated and is under the control of a number of signaling pathways, including the Tor pathway, that coordinate cell growth with nutrient availability. These pathways appear to target a complex of proteins that contains the Atgl protein kinase. The data here show that autophagy in Saccharomyces cerevisiae is also controlled by the cAMP-dependent protein kinase (PKA) pathway. Elevated levels of PKA activity inhibited autophagy and inactivation of the PKA pathway was sufficient to induce a robust autophagy response. We show that in addition to Atg1, PKA directly phosphorylates Atg13, a conserved regulator of Atg1 kinase activity. This phosphorylation regulates Atg13 localization to the preautophagosomal structure, the nucleation site from which autophagy pathway transport intermediates are formed. Atg13 is also phosphorylated in a Tor-dependent manner, but these modifications appear to occur at positions distinct from the PKA phosphorylation sites identified here. In all, our data indicate that the PKA and Tor pathways function independently to control autophagy in S. cerevisiae, and that the Atg1/Atg13 kinase complex is a key site of signal integration within this degradative pathway. cAMP-dependent protein kinase | macroautophagy | stationary phase | Tor protein kinase

Published
2009

44. Modeling of bubble expansion-induced cell mechanical profile in laser-assisted cell direct writing

Author

Wang, Wei, Li, Gang, and Huang, Yong

Subjects
Cell interaction -- Observations, Cell interaction -- Models, Cell research -- Methods, Cell research -- Technology application, Technology application, Engineering and manufacturing industries, Science and technology
Abstract

Cell damage due to the mechanical impact during laser-assisted cell direct writing has been observed and is a possible hurdle for broad applications of fragile cell direct writing. The objective of this study is to numerically investigate the bubble expansion-induced cell mechanical loading profile in laser-assisted cell direct writing. Some conclusions have been drawn as follows. The cell velocity increases initially and then smoothes out gradually with a constant ejection velocity. Both the cell acceleration and pressure can be very high at the beginning period of bubble expansion and then quickly approach zero in an oscillation manner. A high viscosity can lead to an observable velocity increment at the initial stage, but the ejection velocity decreases. The pressure magnitude decreases when the cell-bubble distance is large, and a larger initial pressure induces a larger cell pressure as expected. This study serves as a foundation to further investigate the cell damage mechanism in laser-assisted cell direct writing to improve the effectiveness and efficiency of cell direct writing techniques. [DOI: 10.1115/1.4000101]

Published
2009

45. Window effect of pulsed electric field on biological cells

Author

Chenguo, Yao, Xiaoqian, Hu, Yan, Mi, Chengxiang, Li, and Caixin, Sun

Subjects
Membrane potentials -- Measurement, System design -- Methods, Systems analysis -- Methods, Cell research -- Methods, Electric fields -- Properties, System design, Business, Electronics, Electronics and electrical industries
Published
2009

47. Detecting cytokine release from single T-cells

Author

He, Zhu, Stybayeva, Gulnaz, Silangcruz, Jaime, Yah, Jun, Ramanculov, Erlan, Dandekar, Satya, George, Michael D., and Revzin, Alexander

Subjects
Cell research -- Methods, T cells -- Properties, Cytokines -- Chemical properties, Cytokines -- Identification and classification, Biochemical assays -- Research, Chemistry
Abstract

The cytokine production by leukocytes correlates with body's ability to mount an immune response and therefore has high diagnostic value. In the present study we employed microfabricated surfaces to capture T-cells from minimally processed human blood, arrange these cells into a single cell array, and then detect interferon (IFN)-[gamma] released from individual cells. The fabrication of cell capture surfaces started with coating a silane-modified glass slide with a uniform layer of poly(ethylene glycol) (PEG) hydrogel. The hydrogel-coated slide was lyophilized and then incubated with a mixture of monoclonal anti-IFN-[gamma] and anti-CD4 antibodies (Abs). To define sites for single cell attachment, PEG hydrogel microwells (20 [micro]m diameter) were photolithographically patterned on top of the Ab-containing hydrogel layer. This micropatterning process resulted in fabrication of PEG hydrogel microwells with Ab-decorated bottom and nonfouling walls. To minimize the blood volume requirement and to precisely define shear stress conditions, the engineered surface was enclosed inside a PDMS-based microfluidic device. Introduction of red blood cell (RBC) depleted whole human blood followed by controlled washing led to the isolation of individual CD4 T-cells within PEG microwells. Mitogenic activation and immunofluorescent staining performed inside the microfluidic chamber revealed IFN-[gamma] cytokine signal colocalized with specific T-cells. The device and process presented here will be expanded in the future to enable multiparametric functional analysis of immune cells organized into high density single cell arrays.

Published
2009

48. Mass cytometry: technique for real time single cell multitarget immunoassay based on inductively coupled plasma time-of-flight mass spectrometry

Author

Bandura, Dmitry R., Baranov, Vladimir I., Omatsky, Olga I., Antonov, Alexei, Kinach, Robert, Lou, Xudong, Pavlov, Serguei, Vorobiev, Sergey, Dick, John E., and Tanner, Scott D.

Subjects
Time-of-flight mass spectrometry -- Methods, Cell research -- Methods, Immunoassay -- Methods, Chemistry
Abstract

A novel instrument for real time analysis of individual biological cells or other microparticles is described. The instrument is based on inductively coupled plasma timeof-flight mass spectrometry and comprises a threeaperture plasma--vacuum interface, a dc quadrupole turning optics for decoupling ions from neutral components, an rf quadrupole ion guide discriminating against low-mass dominant plasma ions, a point-to-parallel focusing dc quadrupole doublet, an orthogonal acceleration rellectron analyzer, a discrete dynode fast ion detector, and an 8-bit 1 GHz digitizer. A high spectrum generation frequency of 76.8 kHz provides capability for collecting multiple spectra from each particle-induced transient ion cloud, typically of 200-300 [mu]s duration. It is shown that the transients can be resolved and characterized individually at a peak frequency of 1100 particles per second. Design considerations and optimization data are presented. The figures of merit of the instrument are measured under standard inductively coupled plasma (ICP) operating conditions (< 3% cerium oxide ratio). At mass resolution (full width at half-maximum) M/[DELTA]M > 900 for m/z = 159, the sensitivity with a standard sample introduction system of > 1.4 x [10.sup.8] ion counts per second per mg [L.sup.-1] of Tb and an abundance sensitivity of (6 x [10.sup.-4])-(1.4 x [10.sup.-3]) (trailing and leading masses, respectively) are shown. The mass range (m/z = 125-215) and abundance sensitivity are sufficient for elemental immunoassay with up to 60 distinct available elemental tags. When 500) can be used, which provides >2.4 x [10.sup.8] cps per nag [L.sup.-1] of Tb, at (1.5 x [10.sup.-3]) - (5.0 x [10.sup.-3]) abundance sensitivity. The real-time simultaneous detection of multiple isotopes from individual 1.8 [micro]m polystyrene beads labeled with lanthanides is shown. A real time single cell 20 antigen expression assay of model cell fines and leukemia patient samples immuno-labeled with lanthanide-tagged antibodies is presented.

Published
2009

49. Chip-based dynamic real-time quantification of drug-induced cytotoxicity in human tumor cells

Author

Wlodkowic, Donald, Skommer, Joanna, McGuinness, Dagmara, Faley, Shannon, Kolch, Walter, Darzynkiewicz, Zbigniew, and Cooper, Jonathan M.

Subjects
Cell death -- Research, Tumors -- Research, Cell research -- Methods, Chemistry
Abstract

Cell cytotoxicity tests are among the most common bioassays using flow cytometry and fluorescence imaging analysis. The permeability of plasma membranes to charged fluorescent probes serves, in these assays, as a marker distinguishing live from dead cells. Since it is generally assumed that probes, such as propidium iodide (PI) or 7-amino-actinomycin D (7-AAD), are themselves cytotoxic, they are currently generally used only as the end-point markers of assays for live versus dead cells. In the current study, we provide novel insights into potential applications of these classical plasma membrane integrity markers in the dynamic tracking of drug-induced cytotoxicity. We show that treatment of a number of different human tumor cell lines in cultures for up to 72 h with the PI, 7-AAD, SYTOX Green (SY-G), SYTOX Red (SYR), TO-PRO, and YO-PRO had no effect on cell viability assessed by the integrity of plasma membrane, cell cycle progression, and rate of proliferation. We subsequently explore the potential of dynamic labeling with these markers in real-time analysis, by comparing results from both conventional cytometry and microfluidic chips. Considering the simplicity of the staining protocols and their low cost combined with the potential for real-time data collection, we show how that real-time fluorescent imaging and Lab-on-a-Chip platforms have the potential to be used for automated drug screening routines.

Published
2009

50. Continuous operation of microfabricated electrophoresis devices for 24 hours and application to chemical monitoring of living cells

Author

Reid, Kendra R. and Kennedy, Robert T.

Subjects
Electrophoresis -- Methods, Electrophoresis -- Equipment and supplies, Cell research -- Methods, Cell research -- Equipment and supplies, Chemistry
Abstract

Microchip electrophoresis is an emerging analytical technology with several useful attributes including rapid separation time, small sample requirements, and automation. In numerous potential applications, such as chemical monitoring or high-throughput screening, it may be desirable to use a system for many analyses without operator intervention; however, long-term operation of microchip electrophoresis systems has received little attention. We have developed a microchip electrophoresis system that can automatically inject samples at 6 s intervals for 24 h resulting in collection of 14 400 assays in one session. Continuous operation time of a prototype of the device was limited to 2 h due to degradation of reagents and electrophoresis buffers on the chip; however, modification so that all reagents were continuously perfused into reservoirs on the device ensured fresh reagents were always used for analysis and enabled extended operating sessions. The electrophoresis chip incorporated a cell perfusion chamber and reagent addition channels to allow chemical monitoring of fluid around cells cultured on the chip by serial electrophoretic immunoassays. The immunoassay had detection limits of 0.4 nM for insulin and generated ~4% relative standard deviation over an entire 24 h period with no evidence of signal drift. The combined system was used to monitor insulin secretion from single islets of Langerhans for 6-39 h. The monitoring experiments revealed that islets have secretion dynamics that include spontaneous oscillations after extended nonoseillafing periods and possible ultradian rhythms.

Published
2009

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