Your search keyword '"Cells -- Motility"' showing total 485 results

1. Studies in the Area of Cancer Reported from University of Wisconsin Milwaukee (Modeling Physical Forces Experienced by Cancer and Stromal Cells Within Different Organ-Specific Tumor Tissue)

Subjects

Cancer cells -- Physiological aspects -- Mechanical properties, Cells -- Motility, Force and energy -- Physiological aspects -- Models, Health

Abstract

2024 MAY 11 (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

2024

2. Structure of a mammalian sperm cation channel complex

Author

Lin, Shiyi, Ke, Meng, Zhang, Yuqi, Yan, Zhen, and Wu, Jianping

Subjects

Ion channels -- Structure -- Physiological aspects -- Health aspects, Cations -- Physiological aspects -- Health aspects, Cell research, Fertility -- Physiological aspects, Spermatozoa -- Physiological aspects -- Health aspects, Cells -- Motility, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The cation channel of sperm (CatSper) is essential for sperm motility and fertility.sup.1,2. CatSper comprises the pore-forming proteins CATSPER1-4 and multiple auxiliary subunits, including CATSPER[beta], [gamma], [delta], [epsilon], [zeta], and EFCAB9.sup.1,3-9. Here we report the cryo-electron microscopy (cryo-EM) structure of the CatSper complex isolated from mouse sperm. In the extracellular view, CATSPER1-4 conform to the conventional domain-swapped voltage-gated ion channel fold.sup.10, following a counterclockwise arrangement. The auxiliary subunits CATSPER[beta], [gamma], [delta] and [epsilon]--each of which contains a single transmembrane segment and a large extracellular domain--constitute a pavilion-like structure that stabilizes the entire complex through interactions with CATSPER4, 1, 3 and 2, respectively. Our EM map reveals several previously uncharacterized components, exemplified by the organic anion transporter SLCO6C1. We name this channel-transporter ultracomplex the CatSpermasome. The assembly and organization details of the CatSpermasome presented here lay the foundation for the development of CatSpermasome-related treatments for male infertility and non-hormonal contraceptives. A structure of the sperm-specific CatSper complex features a number of additional components; together, these components and the CatSper complex are termed the CatSpermasome., Author(s): Shiyi Lin [sup.1] [sup.2] [sup.3] , Meng Ke [sup.1] [sup.2] [sup.3] , Yuqi Zhang [sup.1] [sup.2] [sup.3] , Zhen Yan [sup.1] [sup.2] [sup.3] , Jianping Wu [sup.1] [sup.2] [sup.3] [...]

Published

2021

3. Cardiff University Researcher Discusses Findings in Prostate Cancer (Prohibitin Links Cell Cycle, Motility and Invasion in Prostate Cancer Cells)

Subjects

Oncology, Experimental, Gene expression -- Research, Prostate cancer -- Development and progression -- Genetic aspects -- Risk factors, Metastasis -- Risk factors -- Development and progression -- Genetic aspects, Cell cycle -- Genetic aspects -- Health aspects, Tumor suppressor genes -- Research, Cells -- Motility, Cancer -- Research, Health

Abstract

2023 JUL 1 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on prostate cancer have been published. According to news [...]

Published

2023

4. Researchers at Wright State University Publish New Study Findings on Lung Cancer (ERK3 and DGKz interact to modulate cell motility in lung cancer cells)

Subjects

Diacylglycerol -- Health aspects, Lung cancer -- Development and progression, Cancer cells -- Analysis, Cells -- Motility, Mitogen-activated protein kinases -- Health aspects, Health

Abstract

2023 JUN 10 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Research findings on lung cancer are discussed in a new report. According [...]

Published

2023

5. Reports from Sun Yat-sen University Add New Data to Findings in Bladder Cancer (Pxdnl Activates the Motility of Urothelial Bladder Carcinoma Cells Through the Wnt/beta-catenin Pathway and Has a Prognostic Value)

Subjects

Bladder cancer -- Prognosis -- Genetic aspects -- Development and progression, Peroxidase -- Genetic aspects -- Health aspects -- Physiological aspects, Cancer cells -- Genetic aspects -- Physiological aspects, Cells -- Motility, Health

Abstract

2023 FEB 11 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators discuss new findings in Oncology - Bladder Cancer. According to news [...]

Published

2023

6. Data on Thyroid Cancer Detailed by Researchers at Jiamusi University (Circrna Mannosidase Alpha Class 1a Member 2 Contributes To the Proliferation and Motility of Papillary Thyroid Cancer Cells Through Upregulating Metadherin Via Absorbing ...)

Subjects

Cell proliferation -- Health aspects -- Genetic aspects, RNA -- Physiological aspects -- Health aspects, Membrane proteins -- Physiological aspects -- Health aspects, Thyroid cancer -- Development and progression -- Genetic aspects, Cells -- Motility, Health

Abstract

2023 FEB 4 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- New research on Oncology - Thyroid Cancer is the subject of a [...]

Published

2023

7. New Data from Yangzhou University Illuminate Findings in Non-Small Cell Lung Cancer (Mir-137 Represses Migration and Cell Motility By Targeting Cox-2 In Non-small Cell Lung Cancer)

Subjects

Cell migration -- Analysis, MicroRNA -- Health aspects, Lung cancer, Non-small cell -- Risk factors -- Development and progression -- Diagnosis, Cells -- Motility, Health

Abstract

2022 NOV 26 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators publish new report on Oncology - Non-Small Cell Lung Cancer. According [...]

Published

2022

8. Study Findings on Antibiotics Published by Researchers at Institute of Ecology and Genetics of Microorganisms (Effect of biogenic polyamines on sliding motility of mycobacteria in the presence of antibiotics)

Subjects

Mycobacterial infections -- Development and progression -- Care and treatment, Polyamines -- Health aspects, Cells -- Motility, Health

Abstract

2022 SEP 24 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators discuss new findings in antibiotics. According to news reporting out of [...]

Published

2022

9. The Combination of CBD and THC Isolated from the Lebanese Cannabis sativa Exerts Anti-cancer Effects in Breast Cancer Cells

Author

Younes, Maria and Younes, Maria

Published

2023

10. Active surveillance characterizes human intratumoral T cell exhaustion

Author

You, Ran, Artichoker, Jordan, Fries, Adam, Edwards, Austin W., Combes, Alexis J., Reeder, Gabriella C., Samad, Bushra, and Krummel, Matthew F.

Subjects

Oncology, Experimental, Cell proliferation -- Research, T cells -- Health aspects -- Genetic aspects, Tumors -- Genetic aspects -- Development and progression, Immune response -- Genetic aspects -- Health aspects, Cells -- Motility, Cancer -- Research, Health care industry

Abstract

Intratumoral T cells that might otherwise control tumors are often identified in an 'exhausted' state, defined by specific epigenetic modifications and upregulation of genes such as CD38, cytotoxic T-lymphocyte-associated protein 4 (CTLA4), and programmed cell death 1 (PD1). Although the term might imply inactivity, there has been little study of this state at the phenotypic level in tumors to understand the extent of their incapacitation. Starting with the observation that T cells move more quickly through mouse tumors the longer they reside there and progress toward exhaustion, we developed a nonstimulatory, live-biopsy method for the real-time study of T cell behavior within individual patient tumors. Using 2-photon microscopy, we studied native CD8* T cell interaction with antigen-presenting cells (APCs) and cancer cells in different microniches of human tumors and found that T cell speed was variable by region and by patient and was inversely correlated with local tumor density. Across a range of tumor types, we found a strong relationship between [CD8.sup.+] T cell motility and the exhausted T cell state that corresponded with our observations made in mouse models in which exhausted T cells moved faster. Our study demonstrates T cell dynamic states in individual human tumors and supports the existence of an active program in 'exhausted' T cells that extends beyond incapacitating them., Introduction Tumors contain inflammatory infiltrates that might detect and eliminate tumor cells, and yet immune tolerance occurs, and cancer evasion persists. T cells isolated from the tumor microenvironment (TME) often [...]

Published

2021

11. New Pharmacology Data Have Been Reported by Researchers at Affiliated Provincial Hospital of Anhui Medical University (Berberine Attenuates Cell Motility via Inhibiting Inflammation-Mediated Lysyl Hydroxylase-2 and Glycolysis)

Subjects

Hydroxylases -- Physiological aspects -- Health aspects, Cells -- Motility, Health

Abstract

2022 MAY 14 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Research findings on pharmacology are discussed in a new report. According to [...]

Published

2022

12. New Obesity, Fitness and Wellness Findings from Anand Agricultural University Outlined (Fortification of Tris Extender With Mifepristone, Sericin and Taurine Improves Velocity and Kinematics of Fresh and Frozenthawed Bovine Spermatozoa)

Subjects

Mifepristone -- Usage, Cryopreservation of organs, tissues, etc. -- Methods, Spermatozoa -- Mechanical properties -- Physiological aspects, Chemical preservatives -- Usage, Cells -- Motility, Taurine -- Usage, Health

Abstract

2022 APR 30 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Fresh data on Obesity, Fitness and Wellness are presented in a new [...]

Published

2022

13. Findings from University of Minnesota Broaden Understanding of Genetics (A Role for the Erk Mapk Pathway In Modulating Sax-7/l1cam-dependent Locomotion In Caenorhabditis Elegans)

Subjects

Caenorhabditis elegans -- Physiological aspects -- Genetic aspects, Neural transmission -- Research, Neurological research, Protein kinases -- Genetic aspects -- Physiological aspects, Cellular signal transduction -- Research, Cells -- Motility, Health

Abstract

2022 APR 16 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Life Science Research - Genetics have been published. [...]

Published

2022

14. Findings on Cancer Reported by Investigators at University of Texas MD Anderson Cancer Center (Diras3: an Imprinted Tumor Suppressor Gene That Regulates Ras and Pi3k-driven Cancer Growth, Motility, Autophagy, and Tumor Dormancy)

Subjects

Oncology, Experimental, Gene expression -- Research, Autophagy (Cytology) -- Genetic aspects, Tumor suppressor genes -- Research, Protein kinases -- Genetic aspects, Cancer -- Development and progression -- Genetic aspects -- Research, Cells -- Motility, Health

Abstract

2022 APR 2 (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

15. Reports Summarize Liver Cancer Findings from Dongguk University Seoul (Er Alpha Inhibits Mesenchymal and Amoeboidal Movement of Liver Cancer Cell Via G Alpha 12)

Subjects

Oncology, Experimental, Estrogen -- Receptors, Stem cells -- Health aspects, Cellular signal transduction -- Research, Cells -- Motility, Hepatoma -- Development and progression -- Care and treatment -- Genetic aspects, Cancer -- Research, Health

Abstract

2022 FEB 26 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators publish new report on Oncology - Liver Cancer. According to news [...]

Published

2022

16. Studies from Shanghai Jiao Tong University in the Area of Pancreatic Cancer Reported (Exosomal Cd44 Cooperates With Integrin Alpha 6 Beta 4 To Support Organotropic Metastasis Via Regulating Tumor Cell Motility and Target Host Cell Activation)

Subjects

Oncology, Experimental, Glycoproteins -- Health aspects -- Physiological aspects, Metastasis -- Development and progression, Integrins -- Health aspects -- Physiological aspects, Protein-protein interactions -- Research, Liver cancer -- Development and progression, Cells -- Motility, Cancer -- Research, Pancreatic cancer -- Development and progression, Health

Abstract

2022 FEB 19 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Oncology - Pancreatic Cancer have been published. According [...]

Published

2022

17. Human glioblastoma cell motility depends on the activity of the cysteine metabolism enzyme 3-Mercaptopyruvate sulfurtransferase

Subjects

Pyruvates -- Health aspects, Glioblastoma multiforme -- Physiological aspects, Cells -- Motility, Cysteine -- Health aspects, Health

Abstract

2022 FEB 12 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2022

18. MAP4K4 regulates integrin-FERM binding to control endothelial cell motility

Author

Vitorino, Philip, Yeung, Stacey, Crow, Ailey, Bakke, Jesse, Smyczek, Tanya, West, Kristina, McNamara, Erin, Eastham-Anderson, Jeffrey, Gould, Stephen, Harris, Seth F., Ndubaku, Chudi, and Ye, Weilan

Subjects

Cell research, Protein binding -- Research, Integrins -- Physiological aspects, Protein research, Cells -- Motility, Mitogen-activated protein kinases -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Cell migration is a stepwise process that coordinates multiple molecular machineries. Using in vitro angiogenesis screens with short interfering RNA and chemical inhibitors, we define here a MAP4K4-moesin-talin-β1-integrin molecular pathway that promotes efficient plasma membrane retraction during endothelial cell migration. Loss of MAP4K4 decreased membrane dynamics, slowed endothelial cell migration, and impaired angiogenesis in vitro and in vivo. In migrating endothelial cells, MAP4K4 phosphorylates moesin in retracting membranes at sites of focal adhesion disassembly. Epistasis analyses indicated that moesin functions downstream of MAP4K4 to inactivate integrin by competing with talin for binding to β1-integrin intracellular domain. Consequently, loss of moesin (encoded by the MSN gene) or MAP4K4 reduced adhesion disassembly rate in endothelial cells. Additionally, α5β1-integrin blockade reversed the membrane retraction defects associated with loss of Map4k4 in vitro and in vivo. Our study uncovers a novel aspect of endothelial cell migration. Finally, loss of MAP4K4 function suppressed pathological angiogenesis in disease models, identifying MAP4K4 as a potential therapeutic target., Cell migration relies on coordinated engagement and disengagement of cell-extracellular matrix interactions (1). Integrin receptors bind extracellular matrix ligands and orchestrate cytoskeletal and signalling changes (2). The affinity of integrins [...]

Published

2015

19. Dissection of the Genetic and Molecular Pathways of Cleft Lip and Palate

Author

Hatoum, Jinine and Hatoum, Jinine

Abstract

Cleft lip and palate (CLP) is a congenital anomaly affecting the lips and oral cavity and known to have an impact on the quality of life of the individuals who have it. This disease is known to be caused by both environmental and genetic factors and its etiology has been widely studied over the years but is still not close to being fully deciphered. Using whole exome sequencing (WES), we have identified in a Lebanese family two novel CLP variants in two different integrin subtypes coding for ITGA10 and ITGB8 genes. Integrins are cell surface proteins consisting of several subtypes and act as an interface between the extra cellular matrix (ECM) and internal cell signaling pathways involved in many cellular processes such as migration and differentiation (Integrins - an Overview | ScienceDirect Topics, n.d.). In order to further validate our findings, functional tests have been conducted on primary gingival fibroblasts collected from an affected individual of the studied family. Gene and protein expression analysis showed a differential expression of the identified mutated integrins. Cells’ viability, adhesion and motility were studied to be able to identify the process being altered in the affected cells. The cells collected from the proband appeared to have increased adhesion to the ECM and an overall decrease in its motility when compared to wild type gingival fibroblasts used as a control. This deficit in the cells’ migratory ability was attributed to a decrease in the activity of Ras-related C3 botulinum toxin substrate 1 (Rac1), a member of the Rac family of small GTPases known to play role in cytoskeletal reorganization of the cell and ultimately its motility. This study contributes to the process of establishing of a genotype-phenotype correlation in CLP that helps in better understanding the etiology of this complex disease. It does so by emphasizing the role of cell motility in lip and palate formation and establishing one of the mechanisms by which this fun

Published

2021

20. Data on Molecular Motor Proteins Discussed by Researchers at Ben-Gurion University of the Negev (Motility of Single Molecules and Clusters of Bi-directional Kinesin-5 Cin8 Purified From S. Cerevisiae Cells)

Subjects

Kinesin -- Identification and classification -- Properties, Gene expression -- Analysis, Brewer's yeast -- Usage -- Genetic aspects, Cells -- Motility, Biological sciences, Health

Abstract

2022 JUN 28 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Research findings on Enzymes and Coenzymes - Molecular Motor Proteins are discussed in a [...]

Published

2022

21. Magnolol inhibits colonic motility through down-regulation of voltage-sensitive L-type [Ca.sup.2+] channels of colonic smooth muscle cells in rats

Author

Zhang, Man, Zang, Kai-Hong, Luo, Jia-Lie, Leung, Fung-Ping, Huang, Yu, Lin, Cheng-Yuan, Yang, Zhi-Jun, Lu, Ai-Ping, Tang, Xu-Dong, Xu, Hong-Xi, Sung, Joseph Jao-yiu, and Bian, Zhao-Xiang

Subjects

Electrophysiology -- Research, Colon (Anatomy) -- Physiological aspects -- Health aspects, Smooth muscle -- Physiological aspects -- Health aspects, Calcium channels -- Physiological aspects -- Health aspects, Cells -- Motility, Lignin -- Physiological aspects -- Health aspects, Muscle cells -- Physiological aspects -- Health aspects, Biological sciences, Health, Science and technology

Abstract

ARTICLE INFO Article history: Received 10 April 2013 Received in revised form 6 June 2013 Accepted 14 July 2013 Keywords: Magnolol Magnolia officinalis Colonic motility Smooth muscle cells L-type [Ca.sup.2+] [...]

Published

2013

22. Emergence of macroscopic directed motion in populations of motile colloids

Author

Bricard, Antoine, Caussin, Jean-Baptiste, Desreumaux, Nicolas, Dauchot, Olivier, and Bartolo, Denis

Subjects

Microbial populations -- Research, Colloids -- Properties, Cells -- Motility, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

From the formation of animal flocks to the emergence of coordinated motion in bacterial swarms, populations of motile organisms at all scales display coherent collective motion. This consistent behaviour strongly contrasts with the difference in communication abilities between the individuals. On the basis of this universal feature, it has been proposed that alignment rules at the individual level could solely account for the emergence of unidirectional motion at the group level (1-4). This hypothesis has been supported by agent-based simulations (1,5,6). However, more complex collective behaviours have been systematically found in experiments, including the formation of vortices (7-9), fluctuating swarms (7,10), clustering (11,12) and swirling (13-16). All these (living and man-made) model systems (bacteria (9,10,16), biofilaments and molecular motors (7,8,13), shaken grains (14,15) and reactive colloids (11,12)) predominantly rely on actual collisions to generate collective motion. As a result, the potential local alignment rules are entangled with more complex, and often unknown, interactions. The large-scale behaviour of the populations therefore strongly depends on these uncontrolled microscopic couplings, which are extremely challenging to measure and describe theoretically. Here we report that dilute populations of millions of colloidal rolling particles self-organize to achieve coherent motion in a unique direction, with very few density and velocity fluctuations. Quantitatively identifying the microscopic interactions between the rollers allows a theoretical description of this polar-liquid state. Comparison of the theory with experiment suggests that hydrodynamic interactions promote the emergence of collective motion either in the form of a single macroscopic 'flock', at low densities, or in that of a homogenous polar phase, at higher densities. Furthermore, hydrodynamics protects the polar-liquid state from the giant density fluctuations that were hitherto considered the hallmark of populations of self-propelled particles (2,3,17). Our experiments demonstrate that genuine physical interactions at the individual level are sufficient to set homogeneous active populations into stable directed motion., Our system consists of large populations of colloids capable of self-propulsion and of sensing the orientation of their neighbours solely by means of hydrodynamic and electrostatic mechanisms. We take advantage [...]

Published

2013

23. Species-Specificity of sperm motility activation and chemotaxis: a study on ascidian species

Author

Yoshida, Manabu, Hiradate, Yuki, Sensui, Noburu, Cosson, Jacky, and Morisawa, Masaaki

Subjects

Ascidiacea -- Physiological aspects, Spermatozoa -- Physiological aspects, Cells -- Motility, Biological sciences

Abstract

Abstract. Egg-derived sperm-activating factors and attractants activate sperm motility and attract the sperm, respectively. These phenomena constitute the first communication signaling between males and females in the process of fertilization [...]

Published

2013

24. GSK3β regulates physiological migration of stem/progenitor cells via cytoskeletal rearrangement

Author

Lapid, Kfir, Itkin, Tomer, D'Uva, Gabriele, Ovadya, Yossi, Ludin, Aya, Caglio, Giulia, Kalinkovich, Alexander, Golan, Karin, Porat, Ziv, Zollo, Massimo, and Lapidot, Tsvee

Subjects

Cytoskeleton -- Research, Cell migration -- Research, Hematopoietic stem cells -- Physiological aspects -- Research, Glycogen -- Synthesis, Cells -- Motility, Health care industry

Abstract

Regulation of hematopoietic stem and progenitor cell (HSPC) steady-state egress from the bone marrow (BM) to the circulation is poorly understood. While glycogen synthase kinase-3β (GSK3β) is known to participate [...]

Published

2013

25. The Role of StarD13 in Prostate Cancer Proliferation, Motility, and Invasion

Author

Jaafar, Leila and Jaafar, Leila

Abstract

Prostate cancer is one of the most common tumors affecting males. Several risk factors predispose males to develop prostate cancer including age, ethnicity, and dietary habits. Even though it is easy to treat prostate cancer patients in the early stages, the danger of this disease resides in its being metastatic. Metastasis is a defining feature of invasive cancers, a process that includes invading the underlying matrix and migration of cells from the primary tumor to a distant location where they adhere and proliferate to form a new cancerous mass. Metastasis depends on the regulation of actin cytoskeleton dynamics established mainly by the family of Rho GTPases. Rho GTPases alternate between an active GTP-bound and inactive GDP-bound forms, which is accomplished by two classes of regulators, Rho GEFs that activate Rho GTPases by exchanging GDP with a GTP, and Rho GAPs that induce the hydrolysis of GTP into GDP rendering the Rho GTPases inactive. Among the Rho GAPs is StarD13, also called DLC2. In previous studies done at our lab, StarD13 is found to be a tumor suppressor in several tumor types like astrocytoma and breast cancer. In this study, we elaborated on the role of StarD13 in prostate cancer cellular proliferation, adhesion, invasion, and motility. We found that, in prostate cancer, StarD13 is underexpressed and it acts as a suppressor of tumor proliferation, adhesion, and invasion, however, StarD13 is a positive regulator of prostate cancer 2D motility.

Published

2020

26. One path to understanding energy transduction in biological systems

Author

Spudich, James A.

Subjects

Cell metabolism -- Physiological aspects -- Genetic aspects -- Research, Cellular signal transduction -- Physiological aspects -- Genetic aspects -- Research, Cells -- Motility, Biological sciences, Health

Abstract

Who is not fascinated by the myriad biological movements that define life? From cell migration, cell division and a network of translocation activities within cells to highly specialized muscle contraction, [...]

Published

2012

27. The 2.8 Å crystal structure of the dynein motor domain

Author

Kon, Takahide, Oyama, Takuji, Shimo-Kon, Rieko, Imamula, Kenji, Shima, Tomohiro, Sutoh, Kazuo, and Kurisu, Genji

Subjects

Crystals -- Structure, Molecular biology -- Research, Cells -- Motility, Dynein -- Structure -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Dyneins are microtubule-based [AAA.sup.+] motor complexes that power ciliary beating, cell division, cell migration and intracellular transport. Here we report the most complete structure obtained so far, to our knowledge, of the 380-kDa motor domain of Dictyostelium discoideum cytoplasmic dynein at 2.8 Å resolution; the data are reliable enough to discuss the structure and mechanism at the level of individual amino acid residues. Features that can be clearly visualized at this resolution include the coordination of ADP in each of four distinct nucleotide-binding sites in the ring-shaped [AAA.sup.+] ATPase unit, a newly identified interaction interface between the ring and mechanical linker, and junctional structures between the ring and microtubule-binding stalk, all of which should be critical for the mechanism of dynein motility. We also identify a long-range allosteric communication pathway between the primary ATPase and the microtubule-binding sites. Our work provides a framework for understanding the mechanism of dynein-based motility., Dyneins are large microtubule-based motor complexes responsible for various biological movements (1). Cytoplasmic dyneins power diverse cellular processes, such as cell division, cell migration and minus-end-directed intracellular transport of vesicles [...]

Published

2012

28. Profilinl regulates PI(3,4)[P.sub.2] and lamellipodin accumulation at the leading edge thus influencing motility of MDA-MB-231 cells

Author

Bae, Yong Ho, Ding, Zhijie, Das, Tuhin, Wells, Alan, Gertler, Frank, and Roy, Partha

Subjects

Binding proteins -- Physiological aspects, Binding proteins -- Research, Protein binding -- Research, Cells -- Motility, Cells -- Research, Science and technology

Abstract

Profilin1, a ubiquitously expressed actin-binding protein, plays a critical role in cell migration through actin cytoskeletal regulation. Given the traditional view of profilin1 as a promigratory molecule, it is difficult to reconcile observations that profilin1 is down-regulated in various invasive adenocarcinomas and that reduced profilin1 expression actually confers increased motility to certain adenocarcinoma cells. In this study, we show that profilin1 negatively regulates lamellipodin targeting to the leading edge in MDA-MB-231 breast cancer cells and normal cells; profilin1 depletion increases lamellipodin concentration at the lamellipodial tip (where it binds Ena/VASP), and this mediates the hypermotility. We report that the molecular mechanism underlying profilin1's modulation of lamellipodin localization relates to phosphoinositide control. Specifically, we show that phosphoinositide binding of profilin1 inhibits the motility of MDA-MB-231 cells by negatively regulating PI(3,4)[P.sub.2] at the membrane and thereby limiting recruitment of lamellipodin [a PI(3,4)[P.sub.2]-binding protein] and Ena/ VASP to the leading edge. In summary, this study uncovers a unique biological consequence of profilin1-phosphoinositide interaction, thus providing direct evidence of profilin1's regulation of cell migration independent of its actin-related activity. doi/ 10.1073/pnas.1002309107

Published

2010

29. Protocadherin-19 and N-cadherin interact to control cell movements during anterior neurulation

Author

Biswas, Sayantanee, Emond, Michelle R., and Jontes, James D.

Subjects

Cadherins -- Research, Cadherins -- Properties, Neurulation -- Research, Zebra fish -- Research, Zebra fish -- Physiological aspects, Cells -- Motility, Cells -- Research, Biological sciences

Abstract

The protocadherins comprise the largest subgroup within the cadherin superfamily, yet their cellular and developmental functions are not well understood. In this study, we demonstrate that pcdh19 (protocadherin 19) acts synergistically with n-cadherin (ncad) during anterior neurulation in zebrafish. In addition, Pcdh19 and Ncad interact directly, forming a protein--protein complex both in vitro and in vivo. Although both molecules are required for calcium-dependent adhesion in a zebrafish cell line, the extracellular domain of Pcdh19 does not exhibit adhesive activity, suggesting that the involvement of Pcdh19 in cell adhesion is indirect. Quantitative analysis of in vivo two-photon time-lapse image sequences reveals that loss of either pcdh 19 or ncad impairs cell movements during neurulation, disrupting both the directedness of cell movements and the coherence of movements among neighboring cells. Our results suggest that Pcdh19 and Ncad function together to regulate cell adhesion and to mediate morphogenetic movements during brain development. doi/ 10.1083/jcb.201007008

Published

2010

30. Kalman smoother based force localization and mapping using intravital video microscopy

Author

Milutinovic, Dejan Lj. and Garg, Devendra P.

Subjects

Microscope and microscopy -- Methods, Microscope and microscopy -- Technology application, Kalman filtering -- Research, Smoothing (Statistics) -- Research, Immune system -- Analysis, Cells -- Motility, Cells -- Analysis, Technology application, Engineering and manufacturing industries, Science and technology

Abstract

Motility is an important property of immune system cells. It provides cells with the ability to perform their function not only at the right time but also at the right place. In this paper, we introduce the problem of modeling and estimating an effective force field directing cell movement by the analysis of intravital video microscopy. A computational approach is proposed for solving this problem without dealing with a parametrized spatial model of the field in order to avoid potential errors due to inaccurate spatial model assumptions. We consider the dynamics of cells similar to the dynamics of distributed agents typically used in the field of swarm robotics. The method utilizes a fixed-interval Kalman filter based smoother. Its application results in a map giving the intensity and direction of the effective force field. The results show that real-time video images are a source of data, enabling us to visualize intriguing spatiotemporal phenomena inside immune system organs. The proposed approach can fill the existing gap between contemporary technology and quantitative data analyses present in the field of biosystems. [DOI: 10.1115/1.4002485]

Published

2010

31. SHP-2 phosphatase activity is required for PECAM-1-dependent cell motility

Author

Zhu, Jing-Xu, Cao, Gaoyuan, Williams, James T., and DeLisser, Horace M.

Subjects

Phosphatases -- Properties, Cell adhesion molecules -- Properties, Leukocytes -- Physiological aspects, Cells -- Motility, Cells -- Research, Biological sciences

Abstract

Platelet endothelial cell adhesion molecule-1 (PECAM-1) has been implicated in endothelial cell motility during angiogenesis. Although there is evidence that SHP-2 plays a role in PECAM-1-dependent cell motility, the molecular basis of the activity of SHP-2 in this process has not been defined. To investigate the requirement of SHP-2 in PECAM-1-dependent cell motility, studies were done in which various constructs of SHP-2 were expressed in cell transfectants expressing PECAM-1. We observed that the levels of PECAM-1 tyrosine phosphorylation and SHP-2 association with PECAM-1 were significantly increased in cells expressing a phosphatase-inactive SHP-2 mutant, suggesting that the level of PECAM-1 tyrosine phosphorylation, and thus SHP-2 binding are regulated in part by bound, catalytically active SHP-2. We subsequently found that expression of PECAM-1 stimulated wound-induced migration and the formation of filopodia (a morphological feature of motile cells). These activities were associated with increased mitogen-activated protein kinase (MAPK) activation and the dephosphorylation of paxillin (an event implicated in the activation of MAPK). The phosphatase-inactive SHP-2 mutant, however, suppressed these PECAM-1-dependent phenomena, whereas the activity of PECAM-1 expressing cells was not altered by expression of wild-type SHP-2 or SHP-2 in which the scaffold/adaptor function had been disabled. Pharmacological inhibition of SHP-2 phosphatase activity also suppressed PECAM-1-dependent motility. Furthermore, PECAM-1 expression also stimulates tube formation, but none of the SHP-2 constructs affected this process. These findings therefore suggest a model for the involvement of SHP-2 in PECAM-1-dependent motility in which SHP-2, recruited by its interaction with PECAM-1, targets paxillin to ultimately activate the MAPK pathway and downstream events required for cell motility. mitogen-activated protein kinase; angiogenesis; leukocyte transendothelial migration doi: 10.1152/ajpcell.00436.2009.

Published

2010

32. Planar cell polarity acts through septins to control collective cell movement and ciliogenesis

Author

Kim, Su Kyoung, Shindo, Asako, Park, Tae Joo, Oh, Edwin C., Ghosh, Srimoyee, Gray, Ryan S., Lewis, Richard A., Johnson, Colin A., Attie-Bittach, Tania, Katsanis, Nicholas, and Wallingford, John B.

Subjects

Cellular proteins -- Research, Embryonic development -- Research, Cells -- Motility, Cells -- Research, Science and technology

Abstract

The planar cell polarity (PCP) signaling pathway governs collective cell movements during vertebrate embryogenesis, and certain PCP proteins are also implicated in the assembly of cilia. The septins are cytoskeletal proteins controlling behaviors such as cell division and migration. Here, we identified control of septin localization by the PCP protein Fritz as a crucial control point for both collective cell movement and ciliogenesis in Xenopus embryos. We also linked mutations in human Fritz to Bardet-Biedl and Meckel-Gruber syndromes, a notable [ink given that other genes mutated in these syndromes also influence collective cell movement and ciliogenesis. These findings shed light on the mechanisms by which fundamental cellular machinery, such as the cytoskeleton, is regulated during embryonic development and human disease. 10.1126/science.1191184

Published

2010

33. Effect of arsenite on swimming motility delays surface colonization in Herminiimonas arsenicoxydans

Author

Marchal, M., Briandet, R., Koechler, S., Kammerer, B., and Bertin, P.N.

Subjects

Arsenic compounds -- Physiological aspects, Arsenic compounds -- Genetic aspects, Arsenic compounds -- Research, Cells -- Motility, Cells -- Physiological aspects, Cells -- Genetic aspects, Cells -- Research, Gram-negative bacteria -- Physiological aspects, Gram-negative bacteria -- Genetic aspects, Gram-negative bacteria -- Research, Oxidases -- Physiological aspects, Oxidases -- Genetic aspects, Oxidases -- Research, Biological sciences

Abstract

Herminiimonas arsenicoxydans is a Gram-negative bacterium able to detoxify arseniccontaminated environments by oxidizing arsenite [As(Ill)] to arsenate [As(V)] and by scavenging arsenic ions in an extracellular matrix. Its motility and colonization behaviour have been previously suggested to be influenced by arsenite. Using time-course confocal laser scanning microscopy, we investigated its biofilm development in the absence and presence of arsenite. Arsenite was shown to delay biofilm initiation in the wild-type strain; this was partly explained by its toxicity, which caused an increased growth lag time. However, this delayed adhesion step in the presence of arsenite was not observed in either a swimming motility defective filL mutant or an arsenite oxidase defective aoxB mutant; both strains displayed the wild-type surface properties and growth capacities. We propose that during the biofilm formation process arsenite acts on swimming motility as a result of the arsenite oxidase activity, preventing the switch between planktonic and sessile lifestyles. Our study therefore highlights the existence, under arsenite exposure, of a competition between swimming motility, resulting from arsenite oxidation, and biofilm initiation. DOI 10.1099/mic.0.039313-0

Published

2010

34. Regulation of cell motile behavior by crosstalk between cadherin- and integrin-mediated adhesions

Author

Borghi, Nicolas, Lowndes, Molly, Maruthamuthu, Venkat, Gardel, Margaret L., and Nelson, W. James

Subjects

Cadherins -- Health aspects, Integrins -- Health aspects, Cells -- Motility, Cells -- Health aspects, Science and technology

Abstract

During normal development and in disease, cohesive tissues undergo rearrangements that require integration of signals from cell adhesions to neighboring cells and to the extracellular matrix (ECM). How a range of cell behaviors is coordinated by these different adhesion complexes is unknown. To analyze epithelial cell motile behavior in response to combinations of cell--ECM and cell--cell adhesion cues, we took a reductionist approach at the single-cell scale by using unique, functionalized micropatterned surfaces comprising alternating stripes of ECM (collagenIV) and adjustable amounts of E-cadherin-Fc (EcadFc). On these surfaces, individual cells spatially segregated integrin- and cadherin-based complexes between collagenIV and EcadFc surfaces, respectively. Cell migration required collagenIV and did not occur on surfaces functionalized with only EcadFc. However, E-cadherin adhesion dampened lamellipodia activity on both collagenIV and EcadFc surfaces and biased the direction of cell migration without affecting the migration rate, all in an EcadFc concentration-dependent manner. Traction force microscopy showed that spatial confinement of integrin-based adhesions to collagenIV stripes induced anisotropic cell traction on collagenIV and migration directional bias. Selective depletion of different pools of [alpha]E-catenin, an E-cadherin and actin binding protein, identified a membrane-associated pool required for E-cadherin--mediated adhesion and down-regulation of lamellipodia activity and a cytosolic pool that down-regulated the migration rate in an E-cadherin adhesion-independent manner. These results demonstrate that there is crosstalk between E-cadherin-- and integrin-based adhesion complexes and that E-cadherin regulates lamellipodia activity and cell migration directionality, but not cell migration rate. cell migration | cell--cell adhesion | alpha-E-catenin | micropattern | traction forces doi/ 10.1073/pnas.1002662107

Published

2010

35. A random cell motility gradient downstream of FGF controls elongation of an amniote embryo

Author

Benazeraf, Bertrand, Francois, Paul, Baker, Ruth E., Denans, Nicolas, Little, Charles D., and Pourquie, Olivier

Subjects

Embryonic development -- Research -- Physiological aspects, Cells -- Motility, Fibroblast growth factors -- Properties -- Physiological aspects -- Research

Abstract

Vertebrate embryos are characterized by an elongated antero-posterior (AP) body axis, which forms by progressive cell deposition from a posterior growth zone in the embryo. Here, we used tissue ablation in the chicken embryo to demonstrate that the caudal presomitic mesoderm (PSM) has a key role in axis elongation. Using time-lapse microscopy, we analysed the movements of fluorescently labelled cells in the PSM during embryo elongation, which revealed a clear posterior-to-anterior gradient of cell motility and directionality in the PSM. We tracked the movement of the PSM extracellular matrix in parallel with the labelled cells and subtracted the extracellular matrix movement from the global motion of cells. After subtraction, cell motility remained graded but lacked directionality, indicating that the posterior cell movements associated with axis elongation in the PSM are not intrinsic but reflect tissue deformation. The gradient of cell motion along the PSM parallels the fibroblast growth factor (FGF)/mitogen-activated protein kinase (MAPK) gradient (1), which has been implicated in the control of cell motility in this tissue (2). Both FGF signalling gain- and loss-of-function experiments lead to disruption of the motility gradient and a slowing down of axis elongation. Furthermore, embryos treated with cell movement inhibitors (blebbistatin or RhoK inhibitor), but not cell cycle inhibitors, show a slower axis elongation rate. We propose that the gradient of random cell motility downstream of FGF signalling in the PSM controls posterior elongation in the amniote embryo. Our data indicate that tissue elongation is an emergent property that arises from the collective regulation of graded, random cell motion rather than by the regulation of directionality of individual cellular movements., During the formation of the anterior-most tissues in amphibians^ the embryonic tissue narrows and elongates posteriorly through a process called convergence/extension. This process involves cellular intercalation and is often considered [...]

Published

2010

36. Dictyostelium amoebae and neutrophils can swim

Author

Barry, Nicholas P. and Bretscher, Mark S.

Subjects

Dictyostelium -- Properties, Neutrophils -- Properties, Cells -- Motility, Cells -- Research, Science and technology

Abstract

Animal cells migrating over a substratum crawl in amoeboid fashion; how the force against the substratum is achieved remains uncertain. We find that amoebae and neutrophils, cells traditionally used to study cell migration on a solid surface, move toward a chemotactic source while suspended in solution. They can swim and do so with speeds similar to those on a solid substrate. Based on the surprisingly rapidly changing shape of amoebae as they swim and earlier theoretical schemes for how suspended microorganisms can migrate (Purcell EM (1977) Life at low Reynolds number. Am J Phys 45:3-11), we suggest the general features these cells use to gain traction with the medium. This motion requires either the movement of the cell's surface from the cell's front toward its rear or protrusions that move down the length of the elongated cell. Our results indicate that a solid substratum is not a prerequisite for these cells to produce a forward thrust during movement and suggest that crawling and swimming are similar processes, a comparison we think is helpful in understanding how cells migrate. cell migration | cell swimming | chemotaxis doi/ 10.1073/pnas.1006327107

Published

2010

37. Regulation of a heterodimeric kinesin-2 through an unprocessive motor domain that is turned processive by its partner

Author

Brunnbauer, Melanie, Mueller-Planitz, Felix, Kosem, Suleyman, Ho, Thi Hieu, Dombi, Renate, Gebhardt, J. Christof M., Rief, Matthias, and Okten, Zeynep

Subjects

Kinesin -- Physiological aspects, Cilia and ciliary motion -- Chemical properties, Molecular motors (Biochemistry) -- Research, Cells -- Motility, Cells -- Research, Science and technology

Abstract

Cilia are microtubule-based protrusions of the plasma membrane found on most eukaryotic cells. Their assembly is mediated through the conserved intraflagellar transport mechanism. One class of motor proteins involved in intraflagellar transport, kinesin-2, is unique among kinesin motors in that some of its members are composed of two distinct polypeptides. However, the biological reason for heterodimerization has remained elusive. Here we provide several interdependent reasons for the heterodimerization of the kinesin-2 motor KLP11/KLP20 of Caenorhabditis elegans cilia. One motor domain is unprocessive as a homodimer, but heterodimerization with a processive partner generates processivity. The 'unprocessive' subunit is kept in this partnership as it mediates an asymmetric autoregulation of the motor activity. Finally, heterodimerization is necessary to bind KAP1, the in vivo link between motor and cargo. molecular motors | optical tweezers | single molecule doi/ 10.1073/pnas.1005177107

Published

2010

38. Haloferax volcanii flagella are required for motility but are not involved in PibD-dependent surface adhesion

Author

Tripepi, Manuela, Imam, Saheed, and Pohlschroder, Mechthild

Subjects

Halophilic bacteria -- Physiological aspects, Halophilic bacteria -- Research, Flagella (Microbiology) -- Research, Cells -- Motility, Cells -- Research, Bacteria -- Adhesion, Bacteria -- Research, Biological sciences

Abstract

Although the genome of Haloferax volcanii contains genes (flgA1-flgA2) that encode flagellins and others that encode proteins involved in flagellar assembly, previous reports have concluded that H. volcanii is nonmotile. Contrary to these reports, we have now identified conditions under which H. volcanii is motile. Moreover, we have determined that an H. volcanii deletion mutant lacking flagellin genes is not motile. However, unlike flagella characterized in other prokaryotes, including other archaea, the H. volcanii flagella do not appear to play a significant role in surface adhesion. While flagella often play similar functional roles in bacteria and archaea, the processes involved in the biosynthesis of archaeal flagella do not resemble those involved in assembling bacterial flagella but, instead, are similar to those involved in producing bacterial type IV pili. Consistent with this observation, we have determined that, in addition to disrupting preflagellin processing, deleting pibD, which encodes the preflagellin peptidase, prevents the maturation of other H. volcanii type IV pilin-like proteins. Moreover, in addition to abolishing swimming motility, and unlike the flgA1-flgA2 deletion, deleting pibD eliminates the ability of H. volcanii to adhere to a glass surface, indicating that a nonflagellar type IV pilus-like structure plays a critical role in H. volcanii surface adhesion. doi: 10.1128/JB.00133-10

Published

2010

39. Flagellated but not hyperfimbriated Salmonella enterica serovar Typhimurium attaches to and forms biofilms on cholesterol-coated surfaces

Author

Crawford, Robert W., Reeve, Kristin E., and Gunn, John S.

Subjects

Salmonella -- Genetic aspects, Salmonella -- Physiological aspects, Salmonella -- Research, Microbial mats -- Research, Flagella (Microbiology) -- Research, Cells -- Motility, Cells -- Research, Biological sciences

Abstract

The asymptomatic, chronic carrier state of Salmonella enterica serovar Typhi occurs in the bile-rich gallbladder and is frequently associated with the presence of cholesterol gallstones. We have previously demonstrated that salmonellae form biofilms on human gallstones and cholesterol-coated surfaces in vitro and that bile-induced biofilm formation on cholesterol gallstones promotes gallbladder colonization and maintenance of the carrier state. Random transposon mutants of S. enterica serovar Typhimurium were screened for impaired adherence to and biofilm formation on cholesterol-coated Eppendorf tubes but not on glass and plastic surfaces. We identified 49 mutants with this phenotype. The results indicate that genes involved in flagellum biosynthesis and structure primarily mediated attachment to cholesterol. Subsequent analysis suggested that the presence of the flagellar filament enhanced binding and biofilm formation in the presence of bile, while flagellar motility and expression of type 1 fimbriae were unimportant. Purified Salmonella flagellar proteins used in a modified enzyme-linked immunosorbent assay (ELISA) showed that FliC was the critical subunit mediating binding to cholesterol. These studies provide a better understanding of early events during biofilm development, specifically how salmonellae bind to cholesterol, and suggest a target for therapies that may alleviate biofilm formation on cholesterol gallstones and the chronic carrier state. doi: 10.1128/JB.01620-09

Published

2010

40. Increase in rhamnolipid synthesis under iron-limiting conditions influences surface motility and biofilm formation in Pseudomonas aeruginosa

Author

Glick, Rivka, Gilmour, Christie, Tremblay, Julien, Satanower, Shirley, Avidan, Ofir, Deziel, Eric, Greenberg, E. Peter, Poole, Keith, and Banin, Ehud

Subjects

Pseudomonas aeruginosa -- Growth, Pseudomonas aeruginosa -- Research, Microbial mats -- Growth, Microbial mats -- Research, Iron in the body -- Physiological aspects, Iron in the body -- Research, Cells -- Motility, Cells -- Research, Company growth, Biological sciences

Abstract

Iron is an essential element for life but also serves as an environmental signal for biofilm development in the opportunistic human pathogen Pseudomonas aeruginosa. Under iron-limiting conditions, P. aeruginosa displays enhanced twitching motility and forms flat unstructured biofilms. In this study, we present evidence suggesting that iron-regulated production of the biosurfactant rhamnolipid is important to facilitate the formation of flat unstructured biofilms. We show that under iron limitation the timing of rhamnolipid expression is shifted to the initial stages of biofilm formation (versus later in biofilm development under iron-replete conditions) and results in increased bacterial surface motility. In support of this observation, an rhlAB mutant defective in biosurfactant production showed less surface motility under iron-restricted conditions and developed structured biofilms similar to those developed by the wild type under iron-replete conditions. These results highlight the importance of biosurfactant production in determining the mature structure of P. aeruginosa biofilms under iron-limiting conditions. doi: 10.1128/JB.01601-09

Published

2010

41. Cyclic-di-GMP-mediated repression of swarming motility by Pseudomonas aeruginosa: the pilY1 gene and its impact on surface-associated behaviors

Author

Kuchma, S.L., Ballok, A.E., Merritt, J.H., Hammond, J.H., Lu, W., Rabinowitz, J.D., and O'Toole, George A.

Subjects

Pseudomonas aeruginosa -- Genetic aspects, Pseudomonas aeruginosa -- Physiological aspects, Pseudomonas aeruginosa -- Research, Cyclic guanylic acid -- Genetic aspects, Cyclic guanylic acid -- Physiological aspects, Cyclic guanylic acid -- Research, Cells -- Motility, Cells -- Research, Biological sciences

Abstract

The intracellular signaling molecule cyclic-di-GMP (c-di-GMP) has been shown to influence surface-associated behaviors of Pseudomonas aeruginosa, including biofilm formation and swarming motility. Previously, we reported a role for the bifA gene in the inverse regulation of biofilm formation and swarming motility. The bifA gene encodes a c-di-GMP-degrading phosphodiesterase (PDE), and the [DELTA]bifA mutant exhibits increased cellular pools of c-di-GMP, forms hyperbiofilms, and is unable to swarm. In this study, we isolated suppressors of the [DELTA]bifA swarming defect. Strains with mutations in the pilY1 gene, but not in the pilin subunit pilA gene, show robust suppression of the swarming defect of the [DELTA]bifA mutant, as well as its hyperbiofilm phenotype. Despite the ability of the pilY1 mutation to suppress all the c-di-GMP-related phenotypes, the global pools of c-di-GMP are not detectably altered in the [DELTA]bifA ApilY1 mutant relative to the [DELTA]bifA single mutant. We also show that enhanced expression of the pilY1 gene inhibits swarming motility, and we identify residues in the putative VWA domain of PilY1 that are important for this phenotype. Furthermore, swarming repression by PilY1 specifically requires the diguanylate cyclase (DGC) SadC, and epistasis analysis indicates that PilY1 functions upstream of SadC. Our data indicate that PilY1 participates in multiple surface behaviors of P. aeruginosa, and we propose that PilY1 may act via regulation of SadC DGC activity but independently of altering global c-di-GMP levels. doi: 10.1128/JB.01642-09

Published

2010

42. Observation of the in vivo movement of host keratocytes into donor tissue following corneal graft; a novel technique

Author

Macdonald, E.C.A., Gregory, M.E., Lockington, D., Kennedy, A., Roberts, F., and Ramaesh, K.

Subjects

Connective tissue cells -- Physiological aspects, Connective tissue cells -- Research, In situ hybridization -- Usage, In situ hybridization -- Research, Cells -- Motility, Cells -- Analysis, Cornea -- Transplantation, Cornea -- Patient outcomes, Cornea -- Research, Health

Published

2010

43. Simulation of cell motility that reproduces the force--velocity relationship

Author

Schreiber, Christian H., Stewart, Murray, and Duke, Thomas

Subjects

Actin -- Physiological aspects, Actin -- Genetic aspects, Actin -- Research, Cells -- Motility, Cells -- Physiological aspects, Cells -- Research, Science and technology

Abstract

Many cells crawl by extending an actin-rich pseudopod. We have devised a simulation that describes how the polymerization kinetics of a branched actin filament network, coupled with excluded volume effects, powers the motility of crawling cells such as amoebae and fish keratocytes. Our stochastic simulation is based on the key fundamental properties of actin polymerization, namely growth, shrinkage, capping, branching, and nucleation, and also includes contributions from the creation and breaking of adhesive contacts with the substrate together with excluded volume effects related to filament packing. When reasonable values for appropriate constants were employed, this simulation generated a force--velocity relationship that resembled closely that observed experimentally. Our simulations indicated that excluded volume effects associated with actin filament branching lead to a decreased packing efficiency and resultant swelling of the cytoskeleton gel that contribute;; substantially to lamellipod protrusion. cell movement | force generation | retrograde flow | Arp2/3 doi/ 10.1073/pnas.1002538107

Published

2010

44. Effects of trehalose supplementation on semen quality and oxidative stress variables in frozen-thawed bovine semen

Author

Hu, J.-H., Zan, L.-S., Zhao, X.-L., Li, Q.-W., Jiang, Z.-L., Li, Y.-K., and Li, X.

Subjects

Frozen semen -- Properties, Cryopreservation of organs, tissues, etc. -- Methods, Trehalose -- Properties, Oxidative stress -- Observations, Cells -- Motility, Cells -- Evaluation, Zoology and wildlife conservation

Abstract

The antioxidant systems of superoxide dismutase (SOD), catalase (CAT), reduced glutathione (GSH), and glutathione peroxidase (GSH-Px) are important in maintaining sperm motility and viability. The purpose of this study was to determine the effects of varying doses of trehalose on in vitro semen quality variables and antioxidant activities of frozen-thawed bovine semen. The semen samples, diluted with an extender containing trehalose (0, 25, 50, 100, and 200 mM), were evaluated. The extender supplemented with 100 mM trehalose exhibited the greatest percentages of sperm motility, acrosomal membrane integrity, and plasma membrane integrity in comparison with the control group (P < 0.05). No difference was observed for sperm motility between trehalose 50 and 100 mM groups (P > 0.05). Extender supplemented with trehalose did not affect SOD levels. Compared with the other groups, CAT was greater with the supplementation of trehalose at 100 and 200 mM (P < 0.05). The extender supplemented with trehalose had enhanced GSH-Px activity compared with the control group (P < 0.05). However, increasing the doses of trehalose (100, 200 mM) decreased GSH-Px activity, compared with 50 mM trehalose (P < 0.05). Compared with the other groups, trehalose at the concentration of 25 and 50 mM increased GSH activity (P < 0.05). The application of 200 mM trehalose produced the least amount of GSH activity among all of the groups (P < 0.05). In conclusion, extender supplemented with trehalose reduced the oxidative stress induced by freeze-thaw and improved measures of bovine semen quality. The antioxidant characteristics of trehalose may be related to its effectiveness in membrane eryopreservation. Further studies are required to obtain more concrete results on the determination of lipid peroxidation and antioxidant capacities of trehalose in cryopreserved bovine semen. Key words: antioxidant activity, bovine semen, cryopreservation, trehalose doi: 10.2527/jas.2009-2335

Published

2010

45. An unconventional myosin required for cell polarization and chemotaxis

Author

Breshears, Laura M., Wessels, Deborah, Soll, David R., and Titus, Margaret A.

Subjects

Muscle proteins -- Research, Myosin -- Properties, Chemotaxis -- Research, Cells -- Motility, Cells -- Research, Science and technology

Abstract

MyTH/FERM (myosin tail homology 4/band 4.1, ezrin, radixin, and moesin) myosins have roles in cellular adhesion, extension of actin-filled projections such as filopodia and stereocilia, and directional migration. The amoeba Dictyostelium discoideum expresses a simple complement of MyTH/FERM myosins, a class VII (M7) myosin required for cell-substrate adhesion and a unique myosin named MyoG. Mutants lacking MyoG exhibit a wide range of normal actin-based behaviors, including chemotaxis to folic acid, but have a striking defect in polarization and chemotaxis to cAMP. Although the myoG mutants respond to cAMP stimulation by increasing persistence and weakly increasing levels of cortical F-actin, they do not polarize; instead, they maintain a round shape and move slowly and randomly when exposed to a chemotactic gradient. The mutants also fail to activate and localize PI3K to the membrane closest to the source of chemoattractant. These data reveal a role for a MyTH/FERM myosin in mediating early chemotactic signaling and suggest that MyTH/FERM proteins have conserved roles in signaling and the generation of cell polarity. actin cytoskeleton | cell signaling | cell motility | cytoskeletal dynamics doi/ 10.1073/pnas.0909796107

Published

2010

46. Coordination of Rab8 and Rab11 in primary ciliogenesis

Author

Knodler, Andreas, Feng, Shanshan, Zhang, Jian, Zhang, Xiaoyu, Das, Amlan, Peranen, Johan, and Guo, Wei

Subjects

Cilia and ciliary motion -- Genetic aspects, Gene expression -- Physiological aspects, Cell membranes -- Properties, Cells -- Motility, Cells -- Genetic aspects, Science and technology

Abstract

Primary cilia are microtubule-based membrane projections located at the surface of many cells. Defects in primary cilia formation have been implicated in a number of genetic disorders, such as Bardet-Biedl Syndrome and Polycystic Kidney Disease. Recent studies have demonstrated that polarized vesicular transport involving Rab8 and its guanine nucleotide-exchange factor Rabin8 is essential for primary ciliogenesis. Here we report that Rabin8 is a direct downstream effector of Rab11, which functions in membrane trafficking from the trans-Golgi network and recycling endosomes. Rab11, in its GTP-bound form, interacts with Rabin8 and kinetically stimulates the guanine nucleotide-exchange activity of Rabin8 toward Rab8. Rab11 is enriched at the base of the primary cilia and inhibition of Rab11 function by a dominant-negative mutant or RNA interference blocks primary ciliogenesis. Our results suggest that Rab GTPases coordinate with each other in the regulation of vesicular trafficking during primary ciliogenesis. primary cilia | Rabin8 | recycling endosome | BBS | exocyst doi/10.73/pnas.1002401107

Published

2010

47. Two competing orientation patterns explain experimentally observed anomalies in growing actin networks

Author

Weichsel, Julian and Schwarz, Ulrich S.

Subjects

Actin -- Physiological aspects, Actin -- Research, Cytoskeleton -- Physiological aspects, Cytoskeleton -- Research, Cells -- Motility, Cells -- Physiological aspects, Cells -- Research, Science and technology

Abstract

The lamellipodium of migrating animal cells protrudes by directed polymerization of a branched actin network. The underlying mechanisms of filament growth, branching, and capping can be studied in in vitro assays. However, conflicting results have been reported for the force--velocity relation of such actin networks, namely both convex and concave shapes as well as history dependencies. Here we model branching as a reaction that is independent of the number of existing filaments, in contrast to capping, which is assumed to be proportional to the number of existing filaments. Using both stochastic network simulations and deterministic rate equations, we show that such a description naturally leads to the stability of two qualitatively different stationary states of the system, namely a [+ or -]35[degrees] and a +70/0/-70[degrees] orientation pattern. Changes in network growth velocity induce a transition between these two patterns. For sufficiently different protrusion efficiency of the two network architectures, this leads to hysteresis in the growth velocity of actin networks under force. Dependent on the history of the system, convex and concave regimes are obtained for the force--velocity relation. Thus a simple generic model can explain the experimentally observed anomalies, with far reaching consequences for cell migration. cytoskeleton | cell motility | stochastic simulations | rate equations doi/10.1073/pnas.0913730107

Published

2010

48. Membrane nanotubes facilitate long-distance interactions between natural killer cells and target cells

Author

Chauveau, Anne, Aucher, Anne, Eissmann, Philipp, Vivier, Eric, and Davis, Daniel M.

Subjects

Cell interaction -- Physiological aspects, Cell interaction -- Research, Killer cells -- Physiological aspects, Killer cells -- Research, Cells -- Motility, Cells -- Physiological aspects, Cells -- Research, Science and technology

Abstract

Membrane nanotubes are membranous tethers that physically link cell bodies over long distances. Here, we present evidence that nanotubes allow human natural killer (NK) cells to interact functionally with target cells over long distances. Nanotubes were formed when NK cells contacted target cells and moved apart. The frequency of nanotube formation was dependent on the number of receptor/ligand interactions and increased on NK cell activation. Most importantly, NK cell nanotubes contained a submicron scale junction where proteins accumulated, including DAP10, the signaling adaptor that associates with the activating receptor NKG2D, and MHC class I chain-related protein A (MICA), a cognate ligand for NKG2D, as occurs at close intercellular synapses between NK cells and target cells. Quantitative live-cell fluorescence imaging suggested that MICA accumulated at small nanotube synapses in sufficient numbers to trigger cell activation. In addition, tyrosine-phosphorylated proteins and Vav-1 accumulated at such junctions. Functionally, nanotubes could aid the lysis of distant target cells either directly or by moving target cells along the nanotube path into close contact for lysis via a conventional immune synapse. Target cells moving along the nanotube path were commonly polarized such that their uropods faced the direction of movement. This is the opposite polarization than for normal cell migration, implying that nanotubes can specifically drive target cell movement. Finally, target cells that remained connected to an NK cell by a nanotube were frequently lysed, whereas removing the nanotube using a micromanipulator reduced lysis of these target cells. cell activation | immune synapses | cytotoxicity | cell motility | intercellular communication www.pnas.org/cgi/doi/10.1073/pnas.0910074107

Published

2010

49. Autonomous right-screw rotation of growth cone filopodia drives neurite turning

Author

Tamada, Atsushi, Kawase, Satoshi, Murakami, Fujio, and Kamiguchi, Hiroyuki

Subjects

Filopodia -- Properties, Cell physiology -- Research, Cells -- Motility, Cells -- Research, Biological sciences

Abstract

The direction of neurite elongation is controlled by various environmental cues. However, it has been reported that even in the absence of any extrinsic directional signals, neurites turn clockwise on two-dimensional substrates. In this study, we have discovered autonomous rotational motility of the growth cone, which provides a cellular basis for inherent neurite turning. We have developed a technique for monitoring three-dimensional motility of growth cone filopodia and demonstrate that an individual filopodium rotates on its own longitudinal axis in the right-screw direction from the viewpoint of the growth cone body. We also show that the filopodial rotation involves myosins Va and Vb and may be driven by their spiral interactions with filamentous actin. Furthermore, we provide evidence that the unidirectional rotation of filopodia causes deflected neurite elongation, most likely via asymmetric positioning of the filopodia onto the substrate. Although the growth cone itself has been regarded as functionally symmetric, our study reveals the asymmetric nature of growth cone motility. doi/10.1083/jcb.200906043

Published

2010

50. Activation of EGFR on monocytes is required for human cytomegalovirus entry and mediates cellular motility

Author

Chan, Gary, Nogalski, Maciej T., and Yurochko, Andrew D.

Subjects

Cytomegaloviruses -- Physiological aspects, Cytomegaloviruses -- Health aspects, Cytomegaloviruses -- Research, Cytomegalovirus infections -- Risk factors, Cytomegalovirus infections -- Research, Cells -- Motility, Cells -- Physiological aspects, Cells -- Research, Science and technology

Abstract

Human cytomegalovirus (HCMV) rapidly induces a mobile and functionally unique proinflammatory monocyte following infection that is proposed to mediate viral spread. The cellular pathways used by HCMV to initiate these biological changes remain unknown. Here, we document the expression of the epidermal growth factor receptor (EGFR) on the surface of human peripheral blood monocytes but not on other blood leukocyte populations. Inhibition of EGFR signaling abrogated viral entry into monocytes, indicating that EGFR can serve as a cellular tropism receptor. Moreover, HCMV-activated EGFR was required for the induction of monocyte motility and transendothelial migration, two biological events required for monocyte extravasation into peripheral tissue, and thus viral spread. Transcriptome analysis revealed that HCMV-mediated EGFR signaling up-regulated neural Wiskott--Aldrich syndrome protein (N-WASP), an actin nucleator whose expression and function are normally limited in leukocytes. Knockdown of N-WASP expression blocked HCMV-induced but not phorbol 12-myristate 13-acetate (PMA)-induced monocyte motility, suggesting that a switch to and/or the distinct use of a new actin nucleator controlling motility occurs during HCMV infection of monocytes. Together, these data provide evidence that EGFR plays an essential role in the immunopathobiology of HCMV by mediating viral entry into monocytes and stimulating the aberrant biological activity that promotes hematogenous dissemination. doi/10.1073/pnas.0908787106

Published

2009