Библиографические ссылки статьи: “Репарация плазматической мембраны, блеббинг и микровезикуляция: параллели и взаимосвязи”
  1. Polyunsaturated Fatty Acids Mediated Regulation of Membrane Biochemistry and Tumor Cell Membrane Integrity

    S. Mukerjee, A. Saeedan, M. Ansari, M. Singh

    Membranes. 2021, 11, 479


    Пыркова Д, Тарасова Н, Крылов Н, Нольде Д, Ефремов Р.

    Биологические Мембраны. 2011, 28, 298-306

  3. Paradigm Shift of the Plasma Membrane Concept from the Two-Dimensional Continuum Fluid to the Partitioned Fluid: High-Speed Single-Molecule Tracking of Membrane Molecules

    A. Kusumi, C. Nakada, K. Ritchie, K. Murase, K. Suzuki, H. Murakoshi, R. Kasai, J. Kondo, T. Fujiwara

    Annual Review of Biophysics and Biomolecular Structure. 2005, 34, 351-378

  4. Роль актинового цитоскелета в регуляции дегрануляции нейтрофилов человека, активированных опсонизированным зимозаном

    Воробьева НВ, Голубева Н, Пинегин Б.

    Иммунология. 2014, 35, 124-9

  5. Plasma membrane integrity in health and disease: significance and therapeutic potential

    C. Dias, J. Nylandsted

    Cell Discovery. 2021, 7,

  6. The ins and outs of microvesicles

    J. Clancy, M. Schmidtmann, C. D’Souza‐Schorey

    FASEB BioAdvances. 2021, 3, 399-406

  7. A Clockwork Bleb: cytoskeleton, calcium, and cytoplasmic fluidity

    J. Ikenouchi, K. Aoki

    The FEBS Journal. 2022, 289, 7907-7917

  8. Sealing holes in cellular membranes

    Y. Zhen, M. Radulovic, M. Vietri, H. Stenmark

    The EMBO Journal. 2021, 40,

  9. Plasma Membrane Repair in Health and Disease

    Demonbreun AR, McNally EM.

    Curr Top Membr . 2016, 77, 67-96

  10. Calcium Induces Phospholipid Redistribution and Microvesicle Release in Human Erythrocyte Membranes by Independent Pathways

    R. Bucki, C. Bachelot-Loza, A. Zachowski, F. Giraud, J. Sulpice

    Biochemistry. 1998, 37, 15383-15391

  11. Into the breach: how cells cope with wounds

    M. Nakamura, A. Dominguez, J. Decker, A. Hull, J. Verboon, S. Parkhurst

    Open Biology. 2018, 8,

  12. Self-repairing cells: How single cells heal membrane ruptures and restore lost structures

    Tang SK, Marshall WF

    Science. 2017, 356, 1022-5

  13. ESCRT Machinery Is Required for Plasma Membrane Repair

    A. Jimenez, P. Maiuri, J. Lafaurie-Janvore, S. Divoux, M. Piel, F. Perez

    Science. 2014, 343,

  14. Proteinase-Activated Receptor 4 Activation Triggers Cell Membrane Blebbing through RhoA and<i>β</i>-Arrestin

    C. Vanderboor, P. Thibeault, K. Nixon, R. Gros, J. Kramer, R. Ramachandran

    Molecular Pharmacology. 2020, 97, 365-376

  15. Cell motility through plasma membrane blebbing

    O. Fackler, R. Grosse

    Journal of Cell Biology. 2008, 181, 879-884

  16. Specificities of secretion and uptake of exosomes and other extracellular vesicles for cell-to-cell communication

    M. Mathieu, L. Martin-Jaular, G. Lavieu, C. Théry

    Nature Cell Biology. 2019, 21, 9-17

  17. The P4-ATPase TAT-5 Inhibits the Budding of Extracellular Vesicles in C. elegans Embryos

    A. Wehman, C. Poggioli, P. Schweinsberg, B. Grant, J. Nance

    Current Biology. 2011, 21, 1951-1959

  18. Effect of Increased Extracellular Ca++ on Microvesicle Production and Tumor Spheroid Formation

    S. Crawford, D. Diamond, L. Brustolon, R. Penarreta

    Cancer Microenvironment. 2011, 4, 93-103

  19. Plasma Membrane Disruption: Repair, Prevention, Adaptation

    P. McNeil, R. Steinhardt

    Annual Review of Cell and Developmental Biology. 2003, 19, 697-731

  20. Reassembly of contractile actin cortex in cell blebs

    G. Charras, C. Hu, M. Coughlin, T. Mitchison

    Journal of Cell Biology. 2006, 175, 477-490

  21. Shedding of procoagulant microparticles from unstimulated platelets by integrin-mediated destabilization of actin cytoskeleton

    S. Cauwenberghs, M. Feijge, A. Harper, S. Sage, J. Curvers, J. Heemskerk

    FEBS Letters. 2006, 580, 5313-5320

  22. Non-equilibration of hydrostatic pressure in blebbing cells

    G. Charras, J. Yarrow, M. Horton, L. Mahadevan, T. Mitchison

    Nature. 2005, 435, 365-369

  23. Ca2+-independent phospholipase A2-dependent sustained Rho-kinase activation exhibits all-or-none response

    A. Maeda, Y. Ozaki, S. Sivakumaran, T. Akiyama, H. Urakubo, A. Usami, M. Sato, K. Kaibuchi, S. Kuroda

    Genes to Cells. 2006, 11, 1071-1083

  24. Interdisciplinary Synergy to Reveal Mechanisms of Annexin-Mediated Plasma Membrane Shaping and Repair

    P. Bendix, A. Simonsen, C. Florentsen, S. Häger, A. Mularski, A. Zanjani, G. Moreno-Pescador, M. Klenow, S. Sønder, H. Danielsen, M. Arastoo, A. Heitmann, M. Pandey, F. Lund, C. Dias, H. Khandelia, J. Nylandsted

    Cells. 2020, 9, 1029

  25. Tumor-derived microvesicles: shedding light on novel microenvironment modulators and prospective cancer biomarkers

    C. D'Souza-Schorey, J. Clancy

    Genes &amp; Development. 2012, 26, 1287-1299

  26. Tissue-factor–bearing microvesicles arise from lipid rafts and fuse with activated platelets to initiate coagulation

    I. del Conde, C. Shrimpton, P. Thiagarajan, J. López

    Blood. 2005, 106, 1604-1611

  27. High-resolution proteomic and lipidomic analysis of exosomes and microvesicles from different cell sources

    R. Haraszti, M. Didiot, E. Sapp, J. Leszyk, S. Shaffer, H. Rockwell, F. Gao, N. Narain, M. DiFiglia, M. Kiebish, N. Aronin, A. Khvorova

    Journal of Extracellular Vesicles. 2016, 5, 32570

  28. Extracellular vesicles round off communication in the nervous system

    V. Budnik, C. Ruiz-Cañada, F. Wendler

    Nature Reviews Neuroscience. 2016, 17, 160-172

  29. Neutral sphingomyelinases control extracellular vesicles budding from the plasma membrane

    K. Menck, C. Sönmezer, T. Worst, M. Schulz, G. Dihazi, F. Streit, G. Erdmann, S. Kling, M. Boutros, C. Binder, J. Gross

    Journal of Extracellular Vesicles. 2017, 6, 1378056

  30. Recruitment of DNA to tumor-derived microvesicles

    J. Clancy, C. Sheehan, A. Boomgarden, C. D’Souza-Schorey

    Cell Reports. 2022, 38, 110443

  31. A numerical model of cellular blebbing: A volume-conserving, fluid–structure interaction model of the entire cell

    J. Young, S. Mitran

    Journal of Biomechanics. 2010, 43, 210-220

  32. Life and Times of a Cellular Bleb

    G. Charras, M. Coughlin, T. Mitchison, L. Mahadevan

    Biophysical Journal. 2008, 94, 1836-1853

  33. Mechanics of the Cell

    Boal D, Boal DH

    Cambridge University Press. 2012, ,

  34. Molecular basis of mechanotransduction in living cells

    Hamill OP, Martinac B.

    Physiological Reviews. 2001, 81, 685-740

  35. Prepatterning by RhoGEFs governs Rho GTPase spatiotemporal dynamics during wound repair

    M. Nakamura, J. Verboon, S. Parkhurst

    Journal of Cell Biology. 2017, 216, 3959-3969

  36. Wrangling Actin Assemblies: Actin Ring Dynamics during Cell Wound Repair

    J. Hui, V. Stjepić, M. Nakamura, S. Parkhurst

    Cells. 2022, 11, 2777

  37. Independence of Plasma Membrane Blebbing from Other Biochemical and Biological Characteristics of Apoptotic Cells

    A. Shiratsuchi, T. Mori, Y. Nakanishi

    Journal of Biochemistry. 2002, 132, 381-386

  38. Cdc42 functions as a regulatory node for tumour‐derived microvesicle biogenesis

    J. Wang, X. Zhuang, K. Greene, H. Si, M. Antonyak, J. Druso, K. Wilson, R. Cerione, Q. Feng, H. Wang

    Journal of Extracellular Vesicles. 2021, 10,

  39. R(h)oads to microvesicles

    M. Antonyak, K. Wilson, R. Cerione

    Small GTPases. 2012, 3, 219-224

  40. <scp>ESCRT</scp>s are everywhere

    J. Hurley

    The EMBO Journal. 2015, 34, 2398-2407

  41. Formation and release of arrestin domain-containing protein 1-mediated microvesicles (ARMMs) at plasma membrane by recruitment of TSG101 protein

    J. Nabhan, R. Hu, R. Oh, S. Cohen, Q. Lu

    Proceedings of the National Academy of Sciences. 2012, 109, 4146-4151

  42. Extracellular microvesicles and invadopodia mediate non-overlapping modes of tumor cell invasion

    A. Sedgwick, J. Clancy, M. Olivia Balmert, C. D’Souza-Schorey

    Scientific Reports. 2015, 5,

  43. ARF6-Regulated Shedding of Tumor Cell-Derived Plasma Membrane Microvesicles

    V. Muralidharan-Chari, J. Clancy, C. Plou, M. Romao, P. Chavrier, G. Raposo, C. D'Souza-Schorey

    Current Biology. 2009, 19, 1875-1885

  44. Large Oncosomes in Human Prostate Cancer Tissues and in the Circulation of Mice with Metastatic Disease

    D. Di Vizio, M. Morello, A. Dudley, P. Schow, R. Adam, S. Morley, D. Mulholland, M. Rotinen, M. Hager, L. Insabato, M. Moses, F. Demichelis, M. Lisanti, H. Wu, M. Klagsbrun, N. Bhowmick, M. Rubin, C. D'Souza-Schorey, M. Freeman

    The American Journal of Pathology. 2012, 181, 1573-1584

  45. RASSF1C oncogene elicits amoeboid invasion, cancer stemness, and extracellular vesicle release via a SRC/Rho axis

    M. Tognoli, N. Vlahov, S. Steenbeek, A. Grawenda, M. Eyres, D. Cano‐Rodriguez, S. Scrace, C. Kartsonaki, A. von Kriegsheim, E. Willms, M. Wood, M. Rots, J. van Rheenen, E. O'Neill, D. Pankova

    The EMBO Journal. 2021, 40,

  46. Cell healing: Calcium, repair and regeneration

    A. Moe, A. Golding, W. Bement

    Seminars in Cell &amp; Developmental Biology. 2015, 45, 18-23

  47. Plasma Membrane Repair: A Central Process for Maintaining Cellular Homeostasis

    A. Blazek, B. Paleo, N. Weisleder

    Physiology. 2015, 30, 438-448