Дослідження протипухлинної дії супернатанту прогеніторних нейроклітин щура на клітини гліом в умовах культивування

V. M. Semenova; L. D. Lyubych; N. I. Lisyany; A. Ya. Glavatskiy; L. P. Stayno

doi:10.25305/unj.108391

Authors

V. M. Semenova Romodanov Neurosurgery Institute, Kiev, Ukraine
L. D. Lyubych Romodanov Neurosurgery Institute, Kiev, Ukraine
N. I. Lisyany Romodanov Neurosurgery Institute, Kiev, Ukraine
A. Ya. Glavatskiy Romodanov Neurosurgery Institute, Kiev, Ukraine
L. P. Stayno Romodanov Neurosurgery Institute, Kiev, Ukraine

DOI:

https://doi.org/10.25305/unj.108391

Keywords:

прогеніторні нейроклітини, гліоми людини, протипухлинна дія.

Abstract

The purpose was to investigate rat progenitor neurocells E12–16 supernatant action on the growth activity of glial tumors in conditions of culture. The dose-dependent effect of neurocells E12–16 supernatant antitumor influence intensification was registered following 24-hour incubation with anaplastic glioma cultures. After incubation with neurocells E12–16 supernatant the dystrophic and necrobiotic changes in most tumor cells with disturbance of general structure of the cells growth area were observed intensifying under prolongated incubation to 48 hours. Neurocells E12–16 supernatant effects depended on the degree of tumor anaplasia. The most significant antitumor effect of the neurocells supernatant was registered in glioblastoma cultures.

References

Жусупова А.С., Сыздыкова Б.Р., Яушева Д.С. Динамика уровня цитокинов в сыворотке крови больных с сирингомиелией и травматической болезнью спинного мозга после трансплантации фетальных нейроцитов: Материалы XVI Всерос. конф. «Нейроиммунология», «Нейроимидж» и научн.-практ. конф. неврологов, (Санкт-Петербург, 2007) // Нейроиммунология. — 2007. — Т.5, №2. — С.47–48.

Иммунная система головного мозга / Под ред. Н.И. Лисяного. — К., 1999. — 216 с.

Маркова О.В. Изучение некоторых механизмов цитотоксического действия клеток головного мозга in vitro // Иммунная система головного мозга / Под ред. Н.И. Лисяного. - К., 1999. — С.147–156.

Руководство по культивированию нервной ткани. Методы. Техника. Проблемы / В.П. Божкова, Л.А. Брежестовский, В.М. Буравлев и др. — М.: Наука, 1988. — 318 с.

Семенова В.М., Цымбалюк В.И., Стайно Л.П. и др. Изучение противоопухолевых свойств различных популяций клеток головного мозга в культуре нервной ткани in vitro // Иммунная система головного мозга / Под ред. Н.И. Лисяного. — К., 1999. — С.136–146.

Aboody K.S., Brown A., Rainov N.G. et al. Neural stem cells display extensive tropism for pathology in adult brain: evidence for intracranial gliomas // PNAS USA. — 2000. — V.100. — P.12846–12851.

Barresi V., Belluardo N., Sipione S. et al. Transplantation of prodrug-converting neural progenitor cells for brain tumor therapy // Cancer Gene Ther. — 2003. — V.10, N5. — P.396–402.

Beachy P.A., Karhadkar S.S., Berman D.V. Tissue repair and stem renewal in carcinogenesis // Nature. — 2004. — V.432. — P.324–331.

Cui L., Yin S., Liu W. et al. Expanded adipose-derived stem cells suppress mixed lymphocyte reaction by secretion of prostaglandin E2 // Tissue Eng. — 2007. — V.13, N6. — P.1185–1195.

Ehtesham M., Kabos P., Kabosova A. et al. The use of interleukin 12-secreting neural stem cells for the treatment of intracranial glioma // Cancer Res. — 2002. — V.62, N20. — P.5657–5663.

Hamada H., Kobune M., Nakamura K. et al. Mesenchymal stem cells (MSC) as therapeutic cytoreagents for gene therapy // Cancer Sci. — 2005. — V.96, N3. — P.149–156.

Heese O., Disko A., Zirkel D. Neural stem cell migration toward gliomas in vitro // Neuro Oncol. — 2005. — V.7, N4. — P.476–484.

Honeth G., Staflin K., Kalliomki S. et al. Chemokine-directed migration of tumor-inhibitory neural progenitor cells towards an intracranially growing glioma // Exp. Cell Res. — 2006. — V.312, N8. — P.1265–1276.

Jeon J.Y., An J.H., Kim S.U. et al. Migration of human neural stem cells toward an intracranial glioma // Exp. Mol. Med. — 2008. — V.40, N1. — P.84–91.

Klassen H.J., Imfeld K.L., Kirov I.I. et al. Expression of cytokines by multipotent neural progenitor cells // Cytokine. — 2003. — V.22, N3–4. — P.101–106.

Kleihouse P., Cavanee W.K. World Health Organisation Classifications of tumors: tumors of the nervous system — pathology and genetics. — Lyon, France: IARC Press, 2000 // Наведено за: Стандарты, рекомендации и опции в лечении глиальных опухолей головного мозга у взрослых. — М., 2005. — 30 с.

Kucia M., Reca R., Miekus K. et al. Trafficking of normal stem cells and metastasis stem cells involve similar mechanisms: pivotal role of the SDF-1-CXCR44 axis // Stem cells. — 2005. — V.23. — P.879–894.

Noble M. Can neural stem cells be used to track down and destroy migratory brain tumor cells while also providing a means of repairing tumor-assotiated damage? // PNAS USA. — 2000. — V.97. — P.12393–12395.

Oh I., Ozaki K., Sato K. Interferon-gamma and NF-kappaB mediate nitric oxide production by mesenchymal stromal cells // Biochem. Biophys. Res. Commun. — 2007. — V.355, N4. — P.956–962.

Pisati F., Belicchi M., Acerbi F. et al. Effect of human skin-derived stem cells on vessel architecture, tumor growth, and tumor invasion in brain tumor animal models // Cancer Res. — 2007. - V.67, N7. — P.3054–3063.

Pisati F., Bossolasco P., Meregalli M. et al. Induction of neurotrophin expression via human adult mesenchymal stem cells: implication for cell therapy in neurodegenerative diseases // Cell Transplant. – 2007. — V.16, N1. — P.41–55.

Schmidt N.O., Przylecki W., Yang W. et al. Brain tumor tropism of transplanted human neural stem cells is induced by vascular endothelial growth factor // Neoplasia. — 2005. — V.7, N6. — P.623–629.

Shah K., Bureau E., Kim D.E. et al. Glioma therapy and real-time imaging of neural precursor cell migration and tumor regression // Ann. Neurol. — 2005. — V.57, N1. — P.34–41.

Staflin K., Lindvall M., Zuchner T., Lundberg C. Instructive cross-talk between neural progenitor cells and gliomas // J. Neurosci. Res. — 2007. — V.85, N10. — P.2147–2159.

Staflin K., Honeth G., Kalliomaki S. et al. Neural progenitor cell lines inhibit rat tumor growth in vivo // Cancer Res. — 2004. — V.64, N15. — P.5347–5354.

Yang S.Y., Liu H., Zhang J.N. Gene therapy of rat malignant gliomas using neural stem cells expressing IL-12 // DNA Cell Biol. — 2004. — V.23, N6. — P.381–389.

Yuan X., Hu J., Belladonna M.L. et al. Interleukin-23-expressing bone-marrow-derived neural stem-like cells exhibit antitumor activity against intracranial glioma // Cancer Res. — 2006. — V.66, N5. — P.2630–2638.

Ziu M., Schmidt N.O., Cargioli T.G. et al. Glioma-produced extracellular matrix influences brain tumor tropism of human neural stem cells // J. Neurooncol. — 2006. — V.79, N2. — P.125–133.