Comparative study of metastasis of glioblastoma (glioma C6) implanted in the brain or skeletal muscle of rats.
Vol. 68 No. 4 (2022), ORIGINAL ARTICLES. B. EXPERIMENTAL RESEARCH
Vol. 68 No. 4 (2022)

Comparative study of metastasis of glioblastoma (glioma C6) implanted in the brain or skeletal muscle of rats.

ORIGINAL ARTICLES. B. EXPERIMENTAL RESEARCH
https://doi.org/10.37469/0507-3758-2022-68-4-507-512
Published 22.08.2022
  • Violetta Dubrovskaya
  • Kostenikov
  • Marina Samoylovich
  • Elena Kovan'ko
  • Olga Shashkova
  • Lidiya Terekhina
Violetta Dubrovskaya
Kostenikov
Marina Samoylovich
Elena Kovan'ko
Olga Shashkova
Lidiya Terekhina
pdf (Русский)

Keywords

glioblastoma
implantation
microvessels
metastasis
organotropy

How to Cite

Dubrovskaya, V. ., Kostenikov, Samoylovich, M., Kovan’ko, E. ., Shashkova, O. ., & Terekhina, L. . (2022). Comparative study of metastasis of glioblastoma (glioma C6) implanted in the brain or skeletal muscle of rats. Voprosy Onkologii, 68(4), 507–512. https://doi.org/10.37469/0507-3758-2022-68-4-507-512
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Abstract

The aim. The aim of the work was to establish the organotropy of metastases of glioblastoma (glioma C6) implanted intracranially or intramuscularly, as well as to determine the diameter of the blood vessels of the microvascular network in the organs of tumor-bearing animals. (rats).

Materials and methods. The objects of the study were: the brain, organs of the thoracic and abdominal cavities in rats. The studies were carried out on histological preparations visually and morphometrically from the 3 up to 14 day after implantation of the tumor.

Results. With both methods of glioblastoma implantation, metastases in the lang were diagnosed. An increase in the proportion (%) of microvessels with a wide diameter was recorded in all the organs studied and throughout the entire duration of the experiment.

Conclusions.

The organotropy of gliobolastoma metastases does not depend on the place of its implantation. The expansion of the microvascular network in the organs of tumor carriers is considered as a phenomenon related to the process of metastasis. The expediency of lung examination for the presence of metastases in patients with diagnosed glioblastoma multiforme is discussed.

 

https://doi.org/10.37469/0507-3758-2022-68-4-507-512
pdf (Русский)

References

Харченко Е.П., Соловьев И.А. Метастазирование и раковая спячка //Онкология. Журнал им П.А. Герцена. 2016;5(5):72-77 [Kharchenko E.P., Soloviev I.A. Metastasis and cancer hibernation. Oncology. P.A. Herzen Journal. 2016; 5(5):72-77 (In Russ).]

Мнихович М.В. Межклеточные и клеточно-матриксные взаимодействия в опухолях: современное состояние проблемы //Российский медико-биологический вестник имени академика ИП Павлова. 2013;3:161-1711 [Mnikhovich M.V. Intercellular and cell-matrix interactions in tumors: current state of the problem. The Russian Medico-biological Bulletin named after Academician I.P. Pavlov. 2013;3:161-171 (In Russ).]

Finley L. Metabolic signal curbs cancer-cell migration //Nature. 2019; 571: 39-40.

Cox T.R., Rumney R.M., Schoof E.M. et al. The hypoxic cancer secretome induces pre-metastatic bone lesions through lysyl oxidase //Nature. 2015;522(7554):106-110.

Костеников Н.А., Дубровская В.Ф., Кованько Е.Г. и др. Динамика изменений структурных параметров периваскулярной инвазии глиомы С6 (экспериментальное исследование) //Вопросы онкологии. 2021;67(1):144-149 [Kostenikov N.A., Dubrovskaya V.F., Kovan’ko E.G. et al. Glioma C6 perivascular changes of invasion structural parameters variation (research study). Voprosy onkologii. 2021;67(1):144-149 (In Russ).]

Дубровская В.Ф., Самойлович М.П., Костеников Н.А. и др. Изменения параметров внутриопухолевых и дистанционно расположенных микрососудов в процессе роста глиобластомы, имплантированной в мозг крыс //Вопросы онкологии. 2022;68(1):113-117 [Dubrovskaya V.F., Samoylovitch M.P., Kostenikov N.A. et al. Changes in the parameters of intra-tumor and remotely located microvessels during the growth of glioblastoma implanted in the brain of rats. Voprosy onkologii. 2022;68(1):113-117 (In Russ).]

Yates LR, Knappskog S., Wedge D. et al. Genomic evolution of breast cancer metastasis and relapse //Cancer cell. 2017;32(2):169-184.

Oskarsson T., Batlle E., Massagué J. Metastatic stem cells: sources, niches, and vital pathways //Cell stem cell. 2014;14(3):306-321.

Krakhmal N.V., Zavyalova M.V., Denisov E.V. et al. Cancer invasion: patterns and mechanisms //Acta Naturae. 2015;7(2 (25)):17-28.

Lambert A., Pattabiraman D., Weinberg R. Emerging biological principles of metastasis //Cell. Revew. 2019;168(4):670-691.

Hoshino A., Costa-Silva B., Shen TL. et al. Tumour exosome integrins determine organotropic metastasis //Nature. 2015;527(7578):329-335.

Giakoumettis D., Kritis A., Foroglou N. C6 cell line: the gold standard in glioma research //Hippokratia. 2018;22(3):105-112.

Жетписбаев Б.Б., Исаханова Б.А. Метастаз глиобластомы в легкое (случай из практики) //Журн. Медицина. 2015;5(155):29-31 [Zhetpisbaev B.B., Isakhanova B.A. Glioblastoma metastasis in the lung (a case from practice). Zhurn. Medicine. 2015;5(155):29-31 (In Russ).]

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

© АННМО «Вопросы онкологии», Copyright (c) 2022

Most read articles by the same author(s)