2024
Pícková, Markéta; Kahounová, Zuzana; Radaszkiewicz, Tomasz; Procházková, Jiřina; Fedr, Radek; Nosková, Michaela; Radaszkiewicz, Katarzyna Anna; Ovesná, Petra; Bryja, Vítězslav; Souček, Karel
Orthotopic model for the analysis of melanoma circulating tumor cells. Journal Article
In: Scientific reports, vol. 14, no. 1, pp. 7827, 2024, ISSN: 2045-2322, (Place: England).
Abstract | Links | BibTeX | Tags: *Melanoma/pathology, *Neoplastic Cells, *Skin Neoplasms/pathology, Animals, Circulating tumor cells, Circulating/pathology, Flow Cytometry, Humans, In vivo model, Lymphatic Metastasis, Melanoma, Metastasis, Tumorectomy
@article{pickova_orthotopic_2024,
title = {Orthotopic model for the analysis of melanoma circulating tumor cells.},
author = {Markéta Pícková and Zuzana Kahounová and Tomasz Radaszkiewicz and Jiřina Procházková and Radek Fedr and Michaela Nosková and Katarzyna Anna Radaszkiewicz and Petra Ovesná and Vítězslav Bryja and Karel Souček},
doi = {10.1038/s41598-024-58236-y},
issn = {2045-2322},
year = {2024},
date = {2024-04-01},
journal = {Scientific reports},
volume = {14},
number = {1},
pages = {7827},
abstract = {Metastatic melanoma, a highly lethal form of skin cancer, presents significant clinical challenges due to limited therapeutic options and high metastatic capacity. Recent studies have demonstrated that cancer dissemination can occur earlier, before the diagnosis of the primary tumor. The progress in understanding the kinetics of cancer dissemination is limited by the lack of animal models that accurately mimic disease progression. We have established a xenograft model of human melanoma that spontaneously metastasizes to lymph nodes and lungs. This model allows precise monitoring of melanoma progression and is suitable for the quantitative and qualitative analysis of circulating tumor cells (CTCs). We have validated a flow cytometry-based protocol for CTCs enumeration and isolation. We could demonstrate that (i) CTCs were detectable in the bloodstream from the fourth week after tumor initiation, coinciding with the lymph node metastases appearance, (ii) excision of the primary tumor accelerated the formation of metastases in lymph nodes and lungs as early as one-week post-surgery, accompanied by the increased numbers of CTCs, and (iii) CTCs change their surface protein signature. In summary, we present a model of human melanoma that can be effectively utilized for future drug efficacy studies.},
note = {Place: England},
keywords = {*Melanoma/pathology, *Neoplastic Cells, *Skin Neoplasms/pathology, Animals, Circulating tumor cells, Circulating/pathology, Flow Cytometry, Humans, In vivo model, Lymphatic Metastasis, Melanoma, Metastasis, Tumorectomy},
pubstate = {published},
tppubtype = {article}
}
Metastatic melanoma, a highly lethal form of skin cancer, presents significant clinical challenges due to limited therapeutic options and high metastatic capacity. Recent studies have demonstrated that cancer dissemination can occur earlier, before the diagnosis of the primary tumor. The progress in understanding the kinetics of cancer dissemination is limited by the lack of animal models that accurately mimic disease progression. We have established a xenograft model of human melanoma that spontaneously metastasizes to lymph nodes and lungs. This model allows precise monitoring of melanoma progression and is suitable for the quantitative and qualitative analysis of circulating tumor cells (CTCs). We have validated a flow cytometry-based protocol for CTCs enumeration and isolation. We could demonstrate that (i) CTCs were detectable in the bloodstream from the fourth week after tumor initiation, coinciding with the lymph node metastases appearance, (ii) excision of the primary tumor accelerated the formation of metastases in lymph nodes and lungs as early as one-week post-surgery, accompanied by the increased numbers of CTCs, and (iii) CTCs change their surface protein signature. In summary, we present a model of human melanoma that can be effectively utilized for future drug efficacy studies.