Hedgehog Signalling and Tumour-initiating cells as Radioresistance Factors in Esophageal Adenocarcinoma

Teichman, Jennifer

27 November 2012

Clinical management of esophageal adenocarcinoma (EAC) relies on radiation therapy, yet radioresistance is a pervasive challenge in this disease. The mechanisms of EAC radioresistance remain largely unknown due to a paucity of validated preclinical models. The present studies report on the development of seven primary xenograft models established from patient tumours. These models are used to interrogate the range of radiosensitivities and mechanisms of radioresistance in EAC tumours. We found that radiation enriches the tumour-initiating cell population in two xenograft lines tested. Furthermore, three tested xenograft lines respond to irradiation by upregulating Hedgehog transcripts, a pathway involved in stem cell maintenance and proliferation. Upregulation occurs in autocrine and paracrine patterns simultaneously, suggesting that Hedgehog signalling may have a complex role in the radioresponse of EAC tumours. These findings suggest that inhibiting stem cell pathways in combination with radiotherapy may have an important role in the clinical management of EAC.

Esophageal adenocarcinoma

Cancer stem cell

Hedgehog pathway

Xenograft models

Radiation

Radioresistance

Radiosensitivity

Tumour-initiating cell

Limiting dilution assay

qRT-PCR

Hedgehog Signalling and Tumour-initiating cells as Radioresistance Factors in Esophageal Adenocarcinoma

Teichman, Jennifer

27 November 2012

Clinical management of esophageal adenocarcinoma (EAC) relies on radiation therapy, yet radioresistance is a pervasive challenge in this disease. The mechanisms of EAC radioresistance remain largely unknown due to a paucity of validated preclinical models. The present studies report on the development of seven primary xenograft models established from patient tumours. These models are used to interrogate the range of radiosensitivities and mechanisms of radioresistance in EAC tumours. We found that radiation enriches the tumour-initiating cell population in two xenograft lines tested. Furthermore, three tested xenograft lines respond to irradiation by upregulating Hedgehog transcripts, a pathway involved in stem cell maintenance and proliferation. Upregulation occurs in autocrine and paracrine patterns simultaneously, suggesting that Hedgehog signalling may have a complex role in the radioresponse of EAC tumours. These findings suggest that inhibiting stem cell pathways in combination with radiotherapy may have an important role in the clinical management of EAC.

Esophageal adenocarcinoma

Cancer stem cell

Hedgehog pathway

Xenograft models

Radiation

Radioresistance

Radiosensitivity

Tumour-initiating cell

Limiting dilution assay

qRT-PCR

Detekce a klonogenní analýza nádorových kmenových buněk pomocí průtokové cytometrie / Detection and clonogenic assay of cancer stem-like cells using flow cytometry

Fedr, Radek

January 2011

The Diploma Thesis deals with an implementation of the new method for an assessment of a cloning efficiency of the cancer stem cells separated by a high speed cell sorter. The cell-sowing on the microtitration plates was performed by the flow cytometry method in a combination with the high speed cell sorter. In the first part of the Diploma Thesis the new method was introduced and tested on the selected cell lines. The obtained results were compared with the results of the limiting dilution assay within four cell lines. As for the second part of my Diploma Thesis, the method was practically applied to analysis of the cloning capacity of two subpopulations of cE2 cells based on the expressions of characteristic markers of stem and cancer stem cells - CD44 and CD 133. Based on the findings, the new method can be introduced as an approved proceeding for the cloning capacity assessment of cancer stem cells in other workplaces that possess analogical device equipment.