Analysis of human normal thyroid organoids response to ionizing radiation (PsD SAN 24-2) H/F

Social network you want to login/join with:

col-narrow-left

IRSN

-

Yes

col-narrow-right

808ec1106f6d

1

29.04.2025

13.06.2025

col-wide

Mission

Scientific context
Thyroid exposure to ionizing radiation (IR) during childhood, following radioactive iodide contamination or external exposure is a recognized risk factor for the development of cancers by epidemiology studies, but for thyroid doses above 50mGy. As the risk decreases with the dose and the frequency of spontaneous thyroid cancers increases with age, statistical epidemiological methods are no longer applicable. In addition, no specific clinical, anatomo-pathological or genetic criterion distinguish radiation-induced from spontaneous thyroid tumors. Therefore, to date, we cannot objectively answer to scientific and societal questioning concerning the impact on public health of an exposure to the thyroid at low doses.

Work context and objectives
We are developing an organoid model (thyrospheres), derived from human normal thyroid tissue, reproducing in matrigel the 3D organization of thyroid follicles, the functional units of the tissue. We now have culture conditions that permit to maintain follicular 3D structure which synthesize the thyroid hormone thyroxine in the lumen, the thyrocytes responding to a thyroid-stimulating hormone stimulation for the release of the hormone into the culture medium up to seven weeks.

The candidate will be involved in the analysis of the organoïds response to low doses of RI. The thyrospheres will be exposed to low doses as compared to doses known to be associated with the development of radiation-induced thyroid cancers. Exposure will be realized at the CEA irradiation platform to Cs gamma sources (GSR-D1 irradiator) allowing exposures over a wide range of doses including lowdoses. Results published in the literature or obtained in our laboratory strongly suggest that a mechanism of induction/adaptation to oxidative stress could be a major key step in radiation-induced thyroid carcinogenesis. Thus, at first intention the candidate will develop protocols focused more particularly on the analysis of the oxidative status of the organoids after exposure: exploration of key signaling pathway, of mitochondrial function and reactive oxygen species production, and metabolomic approaches will be developed in collaboration with the laboratory of T. Pourcher (TIRO, CEA, Nice).

The candidate will be also involved the long-term maintenance of thyrospheres in culture. The objective is to be able to follow the response to IR over the longest culture period to analyze possibly the early steps of carcinogenesis. The culture process should maintain the organoids 3D structure and physiology over times. Methodologies to monitor the maintenance of expression and the correct localization of thyroid differentiation markers (immuno-labelling, RT-PCR), and to measure the synthesis function of T4 (immuno-labelling and T4 dosage) are routinely applied in our laboratory.

Applicants should have a PhD in molecular and cellular biology. A good experience in cell culture and knowledge of the molecular mechanisms of the cellular response to genotoxic stress will be appreciated. The selected candidate will be encouraged to present the findings of the project at scientific conferences as well as to administrative authorities.

The start date is fixed from september . The duration of the position is 18 months and it will be located at the Institute for Radiological Protection and Nuclear Safety (IRSN), Fontenay-aux-Roses , France. Salary will be based on qualifications and experience according to the IRSN salary grid. Applications will be considered until the position is filled.
Applicants are encouraged to submit their CV, a short research statement, at least one manuscript (published or unpublished) and the names of 2-3 reference persons.
Please send applications and potential enquiries to Catherine Ory () and to Maâmar Souidi ()