Origins of thyroid progenitors and tumor-initiating cells
Abstract
The thyroid gland located in the anterior neck consists of two main cell types. First, the
follicular cells that form the functional units, the follicles, in which thyroid hormones are
produced and stored before release into the blood circulation; second, the parafollicular
cells or C cells that produce calcitonin, a hormone that takes part in calcium regulation.
These two cell types can give rise to different forms of cancer. Understanding basic
mechanisms that govern the development and differentiation in the embryo may shed
light on cell-specific mechanisms in tumor development.
In non-mammalian vertebrates neuroendocrine C cells retain in the ultimobranchial
glands instead of being incorporated into the thyroid. Early quail-chick transplantation
studies indicated that the C cells derive from the neural crest (i.e. are neuroectodermal),
but this was not confirmed in mammals. In paper I, lineage tracing using a double fluorescent
reporter (mTmG) showed that thyroid C cells in mouse embryos derive from
pharyngeal endoderm instead of the neural crest. It was further shown that endoderm
markers (Foxa1 and Foxa2) are dynamically regulated in invasive medullary thyroid carcinomas
in humans. The actual entry of C cell precursors into the embryonic thyroid
was investigated in paper II. Immunofluorescence and ultrastructural analysis with transmission
electron microscopy indicated that the basement membrane of the ultimobranchial
bodies is degraded before fusing with the thyroid primordium and that the process
required Nkx2-1, a thyroid transcription factor. This suggested that migration and final
parafollicular positioning of thyroid C cells is intrinsically regulated during development.
In paper III, we modified an inducible mouse model of papillary thyroid cancer (the most
common type of thyroid cancer). This mouse model is based on the Cre/loxP-system in
which a BrafV600E mutation (constitutively activating the MAPK pathway) is conditionally
activated only in thyroid follicular cells upon induction with tamoxifen. We discovered
occurrence of sporadic Cre activity in the absence of tamoxifen and that microtumors
developed clonally with functionally normal thyroid follicles side by side. Eventually,
multifocal papillary thyroid carcinomas of different phenotypes (classical, tall-cell, hobnail,
cystic and solid variants) developed within the same gland. Thus, this model enabled
the detailed study of different stages in tumor development under conditions that closely
resemble tumor development in humans. In paper IV, TgCre;BrafV600E mice were recombined
with the mTmG reporter to trace mutant cells before overt tumorigenesis. A great
diversity in proliferation rate among primary GFP-labeled cells that rarely developed into
microtumors suggested the possibility of oncogene-induced senescence. Treatment with
vemurafenib, a specific inhibitor to mutant Braf, inhibited focal tumorigenesis at an early
stage, suggesting feasibility of the model in drug testing.
Parts of work
I. Ellen Johansson, Louise Andersson, Jessica Örnros, Therese Carlsson, Camilla Ingeson-
Carlsson, Shawn Liang, Jakob Dahlberg, Svante Jansson, Luca Parrillo, Pietro Zoppoli,
Guillermo O Barilla, Daniel L Altschuler, Daniela Padula, Heiko Lickert, Henrik Fagman,
Mikael Nilsson -
Revising the embryonic origin of thyroid C cells in mice and humans
Development 2015(142):3519-3528 ::PMID::26395490 II. Ellen Johansson, Shawn Liang, Henrik Fagman, Pina Marotta, Mario De Felice, Bengt R
Johansson, Mikael Nilsson - Guidance of parafollicular cells (C cells) to the embryonic thyroid
involves remodeling of basement membrane Manuscript III. Elin Schoultz, Ellen Johansson, Iva Jakubikova, Shawn Liang, Therese Carlsson, Bengt R
Johansson, Henrik Fagman, Konrad Patyra, Jukka Kero, Martin Bergö, Mikael Nilsson - Follicular origin of tumor heterogeneity in a mouse model of
sporadic papillary thyroid cancer - Manuscript IV. Ellen Johansson, Carmen Moccia, Henrik Fagman, Mikael Nilsson - Tracing tumor-initiating cells in BrafV600E-induced thyroid cancer - Manuscript
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Biomedicine. Department of Medical Biochemistry and Cell Biology
Disputation
Fredagen den 1 juni 2018, kl 13.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3
Date of defence
2018-06-01
ellen.johansson@gu.se
Date
2018-05-14Author
Johansson, Ellen
Keywords
Thyroid gland
Thyroid cancer
Mouse model
Developmental biology
Lineage tracing
Publication type
Doctoral thesis
ISBN
978-91-629-0505-7 (print)
978-91-629-0506-4 (pdf)
Language
eng