Transcriptional regulation of thyroid development possible interplay of endoderm- and mesoderm-derived morphogenetic signals
Sammanfattning
Congenital hypothyroidism (CH) affects 1 in 3000 children and is the major cause of treatable mental
retardation. Most cases are due to malformations of the gland, collectively named thyroid dysgenesis. The
disease results from defective thyroid organogenesis during embryonic life. However, the molecular
mechanisms of pathogenesis are largely unknown. In recent years, identification and functional analysis of
thyroid developmental genes in murine models have indicated that both cell-autonomous and non-cellautonomous
mechanisms, involving the thyroid progenitors themselves and the surrounding embryonic
tissues, respectively, are of importance. In this thesis, four important morphogenetic regulatory molecules
were investigated for novel putative functions in mouse thyroid development.
In paper I, the thyroid expression and function of the T-box transcription factor Tbx1 were examined in
wild-type and Tbx1 null mutant mouse embryos. Tbx1 immunoreactivty was present in the splanchic
mesoderm adjacent to the thyroid but not in the thyroid progenitors. The thyroid of Tbx1 deficient
embryos was severely dysplastic resembling hemiagenesis and lacked C-cellls. It was further evidenced
that the Tbx1-/- thyroid phenotype was related to delayed budding and failure of the disclosed thyroid
rudiment to establish contact with embryonic vessels of the cardiac outflow tract.
The LIM homeodomain transcription factor Isl1 was found to be expressed in both thyroid progenitors and
surrounding mesenchyme (paper II). The Isl1 expression pattern was altered in a distinct spatiotemporal
manner during the different developmental steps (budding, migration and fusion of the thyroid primordia).
However, thyroid specification was not affected in Isl1 null mutants. In late development Isl1 identified
the C-cell precursors, but Isl1 was largely down-regulated in mature adult C-cells. In addition, Isl1
transcript was detected in human medullary thyroid cancer.
In paper III, the forkhead transcription factor Foxa2 was found to be an embryonic marker of pharyngeal
endoderm, lateral thyroid anlagen (ultimobranchial bodies) and C-cells. The Foxa2 expression was
maintained in adult C-cells. However, Foxa2 was specifically excluded from the follicular progenitors in
the median thyroid bud, and was not expressed in the thyroid follicles.
Foxa2 and calcitonin expression were employed to investigate the origin and fate of C-cell precursors in
mouse embryos deficient of the secreted morphogen Sonic hedgehog (Shh) (paper IV). This showed that
C-cell precursors did not colonize the embryonic thyroid but were aberrantly located in the pharyngeal
endoderm and other endoderm derivatives. The Shh-/- phenotype was linked to impaired fusion of thyroid
primordia, primarily caused by failure of the ultimobranchial bodies to bud from the fourth pharyngeal
pouch. Paper IV also revealed that genetically fate mapped Shh expressing endoderm progenitors were
largely excluded from the thyroid primordia. However, Shh was neo-expressed in a subset of follicular
progenitors in late development of the prospective thyroid lobes.
Taken together, the results of this thesis identify Tbx1 and Shh as novel regulators of mammalian thyroid
organogenesis. This is likely manufactured in part by morphogenetic mechanisms superimposing on the
development of the entire pharyngeal apparatus and also cell-autonomous regulatory networks. Isl1 and
Foxa2 are proven to be novel embryonic markers of C-cell precursors. Collectively, the data support the
hypothesis of an endoderm origin of mouse thyroid C-cells.
Delarbeten
I. Fagman H*, Liao J*, Westerlund J*, Andersson L, Morrow BE, Nilsson M. The 22q11 deletion syndrome candidate gene Tbx1 determines thyroid size and positioning. Human Molecular Genetics. 2007 Feb1; 16(3):276-85. *Contributed equally as joint First Authors ::pmid::17164259 II. Westerlund J, Andersson L, Carlsson T, Zoppoli P, Fagman H, Nilsson M. Expression of Islet1 in thyroid development related to budding, migration, and fusion of primordia. Developmental Dynamics (in press). III. Westerlund J*, Andersson L, Carlsson T, Fagman H, Nilsson M. Foxa family members mark embryonic progenitor cells differentiating into C-cells in the developing thyroid gland. Manuscript. *Contributed equally as joint First Authors IV. Westerlund J, Andersson L, Carlsson T, Fagman H, Nilsson M. Sonic hedgehog regulates the fusion of midline and lateral embryonic thyroid primordia and entry of C-cell precursors to the thyroid gland. Manuscript.
Examinationsnivå
Doctor of Philosophy (Medicine)
Universitet
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Biomedicine. Department of Medical Biochemistry and Cell Biology
Disputation
Fredagen den 31 oktober 2008, kl. 9.00, i hörsal Arvid Carlsson, Academicum, Medicinaregatan 3, Göteborg
Datum för disputation
2008-10-31
E-post
jessica.westerlund@anatcell.gu.se
Datum
2008-10-14Författare
Westerlund, Jessica
Nyckelord
thyroid
congenital hypothyroidism
dysgenesis
Tbx1
Shh
Isl1
Foxa2
C-cells
Publikationstyp
Doctoral thesis
ISBN
978-91-628-7558-9
Språk
eng