NOVEL GENES REGULATED BY THE HEDGEHOG PATHWAY, AND THEIR CONTRIBUTION TO LIMB AND CRANIOFACIAL DEVELOPMENT.

Liam Town

Unknown Date

The hedgehog morphogenic pathway is essential for the development of numerous organs and tissues in both vertebrates and invertebrates, and dysregulation of hedgehog signalling is also associated with a broad range of mammalian cancers. While a great deal of research has been dedicated to understanding the molecular interactions of the hedgehog signalling pathway itself, much work remains in understanding the downstream transcriptional output of the pathway, and how that output modulates cellular behaviour in target tissues to produce developmental outcomes. The hedgehog pathway is activated by hedgehog proteins and repressed by patched. Downstream of these regulators, the hedgehog signalling cascade involves modification and trafficking of a series of key proteins and ultimately leads to regulation of the GLI family of transcription factors, thereby modulating the transcriptional output of the pathway. This thesis builds on previous work investigating downstream targets of one GLI protein – GLI3 – in the mouse limb (McGlinn et al., 2005). This previous study identified genes that were dysregulated in the anterior limb of the Gli3-null, extra-toes strain of mice (Gli3Xt/Xt). Amongst the identified targets of GLI3 were a number of novel genes. However, further detailed analysis of these genes was not conducted, and therefore, this thesis investigates the embryonic expression or function of three of these novel downstream targets of GLI3, to clarify their regulation by the hedgehog pathway and identify their broader role throughout development. One published work and one paper submitted for publication are contained within this thesis, describing detailed expression of two novel SHH targets, Zinc finger protein 503 (Zfp503) and Pitrolysin metallopeptidase 1 (Pitrm1). Zfp503 belongs to a family of transcription factors that regulate aspects of development across a diversity of species. However, their role in mammals and avians has been poorly described. This manuscript presents a detailed description of Zfp503 expression in the mouse and chicken and examines regulation of Zfp503 in the limb by SHH and BMP signalling. My contribution to this paper was the analysis of WT Zfp503 expression in mouse and chick by section in situ hybridisation, and as such, I am listed as a middle author. Pitrm1 is a metallopeptidase with a broad range of predicted target molecules. Comparisons with family members in mammals and plants suggest Pitrm1 has mitochondrial function and is implicated in the pathology of Alzheimers disease. It is upregulated in response to hedgehog pathway activation in the anterior limb of two mouse models of hedgehog signalling– the Gli3Xt/Xt and Ptch1:Prx-Cre mouse line, which deletes patched1 in the developing limb. It is expressed in multiple developing tissues that are patterned by SHH, suggesting that Pitrm1 may be an important regulator of developmental processes downstream of SHH. For the Pitrm1 manuscript, I contributed the majority of the experimental data and prepared the manuscript, and therefore, I am the first listed author. A third downstream hedgehog target gene described in this thesis is Tmem26. Tmem26 is an entirely novel gene with unknown cellular function, although concurrent work in the Wicking laboratory suggests that Tmem26 regulates cell migration and morphology in cell culture. Tmem26 is negatively regulated by SHH in the anterior mouse limb at 11.5dpc, as shown by use of Gli3Xt/Xt and Ptch1:Prx-Cre mice. Tmem26 expression in wild-type mice is spatially restricted and strikingly evident in the facial prominences, particularly near the point of fusion of the developing lip and in the shelves of the secondary palate. This suggests that Tmem26 may be involved in lip and palate formation and possibly play a role in the common human birth disorders of cleft lip and cleft palate. Generation of a Tmem26 conditional knockout mouse line, followed by germline inactivation of Tmem26 using a ubiquitously expressed Cre line, did not reveal a craniofacial phenotype in embryos or adults. Knockout mice appear healthy and fertile with no obvious developmental defects. This does not preclude a role for Tmem26 in facial development however, as molecular redundancy may be able to compensate for Tmem26 loss in mice. Tmem26 is also expressed in cells and organs of the adult immune system and suggests an alternative possible role for Tmem26 in regulating immune function that could be further investigated using the Tmem26 conditional knockout mouse line.

Shh

Zfp503

Hedgehog

Pitrm1

Gli3

Tmem26

Ptch1

palate

Craniofacial Development

Tumeurs des maxillaires avec anomalies du développement : à partir des modèles de tumeurs kératokystiques odontogènes et du chérubinisme / Developmental disease associated to jaw bone tumors : from 2 models keratocystic odontogenic tumor and Cherubism

Kadlub, Natacha

25 September 2015

Afin de mieux comprendre les bases physiopathologiques des tumeurs osseuses des mâchoires, nous avons étudié deux modèles de tumeurs associées à des mutations génétiques connues : la tumeur kératokystique odontogène (TKO), liée à la mutation de PTCH1, et le chérubinisme, lié à la mutation de SH3BP2. Au regard des travaux d’oncogénétique, nous formulons l’hypothèse que le développement des tumeurs ostéolytiques bénignes des mâchoires de l’enfant et leur agressivité repose sur un mécanisme génétique. Nous avons montré que la présence d’une mutation de PTCH1 (germinale avec syndrome de Gorlin) dans les TKO était un facteur de mauvais pronostic, stimulant un centre tumoral secondaire, responsable de lésions à distance, mais que cette agressivité pouvait aussi être liée à des mécanismes inflammatoires. Dans le chérubinisme, nous avons montré que la mutation était responsable du phénotype, mais que le type de mutation n’influençait pas le pronostic ni l’agressivité. L’agressivité tumorale est liée au phénotype des cellules géantes multinucléées (cellules myéloïdes à différenciation macrophagique ou ostéoclastique). Nous avons montré, que le modèle murin ne pouvait pas s’appliquer à la pathologie humaine, avec notamment un rôle très secondaire du TNF-α. Enfin nous avons démontré le rôle important de NFATc1 dans la physiopathologie du chérubinisme qui nous a permis de proposer, le tacrolimus, comme le premier agent thérapeutique efficace. Nos résultats suggèrent que les mutations induisent la pathologie et que les changements du microenvironnement (liés à la flore buccale ou à l’éruption dentaire) entretiennent la pathologie. / To determine pathophysiological bases of jawbone tumors, we studied two genetic models of jawbone tumors: keratocystic odontogenic tumors (KOT) associated to PTCH1 mutation and cherubism associated to SH3BP2 mutation. From oncogenetic theory, we postulate that genetic background controls the development of benign children jawbone tumors. From our work, we demonstrated that PTCH1 mutation (germline mutation in Gorlin syndrome) was an unfavorable prognosis factor for KOT, leading to distant and independent daughter tumors. Moreover, we showed, that chorionic inflammation was associated with a high recurrence rate. In cherubism, SH3BP2 mutation produced cherubism phenotype, but the type of mutation did not affect the aggressiveness of the disease. Cherubism aggressiveness was determined by the phenotype of giant multinucleated cells (whether osteoclasts or macrophages). Furthermore, we showed that murine model could not be transposed to human pathology; indeed it appeared that TNF- α did not play a critical role in human cherubism. On the other side, we showed that NFATc1 played a crucial role in cherubism pathophysiology; this observation allowed us to propose, the tacrolimus, as an effective treatment for this disease. Our results suggest that genetic background induced tumor development, and that microenvironment changes (due to flora of the oral cavity and to teeth eruptions) are responsible to the maintenance and the progression of the disease.

Chérubinisme

Tumeur kératokystique odontogène

Oncogénétique

Microenvironnement

PTCH1

Éruption dentaire

SH3BP2

Tumeur maxillaire

Cherubism

Keratocystic odontogenic tumors

Oncogenetic

Microenvironment

PTCH1

Teeth eruption

SH3BP2

Jawbone tumors

616.645

Tumeurs des maxillaires avec anomalies du développement : à partir des modèles de tumeurs kératokystiques odontogènes et du chérubinisme / Developmental disease associated to jaw bone tumors : from 2 models keratocystic odontogenic tumor and Cherubism

Kadlub, Natacha

25 September 2015

Afin de mieux comprendre les bases physiopathologiques des tumeurs osseuses des mâchoires, nous avons étudié deux modèles de tumeurs associées à des mutations génétiques connues : la tumeur kératokystique odontogène (TKO), liée à la mutation de PTCH1, et le chérubinisme, lié à la mutation de SH3BP2. Au regard des travaux d’oncogénétique, nous formulons l’hypothèse que le développement des tumeurs ostéolytiques bénignes des mâchoires de l’enfant et leur agressivité repose sur un mécanisme génétique. Nous avons montré que la présence d’une mutation de PTCH1 (germinale avec syndrome de Gorlin) dans les TKO était un facteur de mauvais pronostic, stimulant un centre tumoral secondaire, responsable de lésions à distance, mais que cette agressivité pouvait aussi être liée à des mécanismes inflammatoires. Dans le chérubinisme, nous avons montré que la mutation était responsable du phénotype, mais que le type de mutation n’influençait pas le pronostic ni l’agressivité. L’agressivité tumorale est liée au phénotype des cellules géantes multinucléées (cellules myéloïdes à différenciation macrophagique ou ostéoclastique). Nous avons montré, que le modèle murin ne pouvait pas s’appliquer à la pathologie humaine, avec notamment un rôle très secondaire du TNF-α. Enfin nous avons démontré le rôle important de NFATc1 dans la physiopathologie du chérubinisme qui nous a permis de proposer, le tacrolimus, comme le premier agent thérapeutique efficace. Nos résultats suggèrent que les mutations induisent la pathologie et que les changements du microenvironnement (liés à la flore buccale ou à l’éruption dentaire) entretiennent la pathologie. / To determine pathophysiological bases of jawbone tumors, we studied two genetic models of jawbone tumors: keratocystic odontogenic tumors (KOT) associated to PTCH1 mutation and cherubism associated to SH3BP2 mutation. From oncogenetic theory, we postulate that genetic background controls the development of benign children jawbone tumors. From our work, we demonstrated that PTCH1 mutation (germline mutation in Gorlin syndrome) was an unfavorable prognosis factor for KOT, leading to distant and independent daughter tumors. Moreover, we showed, that chorionic inflammation was associated with a high recurrence rate. In cherubism, SH3BP2 mutation produced cherubism phenotype, but the type of mutation did not affect the aggressiveness of the disease. Cherubism aggressiveness was determined by the phenotype of giant multinucleated cells (whether osteoclasts or macrophages). Furthermore, we showed that murine model could not be transposed to human pathology; indeed it appeared that TNF- α did not play a critical role in human cherubism. On the other side, we showed that NFATc1 played a crucial role in cherubism pathophysiology; this observation allowed us to propose, the tacrolimus, as an effective treatment for this disease. Our results suggest that genetic background induced tumor development, and that microenvironment changes (due to flora of the oral cavity and to teeth eruptions) are responsible to the maintenance and the progression of the disease.

Chérubinisme

Tumeur kératokystique odontogène

Oncogénétique

Microenvironnement

PTCH1

Éruption dentaire

SH3BP2

Tumeur maxillaire

Cherubism

Keratocystic odontogenic tumors

Oncogenetic

Microenvironment

PTCH1

Teeth eruption

SH3BP2

Jawbone tumors

616.645

Tumeurs des maxillaires avec anomalies du développement : à partir des modèles de tumeurs kératokystiques odontogènes et du chérubinisme / Developmental disease associated to jaw bone tumors : from 2 models keratocystic odontogenic tumor and Cherubism

Kadlub, Natacha

25 September 2015

Afin de mieux comprendre les bases physiopathologiques des tumeurs osseuses des mâchoires, nous avons étudié deux modèles de tumeurs associées à des mutations génétiques connues : la tumeur kératokystique odontogène (TKO), liée à la mutation de PTCH1, et le chérubinisme, lié à la mutation de SH3BP2. Au regard des travaux d’oncogénétique, nous formulons l’hypothèse que le développement des tumeurs ostéolytiques bénignes des mâchoires de l’enfant et leur agressivité repose sur un mécanisme génétique. Nous avons montré que la présence d’une mutation de PTCH1 (germinale avec syndrome de Gorlin) dans les TKO était un facteur de mauvais pronostic, stimulant un centre tumoral secondaire, responsable de lésions à distance, mais que cette agressivité pouvait aussi être liée à des mécanismes inflammatoires. Dans le chérubinisme, nous avons montré que la mutation était responsable du phénotype, mais que le type de mutation n’influençait pas le pronostic ni l’agressivité. L’agressivité tumorale est liée au phénotype des cellules géantes multinucléées (cellules myéloïdes à différenciation macrophagique ou ostéoclastique). Nous avons montré, que le modèle murin ne pouvait pas s’appliquer à la pathologie humaine, avec notamment un rôle très secondaire du TNF-α. Enfin nous avons démontré le rôle important de NFATc1 dans la physiopathologie du chérubinisme qui nous a permis de proposer, le tacrolimus, comme le premier agent thérapeutique efficace. Nos résultats suggèrent que les mutations induisent la pathologie et que les changements du microenvironnement (liés à la flore buccale ou à l’éruption dentaire) entretiennent la pathologie. / To determine pathophysiological bases of jawbone tumors, we studied two genetic models of jawbone tumors: keratocystic odontogenic tumors (KOT) associated to PTCH1 mutation and cherubism associated to SH3BP2 mutation. From oncogenetic theory, we postulate that genetic background controls the development of benign children jawbone tumors. From our work, we demonstrated that PTCH1 mutation (germline mutation in Gorlin syndrome) was an unfavorable prognosis factor for KOT, leading to distant and independent daughter tumors. Moreover, we showed, that chorionic inflammation was associated with a high recurrence rate. In cherubism, SH3BP2 mutation produced cherubism phenotype, but the type of mutation did not affect the aggressiveness of the disease. Cherubism aggressiveness was determined by the phenotype of giant multinucleated cells (whether osteoclasts or macrophages). Furthermore, we showed that murine model could not be transposed to human pathology; indeed it appeared that TNF- α did not play a critical role in human cherubism. On the other side, we showed that NFATc1 played a crucial role in cherubism pathophysiology; this observation allowed us to propose, the tacrolimus, as an effective treatment for this disease. Our results suggest that genetic background induced tumor development, and that microenvironment changes (due to flora of the oral cavity and to teeth eruptions) are responsible to the maintenance and the progression of the disease.

Chérubinisme

Tumeur kératokystique odontogène

Oncogénétique

Microenvironnement

PTCH1

Éruption dentaire

SH3BP2

Tumeur maxillaire

Cherubism

Keratocystic odontogenic tumors

Oncogenetic

Microenvironment

PTCH1

Teeth eruption

SH3BP2

Jawbone tumors

616.645

Ο ρόλος του σηματοδοτικού μονοπατιού Sonic Hedgehog στον καρκίνο του πνεύμονα

Γιαλμανίδης, Ιωάννης

03 July 2009

Με την εργασία έγινε μελέτη του σηματοδοτικού μονοπατιού Sonic Hedgehog σε 96 περιστατικά καρκίνου πνεύμονα με τη μέθοδο της ανοσοϊστοχημείας. Επίσης μελετήσαμε την πιθανή συμμετοχή του μεταγραφικού παράγοντα FoxM1 στο καρκίνωμα του πνεύμονα και την πιθανή συσχέτισή του με το μονπάτι του Hedgehog. Έγινε μελέτη της έκφρασης των μορίων Shh, Ptch1, Smo, Gli1, Gli2 και FoxM1. Τα αποτελέσματα αποκάλυψαν μια έντονη έκφραση των μορίων του μονοπατιού και αυξημένα ποσοστά ενεργοποίησής του. Επίσης βρέθηκε στατιστικά σημαντική συσχέτιση με τα πλακώδη καρκινώματα και με τα χαμηλού grade καρκινώματα. Ανάλογη σημαντική συσχέτιση βρέθηκε και με το φύλο,συχνότερα ενεργοποιημένο μονοπάτι στους άντρες. Ακόμα ανιχνεύτηκε μια συσχέτιση της έκφρασης του FoxM1 με το ενεργοποιημένο μονοπάτι. / The hedgehog (HH)-signaling pathway is implicated in developmental processes and its aberrant activation in adult tissues has been associated with malignancy. The aim of this study was to determine the expression pattern of HH-signaling molecules in lung carcinomas, as well as the involvement of the transcription factor FOXM1, that controls cell proliferation, in this process. Paraffin-embedded tissue sections of 96 lung cancer cases and adjacent non-neoplastic lung parenchyma were immunohistochemically analyzed with anti-SHH, anti-Patched1 (PTCH1), anti-Smoothened (SMO), anti-GLI1, anti-GLI2 and anti-FOXM1 antibodies. Correlations of HH molecules with clinicopathological parameters and FOXM1 expression were evaluated. All the HH-signaling molecules examined were overexpressed in lung cancer compared with the adjacent non-neoplastic lung parenchyma. HH pathway activity and expression of PTCH1 and SMO were significantly higher in squamous cell carcinomas compared to other histological types. Activation of HH pathway and PTCH1 expression were correlated with tumor grade being higher in low grade tumors. There was a significant correlation of lymph node metastases with expression of SMO in all histological types and with the gender higher in men. Overexpression of FOXM1 in lung cancer was also significantly correlated with PTCH1, SMO and GLI1 expression. In conclusion, HH-signaling pathway is activated in lung cancer and correlates with histological type, prognostic parameters of the tumors as well as with the increased expression of FOXM1.

Καρκίνος πνεύμονα

Ανοσοϊστοχημεία

616.994 240 7

Lung cancer

Non small cell lung carcinoma

Immunohistochemistry

Molecular pathway

Sonic Hedgehog

Shh

Ptch1

Smo

Gli1

Gli2

FoxM1

Die Bedeutung der Hedgehog- Signalkaskade in der Tumorgenese von spinalen und kraniellen Chordomen / The role of hedgehog signaling pathway in skull base and sacrum chordomas

Klemer-Harcej, Amanda Angelika

17 July 2017

No description available.

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