Pancreatic Endocrine Tumourigenesis : Genes of potential importance

Johansson, Térèse A.

January 2008

<p>Understanding signalling pathways that control pancreatic endocrine tumour (PET) development and proliferation may reveal novel targets for therapeutic intervention. The pathogenesis for sporadic and hereditary PETs, apart from mutations of the <i>MEN1</i> and <i>VHL</i> tumour suppressor genes, is still elusive. The protein product of the <i>MEN1</i> gene, menin, regulates many genes. The aim of this thesis was to identify genes involved in pancreatic endocrine tumourigenesis, with special reference to Notch signalling.</p><p>Messenger RNA and protein expression of NOTCH1, HES1, HEY1, ASCL1, NEUROG3, NEUROD1, DLK1, POU3F4, PDX1, RPL10, DKK1 and TPH1 were studied in human PETs, sporadic and MEN 1, as well as in tumours from heterozygous <i>Men1</i> mice. For comparison, normal and <i>MEN1</i> non-tumourous human and mouse pancreatic specimens were used. Nuclear expression of HES1 was consistently absent in PETs. In mouse tumours this coincided with loss of menin expression, and there was a correlation between <i>Men1</i> expression and several Notch signalling factors. A new phenotype consisting of numerous menin-expressing endocrine cell clusters, smaller than islets, was found in <i>Men1</i> mice. Expression of NEUROG3 and NEUROD1 was predominantly localised to the cytoplasm in PETs and islets from MEN 1 patients and <i>Men1</i> mice, whereas expression was solely nuclear in wt mice. Differences in expression levels of Pou3f4, Rpl10 and Dlk1 between islets of <i>Men1</i> and wt mice were observed.</p><p>In addition, combined RNA interference and microarray expression analysis in the pancreatic endocrine cell line BON1 identified 158 target genes of ASCL1. For two of these, DKK1 (a negative regulator of the WNT/β-catenin signalling pathway) and TPH1, immunohistochemistry was performed on PETs. In concordance with the microarray finding, DKK1 expression showed an inverse relation to ASCL1 expression.</p><p>Altered subcellular localisation of HES1, NEUROD1 and NEUROG3 and down-regulation of DKK1 may contribute to tumourigenesis.</p>

Pancreatic endocrine tumour

Multiple endocrine neoplasia type 1

Tumourigenesis

Notch signalling

Notch1

Hes1

Neurog3

Neurod1

Men1

Ascl1

Pou3f4

Pdx1

Rpl10

Dlk1

Dkk1

Tph1

menin

Tumour biology

Tumörbiologi

Tumour Biological Factors Characterizing Metastasizing Serotonin-producing Ileocaecal Carcinoids

Cunningham, Janet Lynn

January 2007

<p>In this study, metastasizing serotonin-producing ileocaecal carcinoid tumours (MSPCs) were examined for biological characteristics that could be used to define clinically relevant subgroups within this patient population. Possible targets for new treatment options were also explored.</p><p>It was found that MSPCs share several biological characteristics such as expression of serotonin, tachykinins (TKs), chromogranin A, islet autoantigen-2 and connective tissue growth factor (CTGF). TKs and serotonin were demonstrated in the same endocrine tumours in the gut and lung. IA-2 expression was shown to be up-regulated in MSPCs, possibly in connection with active hormone secretion. CTGF expression was high in tumour areas adjacent to extensive stroma expressing alpha-smooth muscle actin. This indicated myofibroblast differentiation, which may be associated with fibrosis-related complications prevalent in patients with MSPCs. When compared with other endocrine tumours, MSPCs behaved as a relatively homogeneous group, though within the MSPC population several subgroups could be defined. Patients with tumours displaying either a solid growth pattern and/or a Ki67 index ≥1% had a less favourable prognosis than those who did not. Another group of patients, who had increased plasma TK concentrations, were more likely to suffer from severe diarrhea. This information should be considered when discussing clinical treatment and when undertaking tumour biological studies. New treatment possibilities, such as drugs that specifically target TK receptors and antibodies to CTGF, are also discussed.</p><p>In conclusion, MSPCs comprise a clinically relevant tumour group with similar biological features that are distinct from other endocrine tumours. Subgroups of patients within this patient category can be defined which may be relevant when establishing prognosis and when selecting future treatment modalities.</p>

Internal medicine

endocrine tumour

midgut carcinoid

prognosis

morphology

tachykinin

connective tissue growth factor

islet autoantigen-2

morphology

carcinoid syndrome

Invärtesmedicin

Tumour Biological Factors Characterizing Metastasizing Serotonin-producing Ileocaecal Carcinoids

Cunningham, Janet Lynn

January 2007

In this study, metastasizing serotonin-producing ileocaecal carcinoid tumours (MSPCs) were examined for biological characteristics that could be used to define clinically relevant subgroups within this patient population. Possible targets for new treatment options were also explored. It was found that MSPCs share several biological characteristics such as expression of serotonin, tachykinins (TKs), chromogranin A, islet autoantigen-2 and connective tissue growth factor (CTGF). TKs and serotonin were demonstrated in the same endocrine tumours in the gut and lung. IA-2 expression was shown to be up-regulated in MSPCs, possibly in connection with active hormone secretion. CTGF expression was high in tumour areas adjacent to extensive stroma expressing alpha-smooth muscle actin. This indicated myofibroblast differentiation, which may be associated with fibrosis-related complications prevalent in patients with MSPCs. When compared with other endocrine tumours, MSPCs behaved as a relatively homogeneous group, though within the MSPC population several subgroups could be defined. Patients with tumours displaying either a solid growth pattern and/or a Ki67 index ≥1% had a less favourable prognosis than those who did not. Another group of patients, who had increased plasma TK concentrations, were more likely to suffer from severe diarrhea. This information should be considered when discussing clinical treatment and when undertaking tumour biological studies. New treatment possibilities, such as drugs that specifically target TK receptors and antibodies to CTGF, are also discussed. In conclusion, MSPCs comprise a clinically relevant tumour group with similar biological features that are distinct from other endocrine tumours. Subgroups of patients within this patient category can be defined which may be relevant when establishing prognosis and when selecting future treatment modalities.

Internal medicine

endocrine tumour

midgut carcinoid

prognosis

morphology

tachykinin

connective tissue growth factor

islet autoantigen-2

morphology

carcinoid syndrome

Invärtesmedicin

Pancreatic Endocrine Tumourigenesis : Genes of potential importance

Johansson, Térèse A.

January 2008

Understanding signalling pathways that control pancreatic endocrine tumour (PET) development and proliferation may reveal novel targets for therapeutic intervention. The pathogenesis for sporadic and hereditary PETs, apart from mutations of the MEN1 and VHL tumour suppressor genes, is still elusive. The protein product of the MEN1 gene, menin, regulates many genes. The aim of this thesis was to identify genes involved in pancreatic endocrine tumourigenesis, with special reference to Notch signalling. Messenger RNA and protein expression of NOTCH1, HES1, HEY1, ASCL1, NEUROG3, NEUROD1, DLK1, POU3F4, PDX1, RPL10, DKK1 and TPH1 were studied in human PETs, sporadic and MEN 1, as well as in tumours from heterozygous Men1 mice. For comparison, normal and MEN1 non-tumourous human and mouse pancreatic specimens were used. Nuclear expression of HES1 was consistently absent in PETs. In mouse tumours this coincided with loss of menin expression, and there was a correlation between Men1 expression and several Notch signalling factors. A new phenotype consisting of numerous menin-expressing endocrine cell clusters, smaller than islets, was found in Men1 mice. Expression of NEUROG3 and NEUROD1 was predominantly localised to the cytoplasm in PETs and islets from MEN 1 patients and Men1 mice, whereas expression was solely nuclear in wt mice. Differences in expression levels of Pou3f4, Rpl10 and Dlk1 between islets of Men1 and wt mice were observed. In addition, combined RNA interference and microarray expression analysis in the pancreatic endocrine cell line BON1 identified 158 target genes of ASCL1. For two of these, DKK1 (a negative regulator of the WNT/β-catenin signalling pathway) and TPH1, immunohistochemistry was performed on PETs. In concordance with the microarray finding, DKK1 expression showed an inverse relation to ASCL1 expression. Altered subcellular localisation of HES1, NEUROD1 and NEUROG3 and down-regulation of DKK1 may contribute to tumourigenesis.

Pancreatic endocrine tumour

Multiple endocrine neoplasia type 1

Tumourigenesis

Notch signalling

Notch1

Hes1

Neurog3

Neurod1

Men1

Ascl1

Pou3f4

Pdx1

Rpl10

Dlk1

Dkk1

Tph1

menin

Tumour biology

Tumörbiologi