| 1. |
- Andersson-Evelönn, Emma, 1983-
(författare)
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DNA methylation as a prognostic marker in clear cell Renal Cell Carcinoma
- 2020
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Clear cell renal cell carcinoma (ccRCC) is the most common type of renal cell carcinoma worldwide. Metastatic ccRCC is correlated to poor prognosis whereas non-metastatic disease has a 5-year survival rate up to 90%. Due to increased accessibility to different types of diagnostic imaging the frequency of metastatic ccRCC at diagnosis has decreased since the beginning of the 21st century. This has led to an earlier detection of primary tumors before patients present symptoms. However, 20-30% of the non-metastatic patients at diagnosis will progress and metastasize within five years of primary nephrectomy. Identifying patients at high risk of tumor progression at an early stage after diagnosis is of importance to improve outcome and survival. Currently, in Sweden, the Mayo scoring system is used to divide tumors into low, intermediate or high risk for tumor progression.DNA methylation has been associated with tumor development and progression in different malignancies. In this thesis, Illumina Infinium HumanMeth27 BeadChip Arrays and Human Meth450K BeadChip Arrays have been used to evaluate the relationship between methylation and clinicopathological variables as well as ccRCC outcome in 45 and 115 patients.Our studies identified an association between higher level of promoter-associated DNA methylation and clinicopathological variables in ccRCC. There was a significant stepwise increase of average methylation from tumor-free tissue, via non-metastatic tumors to metastatic disease. Cluster analysis divided patients into two distinct groups that differed in average methylation levels, TNM stage, Fuhrman nuclear grade, tumor size, survival and tumor progression. We also presented two prognostic classifiers for non-metastatic tumors; the promoter methylation classifier (PMC) panel and the triple classifier. The PMC panel divided tumors depending on the methylation level, PMC low or PMC high, with significantly worse prognosis in the PMC high group. This data was verified in an independent, publically available cohort. The triple classifier was created using a combination of clinicopathological variables, previously identified CpGs biomarkers and a novel cluster analysis approach (Directed Cluster Analysis). The triple classifier had a higher specificity compared to the clinically used Mayo scoring system and predicted tumor progression with higher accuracy at a fixed sensitivity.The identification of two epigenetic classifiers that predicted outcome in non-metastatic ccRCC further establishes the role of DNA methylation as a prognostic marker. This knowledge can contribute to identification of patients with a high risk of tumor progression and can be of importance in the decision regarding adjuvant treatment post-nephrectomy.
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| 2. |
- Degerman, Sofie, 1977-
(författare)
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The immortalization process of T cells : with focus on the regulation of telomere length and telomerase activity
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Cellular immortalization is a major hallmark of cancer and is a multi-step process that requires numerous cell-type specific changes, including inactivation of control mechanisms and stabilization of telomere length. The telomeres at the chromosome ends are essential for genomic stability, and limit the growth potential of most cells. With each cell division, telomeres are shortened. Short telomeres may induce an irreversible growth arrest stage called senescence, or a growth crisis stage characterized by high genomic instability and cell death. Only very rarely do cells escape from crisis and become immortal, a stage that has been associated with the activation of the telomerase enzyme which can elongate and stabilize the telomeres. The processes leading to senescence bypass, growth crisis escape and finally immortalization are only beginning to be elucidated. Most of our knowledge of the immortalization process is based on analyses of human fibroblast and epithelial cell cultures immortalized by genetic modification. In this thesis, spontaneously immortalized human T lymphocytes derived from patients with Nijmegen Breakage Syndrome and a healthy individual were used to identify critical events for senescence bypass and immortalization. Genetic analysis showed a clonal progression and non-random genetic changes including the amplification of chromosomal region 2p13-21 as an early event in the immortalization process. Telomere length gradually shortened at increasing population doublings and growth crisis was associated with critically short telomeres. The clone(s) that escaped growth crisis demonstrated a logarithmic growth curve, very short telomeres and, notably, no increase in telomerase activity or expression of the telomerase catalytic gene, hTERT. Instead, upregulation of telomerase activity and telomere length stabilization were late events in T lymphocyte immortalization. Escape from crisis was associated with downregulation of DNA damage response genes and altered expression of cell cycle regulators and genes controlling the cellular senescence program. These data indicated that a number of layers of regulation are important in the process of immortalization and to provide further mechanistic detail, epigenetic analysis was carried out. Genome wide methylation array analysis identified early and step-wise methylation changes during the immortalization process. Interestingly, applying these findings to tumors of T cell origin revealed commonly methylated CpG sites in transformed cells. Deregulated gene expression of the polycomb complexes may have contributed to the epigenetic changes observed. Taken together, our analysis of spontaneously immortalized T cell cultures identified several steps in the immortalization process including genetic, epigenetic, gene expression and telomere/telomerase regulatory events, contributing further insights to the complexity of cancer cell immortalization.
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| 3. |
- Grabowski, Pawel, 1975-
(författare)
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Telomere length as prognostic parameter in chronic lymphocytic leukemia
- 2011
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- B-cell chronic lymphocytic leukemia (B-CLL) is the most common leukemia among the adult population in western countries and accounts for 30-40% of all leukemias. With survival time ranging from months to decades, the clinical course of individual CLL patients is highly variable. This heterogeneity and in the end the need for means to identify the patients with less favorable disease has encouraged the search for biomarkers that can predict the prognosis. Telomeres are repetitive structures protecting the chromosomal endings and shorten at each cell division. Telomere length (TL) has been indicated as a prognostic factor both in hematological malignancies and solid tumors. In B-CLL, TL is associated with mutation status of the immunoglobulin heavy chain variable (IGHV) gene and with clinical course. In the present thesis the main aim was to evaluate TL as a biomarker in B-CLL using a quantitative PCR-based method for TL determination. In paper I, TL was shown to be a prognostic factor for stage A and stage B/C patients, whereas IGHV mutation status predicted outcome only in stage A patients. Moreover, IGHV mutated CLL cases were subdivided by TL into two groups with different prognosis, a subdivision not seen for unmutated cases. Interestingly, the IGHV-mutated group with short telomeres had en overall survival close to that of the unmutated cases. Thus, a combination of IGHV mutation status and telomere length gave an improved subclassification of CLL identifying previously unrecognized patient groups with different outcomes. TL correlates with cellular origin of B-cell malignancies in relation to the germinal center (GC). In paper II different B-cell lymphoma/leukemia subtypes were analyzed. Shortest telomeres were found in IGHV unmutated CLLs, differing significantly from IGHV mutated cases. Contrary to this, mantle cell lymphomas (MCL) demonstrated similar TL regardless of IGHV mutation status. TL differed significantly between GC-like and non-GC-like diffuse large B-cell lymphomas (DLBCL) and follicular lymphomas (FL) had shorter telomeres than GC-like DLBCL. Hairy cell leukemias, which display Ig gene intraclonal heterogeneity, had longer telomeres than FLs and non-GC-DLBCL, but shorter than GC-DLBCL. In conclusion, TL seemed not to simply correlate with GC origin. Paper III presents a B-CLL cohort assessed for TL, genomic aberrations, IGHV mutation status, CD38 and ZAP-70 expression. An inverse correlation existed between TL and IGHV homology, CD38 and ZAP-70 expression. The presence of genomic aberrations was similar among patients regardless of TL. In contrast, 13q deletion, a favorable biomarker, was more frequent in patients with long telomeres, while 11q and 17p deletions (markers of less favorable outcome) were more frequent in the subgroup with short telomeres. In paper IV a large group of mainly indolent CLL cases from a population based cohort was studied again showing an association between TL and prognosis, especially in “good” prognosis cases as defined by other biomarkers. Multivariate analysis indicated a strong connection between IGHV mutation status, lipoprotein lipase (LPL) expression and TL. A comparison of TL in diagnostic and follow up samples demonstrated a significant correlation, and also in the follow samples TL constituted a significant biomarker for survival.
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| 4. |
- Haider, Zahra, 1988-
(författare)
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DNA methylation signatures in precursor lymphoid neoplasms : with focus on clinical implications & the biology behind
- 2019
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Precursor lymphoid neoplasms, namely acute lymphoblastic leukemias (ALL) and lymphoblastic lymphomas (LBL), are characterized by an aggressive proliferation of malignant progenitor B- or T-cells. To improve risk classification at diagnosis, better prognostic and treatment stratifying biomarkers are needed. Altered DNA methylation pattern is a hallmark of neoplastic transformation, and has been employed as a molecular prognostic and predictive marker in various cancers, including hematological malignancies. Our research group previously identified a CpG island methylator phenotype (CIMP) panel that classified pediatric T-ALL patients into prognostic subgroups.The aim of this thesis was to evaluate distinct DNA methylation signatures in precursor lymphoid neoplasms, and to validate the prognostic value of CIMP classification in separate patient cohorts. Additionally, the biological mechanisms underlying the distinct CIMP methylation signatures in these malignancies were investigated.The prognostic relevance of CIMP classification was validated in an independent Nordic cohort of pediatric T-ALL patients. Combination of CIMP status with minimal residual disease (MRD) status, could further dissect the high-risk MRD positive T-ALL patients into two CIMP subgroups with significantly distinct outcomes. Furthermore, CIMP classification at diagnosis was shown to predict overall survival in relapsed BCP-ALL patients. CIMP methylation signatures were also identified in T-LBL patients, indicating a broader relevance of CIMP based classification in lymphoid malignancies. Investigating the biology behind CIMP methylation signatures showed the association of CIMP status with the proliferative history of the leukemic cells. A differential transcriptomic analysis revealed a correlation of CIMP subgroups with known T-ALL drivers, as well as with novel genes in T-ALL biology. Finally, we identified distinct DNA methylation patterns and genetic aberrations in T-ALL and T-LBL that might contribute to the different clinical presentation of these two diseases. In conclusion, we validated the prognostic significance of CIMP methylation signature in precursor lymphoid malignancies and identified transcriptomic profiles that associated with the subgroups. DNA methylation is a strong candidate for further risk classification in lymphoid neoplasms and our findings can contribute to the identification of new potential targets for treatment.
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| 5. |
- Norén Nyström, Ulrika, 1965-
(författare)
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Vascular density and bone marrow fibrosis in childhood acute lymphoblastic leukemia
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Background: In childhood acute lymphoblastic leukemia (ALL), the cure rate has now reached 80% in the western world. Even so, 15¬–20% will die from the disease or treatment-related causes, among them children who did not present any known unfavorable features at diagnosis. Treatment of childhood ALL is risk-adapted, meaning that certain factors that are related to the child or the leukemic blasts stratifies to more or less intensive treatment. In this thesis, characteristics of the bone marrow (BM) stroma, reflecting the interaction between the leukemic cells and their microenvironment, were evaluated. The aims were to investigate these factors in relation to other known data in order to further understand the biology of leukemia, and to suggest additional risk factors that would further improve decision making for the treatment of individual children diagnosed with ALL. Methods: We retrospectively investigated microvessel density (MVD), blast-congested vessel fraction (BCVF), and degree of fibrosis – reticulin fiber density (RFD) – in sections from diagnostic BM biopsies from children diagnosed in Umeå, Uppsala, and Stockholm. RFD was also studied in BM sections from treatment day 29. Results: RFD had prognostic impact in patients with high-hyperdiploid (HeH) leukemia. Moreover, rapid reduction of RFD during induction treatment was associated with a favorable prognosis compared to slow reduction, in B-cell precursor (BCP) ALL patients. There was also a correlation between RFD at diagnosis and minimal residual disease (MRD) measured by flow cytometry on treatment day 29 in BCP patients. BCP patients with high RFD and high MVD had an unfavorable outcome compared to all other BCP patients. In addition, MVD and RFD were both associated with immunophenotype, and MVD with cytogenetic aberrations. There was a correlation between MVD and WBC count in BCP high-risk patients. There was also a strong correlation between BCVF and WBC count in all BCP patients, but not between BCVF and MVD or RFD. There was a negative correlation between MVD and in vitro cellular resistance to several drugs in BCP patients. A drug-resistance score combining the drugs most strongly correlated to MVD – cytarabine, doxorubicin, and dexametasone (ADD score) – identified the prognostic potential of ADD score in HeH patients with no unfavorable features. Conclusions: Taken together, these studies indicate that stroma factors in leukemia are related to both phenotypic and genotypic features of acute leukemia. Stroma factors also seem to influence the response to induction treatment, in vitro drug resistance, and outcome in certain subgroups of childhood ALL patients. The results emphasize the importance of BM stroma in leukemia and the need for greater use of BM biopsy at diagnosis.
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| 6. |
- Stattin, Eva-Lena, 1960-
(författare)
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Clinical and genetic studies of three inherited skeletal disorders
- 2009
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Mutations in genes of importance for cartilage development may lead to skeletal malformations, chondroskeletal dysfunction and increased susceptibility to degenerative joint disease. Characterization of these mutations and identification of molecular pathways for the corresponding gene products have contributed to our understanding of mechanisms regulating skeletal patterning, endochondral ossification and joint formation. A five generation family segregating autosomal dominant osteochondritis dissecans (OCD) was identified. Affected family members presented with OCD in knees, hips and elbows, short stature, and early osteoarthritis. A genome wide scan and a multipoint linkage analysis identified aggrecan (ACAN) as a prime candidate gene. DNA sequence analysis of the ACAN-gene revealed heterozygosity for a missense mutation (c.6907G>A) in affected subjects, resulting in a p.V2303M substitution in the aggrecan G3 domain C-type lectin. This domain is important for the interaction with other proteins in the cartilage extracellular matrix. To determine the effect of the V2303M substitution on secretion and interaction, we performed binding studies with recombinant mutated and wild type G3 proteins. We found decreased affinity or complete loss of interaction between V2303M aggrecan and fibulin1, fibulin2 and tenascin-R. Analysis of articular cartilage from an affected family member confirmed that V2303M aggrecan is produced and present. In search for gene mutations associated with multiple epiphyseal dysplasia (MED) we considered the ACAN-gene a likely candidate. The ACAN-gene was analysed in 39 individuals with MED and screened negative for mutations in six previously known MED genes. Sequence analysis revealed a heterozygous missense mutation (c.1448G>T) in one adult male and compound heterozygous missense mutations (c.1366T>C and c.836G>A) in a five year old boy with healthy parents, each of them carrier for one of the mutations. A large family segregating autosomal dominant brachymesophalangia and OCD in finger joints was characterised. The clinical presentation in six affected family members was consistent with the diagnosis Brachydactyly type A1, in this family characterized by shortening of the middle phalanges, short ulnar styloid process, flattening of the metacarpal heads and mild osteoarthritis. The condition may be caused by mutations in the Indian hedgehog gene (IHH) or a yet unidentified gene on chromosome 5p13. Sequence analysis of the IHH-gene in affected individuals revealed a novel C to T transition (c.472C>T) leading to a p.158Arg>Cys substitution. Residue 158 in IHH is highly conserved throughout evolution and molecular structure modelling of IHH suggests that the R158C substitution leads to a conformational change at the site of interaction with the IHH-receptor. This supports that the substitution causes Brachydactyly type A1 in this family. In summary, we report on the clinical, radiological and molecular genetic characteristics of the three skeletal disorders OCD, MED and BDA1. Our results provide a novel molecular mechanism in the pathophysiology of familial osteochondritis dissecans confirming the importance of aggrecan C-type lectin for cartilage function. We also show that ACAN-gene mutations may be associated with MED extending the spectrum of skeletal dysplasias associated with the aggrecan gene. Finally, we report on a novel missense mutation in a conserved region of the IHH-gene associated with BDA1.
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| 7. |
- Svenson, Ulrika, 1982-
(författare)
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Telomere length : dynamics and role as a biological marker in malignancy
- 2012
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Telomeres are protective structures at the end of our chromosomes, composed of multiple repeats of the DNA sequence TTAGGG. They are essential for maintaining chromosomal stability by preventing damage and degradation of the chromosome ends. Telomeres are normally shortened with each cell division until a critical length is reached, at which stage cell cycle arrest is induced. Telomere shortening can be prevented in the presence of the telomere-‐elongating enzyme telomerase. Telomerase is expressed during embryogenesis and in certain normal cell types, but most somatic cells exhibit undetectable levels of telomerase activity. In contrast, most cancer cells express telomerase enabling them to proliferate indefinitely.There is a search for reliable molecular markers that can be used to help predict cancer risk and outcome. The interest of investigating telomere length as a potential biomarker in malignancy has grown rapidly, and both tumors and normal tissues have been in focus for telomere length measurements. In this thesis, telomere length was investigated in breast cancer patients and in patients with renal cell carcinoma (RCC). The breast cancer patients were found to have significantly longer mean telomere length in peripheral blood cells (i.e. immune cells) compared to a tumor-‐free control group. Moreover, patients with the longest blood telomere length had a significantly worse outcome compared to patients with shorter blood telomeres. In a patient group with clear cell RCC, telomere length was investigated in peripheral blood cells, in tumors and in corresponding kidney cortex. Again, patients with the longest blood telomere length had a significantly worse prognosis compared to those with shorter blood telomeres. In contrast, telomere length in tumor and kidney cortex tissues did not predict outcome per se.Immunological components may play a role in telomere length dynamics as well as in cancer development. We aimed to investigate a possible association between telomere length and certain immunological parameters, including various cytokines and peripheral levels of a blood cell type with suppressor function [regulatory T cells (Tregs)]. In our patients with clear cell RCC, three cytokines correlated significantly with tumor telomere length, but not with telomere length in peripheral blood cells. In a separate patient group with various RCC tumors, blood telomere length correlated positively with the amount of Tregs. It might be speculated that a subset of patients with long blood telomeres has a less efficient immune response due to high Treg levels, contributing to a worse prognosis.Another aim of this thesis was to explore telomere length changes over time. Evaluation of blood samples collected at a 6-‐month interval from 50 individuals, showed that half of the participants experienced a decline in mean telomere length during the time period. This group had longer telomere length at baseline compared to those who demonstrated increased/stable telomere length. In a separate group of five blood donors, a remarkable drop in telomere length was detected in one donor over a 6-‐month period, whereas the other donors exhibited only small fluctuations in telomere length.In conclusion, the results of this thesis indicate that blood telomere length has potential to act as an independent prognostic marker in malignancy. Adding to the complexity is the fact that changes in blood telomere length might occur within relatively short time spans, indicating that telomere length is a dynamic character.
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| 8. |
- Tumkur Sitaram, Raviprakash, 1974-
(författare)
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Signalling pathways in renal cell carcinoma with a focus on telomerase regulation
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Telomerase is a ribonucleoprotein complex that catalyses telomeric repeat addition at the ends of chromosomes. The catalytic subunit, hTERT, acts as a key determinant for telomerase activity control; the induction of hTERT expression is required for telomerase activity. hTERT participates in cellular immortalization and is elevated in certain malignant tissues. Several tumours exhibit telomerase activity, which contributes to the infinite proliferation capacity that promotes tumour progression. Renal cell carcinoma (RCC) represents 2% of all adult malignancies and has a high mortality rate. The WHO classifies RCC into several sub-types based on cytogenetic aberrations and morphological features; the most prevalent sub-types are clear cell (ccRCC), papillary (pRCC), and chromophobe RCC (chRCC). The aims of this thesis were to study the expression patterns of various signalling molecules, to elucidate the functional links among them, and to define the roles of these signalling molecules in the regulation of hTERT gene expression and telomerase activity in RCC. The first paper included in this thesis revealed mRNA overexpression of DJ-1 (a PTEN inhibitor), cMyc, and hTERT in clinical ccRCC samples compared to tumour-free kidney cortex tissues. Significant, positive correlations were detected for DJ-1, cMyc, and hTERT mRNA levels in ccRCC, but not in pRCC. In vitro knockdown of DJ-1 by siRNA in ccRCC cells induced downregulation of p-Akt, cMyc, hTERT, and telomerase activity. Forced overexpression of DJ-1 in an ovarian carcinoma cell line was followed by increased hTERT promoter activity, which appeared to be dependent on cMYC binding to the promoter. Collectively, the in vitro studies verified a functional link among DJ-1, cMyc, and hTERT as implied in the clinical ccRCC samples. The second paper included in this thesis demonstrated overexpression of NBS1 mRNA levels in ccRCC compared to the kidney cortex. NBS1 mRNA levels exhibited significant, positive correlations with DJ-1, cMyc, and S phase, but not with hTERT. In vitro experiments suggested that DJ-1 could regulate NBS1 gene expression. The role of the hTERT transcriptional repressor WT1 in RCC was evaluated in the third paper included in this thesis. ccRCC samples displayed low WT1 mRNA levels compared to kidney cortex samples. Interestingly, WT1 expression was negatively associated with hTERT and cMyc both of which were elevated in ccRCC. Forced overexpression of WT1 isoforms in a ccRCC cell line increased the expression of several negative transcriptional regulators of hTERT and diminished the expression of hTERT positive regulators. In consequence, hTERT mRNA levels and telomerase activity were reduced. Chromatin immunoprecipitation verified direct binding of WT1 to the cMyc, Smad3, and hTERT promoters. Taken together, these data suggested that in ccRCC, WT1 affects hTERT at the transcriptional level via a combined effect on both positive and negative regulators. In conclusion, DJ-1 can regulate hTERT and telomerase activity through the PI3K pathway encompassing PTEN, NBS1, p-Akt, and cMyc in ccRCC, but not in pRCC. WT1 negatively regulates hTERT and telomerase activity directly and indirectly through multiple pathways in ccRCC.
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| 9. |
- Vernersson Lindahl, Emma, 1980-
(författare)
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Investigating the function of Anaplastic Lymphoma Kinase
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Anaplastic Lymphoma Kinase (ALK) was discovered in 1994, as a chromosomal translocation, t(2;5)(p23;q35), often seen in Anaplastic Large Cell Lymphomas (ALCL). Since then ALK has been extensively studied in this disease as well as in different model organisms. Due to its expression pattern within the central and peripheral nervous system ALK has been implicated in neuronal development. This hypothesis has been further strengthened by studies from Drosophila which have shown Alk to have an important role in optic lobe development. A recently described ALK mouse knockout model do not indicate an essential role for ALK in development, although a potential role within the central nervous system was strengthened. This since ALK-/- animals has an increased number of progenitor cells in the hippocampus and display altered behavior. The overall aim of the studies included in this thesis was to elucidate the function of ALK in the mouse. As a first step toward this goal we conducted an analysis of ALK mRNA and protein expression patterns during development. The strong expression of ALK in neuronal structures supports a role for ALK in neuronal development during embryogenesis. To further investigate the function of ALK in a physiological context we have developed two different ALK knockout strains, the ALK Kinase knockout (KO) and the ALK exon1 KO. The only visible phenotype in these strains is a reduction of total body weight which is apparent in the ALK-/- population when compared to wild type littermates. This size difference seems to take place after birth and is not due to an alteration in food consumption. We have also extensively studied the ALK Kinase KO with respect to gross development, the gastrointestinal canal and the olfactory system. ALK displays a very distinct expression pattern within the gastrointestinal canal being confined to enteric neuron precursors during embryogenesis and enteric nerves in the adult tissue. From these studies we conclude that ALK is not needed for development and viability in mice although it does play a role in regulation of body weight via a presently unknown mechanism. In addition, we have investigated the relationship between the Drosophila and mouse ALK receptor by examining the ability of the Drosophila Alk ligand Jelly-Belly, Jeb, to activate mouse ALK. Using different in vivo and in vitro techniques, we have shown that activation of mouse ALK cannot be accomplished by Drosophila Jeb. From this study we draw the conclusion that during development ligands for the Drosophila and mouse ALK has diverged to a level at which they can no longer substitute for each other.
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