| 1. |
- Alkaissi, Hammoudi, 1983-
(författare)
-
Identification of candidate genes involved in Mercury Toxicokinetics and Mercury Induced Autoimmunity
- 2018
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- BACKGROUND: Autoimmune diseases require the involvement and activation of immune cells and occur when the body builds up an immune response against its own tissues. This process takes place due to the inability to distinguish self-antigen from foreign antigen. Systemic autoimmunity represents an important cause of morbidity and mortality in humans. The mechanisms triggering autoimmune responses are complex and involve a network of genetic factors. Genome wide association study (GWAS) is a powerful method, used to identify genetic risk factors in numerous diseases, such as systemic autoimmune diseases. The goal of GWAS is to identify these genetic risk factors in order to make predictions about who is at risk and investigate the biological process of disease susceptibility. There are several valuable mouse models to investigate the underlying mechanisms causing systemic autoimmune diseases in which mercury induced autoimmunity (HgIA) is a well- established and relevant model. HgIA in mice includes development of autoantibodies, immune complex glomerulonephritis, lymphocyte proliferation, hypergammaglobulinemia and polyclonal B cell activation. In humans, mercury exposure accumulates with considerable concentrations in kidney, liver, and brain. Toxicokinetics of Hg has been studied extensively but the key for inter-individual variation in humans are largely unclear. Differences in accumulation of renal Hg between inbred mouse strains suggest a genetic inter-strain variation regulating retention or/and excretion of Hg.OBJECTIVES: To find loci and candidate genes associated with phenotypes involved in the development of autoimmunity and find candidate genes involved in the regulation of renal Hg excretion.METHODS: MHC II (H-2s) mice were paired (A.SW x B10.S) to obtain F2 offspring exposed to 2.0 or 4.0 mg Hg in drinking water for 6 weeks. Mercury induced autoimmune phenotypes were studied with immunofluorescence (anti-nucleolar antibodies (ANoA)), ELISA anti-DNP/anti-ssDNA (polyclonal B cell activation), anti-chromatin antibodies (ACA) (4.0 mg Hg), and serum IgG1 concentrations. Mercury accumulation in kidney was performed previously and data was included as phenotype. F2 mice exposed to 2.0 mg Hg were genotyped with microsatellites for genome-wide scan with Ion Pair Reverse Phase High Performance Liquid Chromatography (IP RP HPLC). F2 mice exposed to 4.0 mg Hg were genotyped with single nucleotide polymorphisms for genomewide scan with SNP&SEQ technology platform. Quantitative trait loci (QTL) was established with R/QTL. Denaturing HPLC, next generation sequencing, conserved region analysis and genetic mouse strain comparison were used for haplotyping and fine mapping on QTLs associated with Hg concentration in kidney, development of ANoA and serum IgG1 hypergammaglobulinemia. Candidate genes (Pprc1, Bank1 and Nfkb1) verified by additional QTL were further investigated by real time polymerase chain reaction. Genes involved in the intracellular signaling together with candidate genes were included for gene expression analysis.RESULTS: F2 mice exposed to 2.0 mg Hg had low or no development of autoantibodies and showed no significant difference in polyclonal B cell activation in the B10.S and F2 strains. F2 mice exposed to 4.0 mg Hg developed autoantibodies and significantly increased IgG1 concentration and polyclonal B cell activation (anti-DNP). QTL analysis showed a logarithm of odds ratio (LOD) score between 2.9 – 4.36 on all serological phenotypes exposed to 4.0 mg Hg, and a LOD score of 5.78 on renal Hg concentration. Haplotyping and fine mapping associated the development of ANoA with Bank1 (B-cell scaffold protein with ankyrin repeats 1) and Nfkb1 (nuclear factor kappa B subunit 1). The serum IgG1 concentration was associated with a locus on chromosome 3, in which Rxfp4 (Relaxin Family Peptide/INSL5 Receptor 4) is a potential candidate gene. The renal Hg concentration was associated with Pprc1 (Peroxisome Proliferator-Activated Receptor Gamma, Co-activator-Related). Gene expression analysis revealed that the more susceptible A.SW strain expresses significantly higher levels of Nfkb1, Il6 and Tnf than the less susceptible B10.S strain. The A.SW strain expresses significantly lower levels of Pprc1 and cascade proteins than the B10.S strain. Development of ACA was associated with chromosomes 3, 6, 7 and 16 (LOD 3.1, 3.2, 3.4 and 6.8 respectively). Polyclonal B cell activation was associated with chromosome 2 with a LOD score of 2.9.CONCLUSIONS: By implementing a GWAS on HgIA in mice, several QTLs were discovered to be associated with the development of autoantibodies, polyclonal B cell activation and hypergammaglobulinemia. This thesis plausibly supports Bank1 and Nfkb1 as key regulators for ANoA development and HgIA seems to be initiated by B cells rather than T cells. GWAS on renal mercury excretion plausibly supports Pprc1 as key regulator and it seems that this gene has a protective role against Hg.
|
|
| 2. |
- Andersson, Patiyan, 1978-
(författare)
-
Molecular Genetic Studies on Prostate and Penile Cancer
- 2008
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- This thesis is comprised of two parts. In the first part we study the influence of four frequently disputed genes on the susceptibility for developing prostate cancer, and in the second part we attempt to establish a basic understanding of the molecular genetic events in penile cancer.In a prostate cancer cohort we have investigated the relation of prostate cancer risk and single nucleotide polymorphisms (SNPs) in four different genes coding for the androgen receptor (AR), the vitamin D receptor (VDR), insulin (INS) and insulin receptor substrate 1 (IRS1). Despite strong biological indications of an involvement of these genes in prostate carcinogenesis, the results from different studies are contradictory and inconclusive.The action of the AR varies between individuals in part owing to a repetitive CAG sequence (polyglutamine) in the first exon of the AR gene. The results presented in this thesis show that in our cohort of prostate cancer patients the average number of repeats is 20.1, which is significantly (p<0.001) fewer repeats compared to healthy control individuals, where the average is 22.5 repeats. We find a 4.94 fold (p=0.00003) increased risk of developing prostate cancer associated with having short repeat lengths (≤19 repeats), compared with long repeats (≥23 repeats). In paper I we also study the TaqI polymorphism in the VDR gene, and find that it does not modify the risk of prostate cancer.In the INS gene we study the +1127 PstI polymorphism and find no overall effect on the risk of prostate cancer. However, we do find that the CC genotype is associated with low grade disease defined as having a Gleason score ≤6 (OR=1.46; p=0.018). In the IRS1 gene we study the G972R polymorphism and observe that the R allele is significantly associated with a 2.44 fold increased prostate cancer risk (p=0.010).The knowledge of molecular genetic events in penile cancer is very scarce and to date very few genes have been identified to be involved in penile carcinogenesis. We chose therefore to analyse the penile cancer samples using genome-wide high-density SNP arrays. We find major regions of frequent copy number gain in chromosome arms 3q, 5p and 8q, and slightly less frequent in 1p, 16q and 20q. The chromosomal regions of most frequent copy number losses are 3p, 4q, 11p and 13q. We suggest four candidate genes residing in these areas, the PIK3CA gene (3q26.32), the hTERT gene (5p15.33), the MYC gene (8q24.21) and the FHIT gene (3p14.2).The mutational status of the PIK3CA and PTEN genes in the PI3K/AKT pathway and the HRAS, KRAS, NRAS and BRAF genes in the RAS/MAPK pathway was assessed in the penile cancer samples. We find the PIK3CA, HRAS and KRAS genes to be mutated in 29%, 7% and 3% of the cases, respectively. All mutations are mutually exclusive. In total the PI3K/AKT and RAS/MAPK pathways were found to be activated through mutation or amplification in 64% of the cases, indicating the significance of these pathways in the aetiology of penile cancer.
|
|
| 3. |
- Dutta, Ravi Kumar, 1983-
(författare)
-
Genetic and molecular alterations in aldosterone producing adenomas
- 2020
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Aldosterone producing tumors (APA, also known as Conn tumors) are adrenal tumors that overproduce aldosterone, a hormone that regulates the sodium levels in blood and contributes to blood pressure (BP) regulation. Excessive production of aldosterone causes hypertension and approximately 5-15% of hypertensive patients have hyperaldosteronism, known as primary aldosteronism (PA). Major causes of PA are bilateral adrenal hyperplasia (BAH) or aldosterone producing adenoma (APA) and about 30% of PA patients have APAs. In most cases, the disease is unilateral, in rare case bilateral. Patients with APA are often detected when they have elevated blood pressure (BP>160/100mmHg) or when BP cannot be controlled with drugs. Surgery dramatically normalizes or lowers BP in patients with APA.In this thesis, we first explored the mutation frequency in susceptibility genes in sporadic APAs. About 60% of APAs displayed complementary mutations in the KCNJ5, ATP1A1, ATP2B3, CTNNB1, CACNAID and CLCN2 genes (Paper I, II & III). Copy number variation analysis of 35 APAs identified amplification of chromosome 10q24.31 in two tumors, where CALHM1-3- genes encoding for potential calcium ion channels are located. Only CALHM2 is expressed in adrenals and sequencing of CALHM2 revealed three different heterozygous sequence variants; c.341_42delCT (CALHM2P114Rfs*12), c.286G>A (CALHM2A96T) and c.580G>A (CALHM2V194M) in 5 APAs. CALHM2 is expressed in the mitochondrial membranes and Ca2+ imaging revealed that CALHM2 has selection of another ion rather than Ca2+. The genetic variant CALHM2V194M converts CALHM2 into a non-selective channel and results in higher Ca2+ conductance in mitochondria. We further found that loss of CALHM2 function upregulates REELIN/LRP8 signaling activating β-catenin dependent transcription of target genes (Paper II). In Paper IV, we investigated Scandinavian APA cases (n=35) and Swedish controls (n=60) for GWAS and discovered a susceptibility locus on chromosome Xq13.3 in a 4 Mb region to be significantly associated with APAs. Significance level was still same after genotyping the sentinel SNP rs2224095 in a replication cohort of APAs (n=52) and controls (n=740). Sequencing of an adjacent gene of the sentinel SNP, MAGEE1, identified a rare variant in one APA, which is complementary to other mutations in our primary cohort. In Summary, our studies have increased the knowledge of molecular genetic events in APAs. The results may contribute to find future non-surgical treatments for APAs.
|
|
| 4. |
- Elander, Nils
(författare)
-
Inflammation-associated genes and genetic variations in colorectal cancer
- 2009
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Colorectal cancer is a major cause of morbidity and mortality around the world, each year affecting about one million individuals worldwide. The disease is characterized by an accumulation of genetic alterations, and a sequence of events leading to the development of an invasive and metastasising tumour. Chronic or dysregulated inflammation may contribute to tumour initiation and progression via the release and activity of various mediators – e.g. cytokines, prostaglandins, inducible nitric oxide synthase (NOS2), matrix metalloproteinases (MMPs), and vascular endothelial growth factors (VEGF). In the present thesis, genes and genetic alterations controlling these events were analysed and discussed within the context of colorectal cancer.Prostaglandins, being generated from arachidonic acid in reactions dependent on cyclooxygenases (COX-1, COX-2), have been implicated in carcinogenesis of many organs. Since the quite recent characterization of the terminal and specific prostaglandin synthases, which act downstream of COX enzymes, the search for molecular targets which selectively suppress individual prostanoids has been intensified. In papers I-II, the role and regulation of inducible prostaglandin E2 (PGE2) synthase - mPGES-1 - were explored within the context of intestinal cancer. mPGES-1 was genetically deleted in the ApcMin/+ mouse - yielding marked suppression of PGE2 generation in intestinal and tumour tissue. However, a shift towards enhanced generation of non-PGE2 prostanoids was observed in mPGES-1 knock out mice, and these mice developed more and larger instestinal tumours. These results therefore indicate that targeting mPGES-1 may paradoxically promote tumourigenesis, most likely by secondary effects on other potentially pro-tumoural mediators. We also explored the relation of the commonly mutated APC gene and mPGES-1 in colon tumour cells, and found that high expression of mPGES-1 was associated with the presence of wild type APC. Rather than by regulating putative β-catenin/Tcf binding sites of the mPGES-1 promoter, APC seems to influence the stabilisation of mPGES-1 mRNA.In papers III-V, the possible contribution of variations in regulatory regions of genes encoding NOS2, MMPs, and VEGF, was assessed in populations of colorectal cancer patients and healthy control individuals. A single nucleotide insertion (1G/2G) at -1607 upstream the transcription start site of the MMP-1 gene was identified to be a susceptibility factor for colorectal cancer development, although no relation with disease characteristics was observed. Except for a rather uncommon combination of two individual polymorphisms of the VEGF gene, investigated genetic variations of VEGF, other MMPs, and NOS2, were not associated with colorectal cancer susceptibility or clinicopathological characteristics. We therefore suggest that other molecular events play more significant roles for the dysregulation of these genes in colorectal tumours.In summary, accumulating evidence, including the results here presented, suggest significant albeit complex roles of inflammation-induced genes and mediators in colorectal tumourigenesis. The present results may aid in identifying or excluding potential biomarkers and drug targets within cancer-related inflammation.
|
|
| 5. |
- Gréen, Anna, 1973-
(författare)
-
Histone H1 : Subtypes and phosphorylation in cell life and death
- 2009
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The genetic information of a human diploid cell is contained within approximately 2 metres of linear DNA. The DNA molecules are compacted and organized in various ways to fit inside the cell nucleus. Various kinds of histones are involved in this compaction. One of these histones, histone H1 is the topic of the present thesis. In addition to its structural role, H1 histones have been implicated in various processes, for example gene regulation and inhibition of chromatin replication.H1 histones, also termed linker histones, are relatively conserved proteins, and the various subtypes seem to have different and important functions even though redundancy between the subtypes has been demonstrated. Despite the sequence conservation of H1 subtypes, two sequence variations were detected within the H1.2 and H1.4 subtypes using hydrophilic interaction liquid chromatographic separation of H1 proteins from K562 and Raji cell lines in Paper I in the present thesis. The variations were confirmed by genetic analysis, and the H1.2 sequence variation was also found in genomic DNA of normal blood donors, in an allele frequency of 6.8%. The H1.4 sequence variation was concluded to be Raji specific. The significance of H1 microsequence variants is unclear, since the physiological function of H1 histones remains to be established.H1 histones can be phosphorylated at multiple sites. Changes in H1 phosphorylation has been detected in apoptosis, the cell cycle, gene regulation, mitotic chromatin condensation and malignant transformation. Contradictory data have been obtained on H1 phosphorylation in apoptosis, and many results indicate that H1 dephosphorylation occurs during apoptosis. We and others hypothesized that cell cycle effects by the apoptosis inducers may have affected previous studies. In Paper II, the H1 phosphorylation pattern was investigated in early apoptosis in Jurkat cells, taking cell cycle effects into account. In receptor-mediated apoptosis, apoptosis occurs with a mainly preserved phosphorylation pattern, while Camptothecin induced apoptosis results in rapid dephosphorylation of H1 subtypes, demonstrating that H1 dephosphorylation is not a general event in apoptosis, but may occur upon apoptosis induction via the mitochondrial pathway. The dephosphorylation may also be a result of early cell cycle effects or signalling.Therefore, the H1 phosphorylation pattern in the cell cycle of normal activated T cells was investigated in Paper IV in this thesis. Some studies, which have been made using cancer cell lines from various species and cell synchronization, have indicated a sequential addition of phosphate groupsacross the cell cycle. Normal T cells and cell sorting by flow cytometry were used to circumvent side-effects from cell synchronization. The data demonstrate that a pattern with phosphorylated serines is established in late G1/early S phase, with some additional phosphorylation occurring during S, and further up-phosphorylation seems to occur during mitosis. Malignant transformation may lead to an altered G1 H1 phosphorylation pattern, as was demonstrated using sorted Jurkat T lymphoblastoid cells.During mitosis, certain H1 subtypes may be relocated to the cytoplasm. In Paper III, the location of histones H1.2, H1.3 and H1.5 during mitosis was investigated. Histone H1.3 was detected in cell nuclei in all mitotic stages, while H1.2 was detected in the nucleus during prophase and telophase, and primarily in the cytoplasm during metaphase and early anaphase. H1.5 was located mostly to chromatin during prophase and telophase, and to both chromatin and cytoplasm during metaphase and anaphase. Phosphorylated H1 was located in chromatin in prophase, and in both chromatin and cytoplasm during metaphase, anaphase and telophase, indicating that the mechanism for a possible H1 subtype relocation to the cytoplasm is phosphorylation.In conclusion, data obtained during this thesis work suggest that H1 histones and their phosphorylation may participate in the regulation of events in the cell cycle, such as S-phase progression and mitosis, possibly through altered interactions with chromatin, and/or by partial or complete removal of subtypes or phosphorylated variants from chromatin.
|
|
| 6. |
- Lysiak, Malgorzata, 1989-
(författare)
-
Biomarkers In Brain Tumors With Focus On Glioblastoma
- 2022
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The primary brain tumors, gliomas, are not very common but they are deadly. Each year in Sweden around 500 patients will be diagnosed with a glioma and unfortunately most of them will have the most aggressive type, glioblastoma (GBM). Median survival, even if treated, is poor (14-17 months). Males are diagnosed up to 60% more often than females and they often have a worse prognosis. GBM affects mainly older patients and treatment includes radiochemotherapy with temozolomide (TMZ). The only known predictive biomarker for TMZ treatment is methylation of the O6-methylguanine DNA methyltransferase (MGMT) promoter and patients with methylated MGMT have better outcomes. There is a great need for biomarkers to decipher existing sex differences and others that identify patients that will benefit from radiotherapy (RT) or TMZ despite of unmethylated MGMT. Papers I-III are focused on investigating sex differences in GBM and in Paper IV we examined the methylation-based biomarkers used in diagnostics, on patients from the Nordic trial with exceptionally good and poor survival when treated with TMZ or RT. Loss of the Y chromosome (LOY) in male’s blood cells is associated with aging and, among other diseases, with cancer. We looked at 10 genes located on chromosome Y in 105 males with GBM treated with TMZ concomitant with RT and found that they are often deleted. Detected LOY, as well as deletion of the sex determining region Y (SRY) gene were associated with shorter overall survival. Low SRY gene expression analyzed in an additional cohort of 219 samples from The Cancer Genome Atlas (TCGA) was also associated with a shorter survival.In Paper II we re-analyzed data from three cohorts to compare the frequency of MGMT methylated tumors in males and females and investigated whether sex is an important factor associated with patient’s survival. This was done in a GBM cohort from the randomized, phase 3 Nordic trial, which included patients 60 years or older, treated with standard RT (60Gy) vs. hypofractionated RT vs. TMZ given in up to six 4 weekly cycles; in a population-based cohort, treated with TMZ concomitant with RT and an excerpt of the TCGA cohort of patients treated with different modalities. In all three cohorts there was a higher fraction of MGMT methylated tumors in females and MGMT methylation was predictive of longer survival for those treated with an alkylating agent, such as TMZ.The third study investigated the androgen receptor (AR), located on chromosome X as a potential sex susceptibility factor for GBM. We found that the gene encoding for AR can be amplified or deleted in GBM, and these changes are more common in females. The AR gene expression was enhanced in GBM but did not differ between sexes. At the same time, in a separate analysis for males and females, we found that high AR expression is associated with shorter survival in females and longer survival in males Also, the methylation sites in the AR promoter that correlated with gene expression are sex specific. In Paper IV we included 59 patients from the Nordic trial, equally divided by the treatment arms and MGMT methylation status, with good prognostic factors and with long or short survival. We performed genome-wide methylation analysis and identified differentially methylated sites between those with long and short survival for the TMZ treated, MGMT methylated samples, as well as the 60Gy, MGMT unmethylated and 34Gy MGMT methylated samples. This small pilot study was unable to discern any differentially methylated sites in TMZ treated samples with unmethylated MGMT, associated with long or short survival. By using a methylation-based diagnostic classifier, we were able to detect a misclassified sample that was not a GBM. Lastly, we calculated so called ‘epigenetic age’ of the tumor tissue based on the methylation data and using three different algorithms and found that in all treatment groups short-term survivors tended to have lower epigenetic age, though these results were not significant and need verification in a larger cohort.In summary, this thesis advances our knowledge on the molecular differences between male and female GBM and the association between these alterations and patients’ survival. Our results also suggest that there are potential methylation-based biomarkers apart from the MGMT promoter methylation, that can be used to distinguish between patients with good and poor prognosis, for instance, the epigenetic age.
|
|
| 7. |
- Nord, Maria
(författare)
-
Levodopa pharmacokinetics -from stomach to brain : A study on patients with Parkinson’s disease
- 2017
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Parkinson’s disease (PD) is one of the most common neurodegenerative disorders and it is caused by a loss of dopamine (DA) producing neurons in the basal ganglia in the brain. The PD patient suffers from motor symptoms such as tremor, bradykinesia and rigidity and treatment with levodopa (LD), the precursor of DA, has positive effects on these symptoms. Several factors affect the availability of orally given LD. Gastric emptying (GE) is one factor and it has been shown to be delayed in PD patients resulting in impaired levodopa uptake. Different enzymes metabolize LD on its way from the gut to the brain resulting in less LD available in the brain and more side effects from the metabolites. By adding dopa decarboxylase inhibitors (carbidopa or benserazide) or COMT-inhibitors (e.g. entacapone) the bioavailability of LD increases significantly and more LD can pass the blood-brain-barrier and be converted to DA in the brain. It has been considered of importance to avoid high levodopa peaks in the brain because this seems to induce changes in postsynaptic dopaminergic neurons causing disabling motor complications in PD patients. More continuously given LD, e.g. duodenal or intravenous (IV) infusions, has been shown to improve these motor complications. Deep brain stimulation of the subthalamic nucleus (STN DBS) has also been proven to improve motor complications and to make it possible to reduce the LD dosage in PD patients.In this doctoral thesis the main purpose is to study the pharmacokinetics of LD in patients with PD and motor complications; in blood and subcutaneous tissue and study the effect of GE and PD stage on LD uptake and the effect of continuously given LD (CDS) on LD uptake and GE; in blood and cerebrospinal fluid (CSF) when adding the peripheral enzyme inhibitors entacapone and carbidopa to LD infusion IV; in brain during STN DBSand during oral or IV LD treatment.To conclude, LD uptake is more favorable in PD patients with less severe disease and GE is delayed in PD patients. No obvious relation between LD uptake and GE or between GE and PD stage is seen and CDS decreases the LD levels. Entacapone increases the maximal concentration of LD in blood and CSF. This is more evident with additional carbidopa and important to consider in avoiding high LD peaks in brain during PD treatment. LD in brain increases during both oral and IV LD treatment and the DA levels follows LD well indicating that PD patients still have capacity to metabolize LD to DA despite probable pronounced nigral degeneration. STN DBS seems to increase putaminal DA levels and together with IV LD treatment also increases LD in brain possibly explaining why it is possible to decrease LD medication after STN DBS surgery.
|
|
| 8. |
- Olsson, Hans
(författare)
-
Stage T1 Urinary Bladder Carcinoma : Investigation of A Population-Based Cohort
- 2012
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Approximately 2 300 new cases of urinary bladder carcinoma (UBC) are diagnosed every year in Sweden. This type of cancer is characterized as a long-standing disease with a high risk of recurrence and progression from an indolent to a more aggressive course. UBC occurs in a non-muscle-invasive form (stages Ta and T1), which is treated mainly with local resection and BCG instillation, and a muscle-invasive form (stage ≥ T2), for which the treatment of choice is irradiation or cystectomy.The aim of the research underlying this thesis was to explore the factors involved in tumor development and progression, and to find prognostic markers for recurrence and progression in patients with primary stage T1 urothelial carcinoma of the bladder (UCB).Tumor tissue in archived paraffin blocks from patients diagnosed with that type of malignancy was used in the four studies that were conducted. This was a population-based project, because all of the patients had been reported to the cancer center in the Southeast Healthcare Region in Sweden from 1992 to 2001. The follow-up time was comparable long in the cases included and was intended to be at least 10 years.The hospital records were reviewed to gather information on clinical characteristics of the tumors, such as size and multiplicity, as well as treatment modalities, recurrence and/or progression, and eventual death from UBC. The original tumor slides were re-evaluated. These two initial activities yielded a study population comprising 211 well-characterized patients with primary T1 UCB. Some of the originally selected patients were excluded due to missing paraffin blocks or poor quality of the tumor material, the latter being particularly important in the genetic analyses conducted in the fourth study.Ordinary light microscopy was performed to evaluate specific tumor characteristics, such as lymphovascular tumor infiltration, and for T1 sub-staging. Immunohistochemistry was carried out to, among other things, analyze cell cycle regulators. Furthermore, pyrosequencing, single-strand conformation analysis (SSCA), and Sanger sequencing were conducted in the fourth study to assess mutations in the p53 gene and murine double minute 2 SNP309 promoter polymorphism. Statistical analyses to estimate the risk of tumor recurrence and progression were carried out in all four investigations.Conclusions: This population-based cohort of patients with well-characterized T1 tumors of the urinary bladder showed high rates of recurrence (80%) and progression (39%), and the aggressiveness is underlined by the fact that 32% died from the disease. Lymphovascular tumor infiltration and abnormal immunohistochemical staining for p16 were found to be associated with tumor progression, and in the future analysis of these parameters might be used in treatment decisions regarding T1 bladder tumors. No other clinical or pathological variable or cell cycle regulator was associated with progression, and none of the genetic analyses conducted in the current studies were helpful in predicting outcome or explaining the mechanisms of tumor development.
|
|
| 9. |
- Ungerbäck, Jonas
(författare)
-
Inflammation and Intestinal Homeostasis-Associated Genes in Colorectal Cancer
- 2012
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Colorectal cancer (CRC) is a global ‘killer’ and every year more than 1.2 million new individuals are affected and approximately 600 000 succumb to the disorder. Several mechanisms such as inactivation of tumor suppressor genes, activation of oncogenes and dysregulation of cell fate determinating pathways e.g. Wnt and Notch can initiate a cancerous cell growth and promote colorectal tumorigenesis. In addition, most tumors are exposed to an inflammatory environment, which together with the presence of mitogenic and angiogenic signals may sustain several hallmarks of cancer. Genetic alterations in inflammatory genes are associated with chronic inflammatory bowel disease, which is a strong risk factor of developing CRC. Scientists have for a long time looked for ‘the Key’ that would unlock the ‘cancer door’ but more likely cancer should be considered as not one but many diseases where almost every single patient is genetically and clinically unique. Hence recent research has turned to identify such inter-individual discrepancies and to find disease markers and strategies for guiding clinicians when tailoring individual management and optimized therapy. A deeper understanding of the regulation and genetic variation of inflammation and intestinal-homeostasis associated genes is pivotal to find potential targets for future therapies.The present thesis focuses on genetic variation and alterations in inflammatory genes as well as genes specifically involved in maintaining intestinal homeostasis. The most common anti-inflammatory drugs, NSAIDs, inhibit the prostanoid-generating COX-enzymes and are associated with decreased CRC risk when administered for a long time. Unfortunately, continuous NSAID treatment may lead to severe side-effects such as gastrointestinal bleeding, possibly through the ablation of non-PGE2 prostanoids. Therefore, a more specific inhibition of PGE2 has been suggested to be superior to classical NSAIDs. In papers I and II, the terminal PGE2 generating enzyme mPGES1 was studied in the context of intestinal cancer. Unexpectedly, ApcMin/+ mice with a targeted deletion of the mPGES1 encoding gene displayed significantly more and larger intestinal adenomas as compared to their wilde-type (wt) littermates. Probably this was due to the redirected generation of PGE2 towards non-PGE2 prostanoids seen in the murine tumors, resulting in enhanced pro-tumorigenic activity of these transmitter substances. Next, with a battery of functional and descriptive assays we investigated whether the outcome of mPGES1 expression and activity could depend on the genetic profile of the tumor e.g. the Apc mutational status. Indeed, high expression of mPGES1 was associated with the presence of wt-Apc, both in vitro and in vivo, most likely depending on mPGES1 mRNA stabilization rather than upregulation through β–catenin/Lef/Tcf4 signaling.NFκB is a major regulator of inflammation e.g. through the production of inflammatory cytokines. Variations in genes controlling inflammation and angiogenesis could potentially be used as biomarkers to identify patients with increased risk of CRC development, and/or to identify those with high risk of a rapidly progressing disease. Further, such analyzes have been suggested to select patients, which may benefit from specific anti-inflammatory or anti-angiogenic therapies. In paper III, genetic alterations in NFκB associated genes were studied among CRC patients and healthy controls. The NFκB negative regulator TNFAIP3 was found to exert tumor suppressive functions in CRC and moreover, homozygous mutant TNFAIP3 (rs6920220), homozygous mutant NFκB -94 ATTG ins/del and heterozygous NLRP3 (Q705K) were identified as prognostic markers for identifying CRC patients with a high risk of rapid progression. Further studies, which focus on the potential to treat such patients with anti-inflammatory IL-1β targeting therapies, are warranted.In the intestinal epithelium, Notch and Wnt signaling function in synergy to maintain homeostasis and together these pathways promote stem cell renewal and drive proliferation. Thus, dysregulation and/or overactivation of one of the two pathways could potentially lead to simultaneous activation of the other. While the genetic mechanisms explaining aberrant Wnt signaling in CRC are well-known, the reasons for the Notch pathway activation are less so. Further, relatively little is known about the mechanisms linking the two pathways in CRC. In paper IV, we addressed this question with a set of experimental in vitro assays, hereby identifying Notch2 together with several additional genes classically belonging to the Notch pathway, as putative targets for canonical and non-canonical Wnt signaling. We therefore suggest that aberrant Notch signaling in colon cancer cells may be the result of dysregulated Wnt signaling.In summary, the results here presented add a couple of pieces to the immensely complex jigsaw puzzle connecting intestinal homeostasis, inflammation and CRC. These results may aid in identifying future biomarkers or potential drug targets that could take us to the next level in the war against cancer.
|
|
| 10. |
- Verma, Deepti
(författare)
-
Genetic Variations in the NLRP3 Inflammasome : Susceptibility Factor for Chronic Inflammation
- 2011
-
Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- NLRP3 has been recognized as one of the key components of innate immunity. Upon activation, NLRP3 forms a multiprotein complex called as the ‘inflammasome’ which leads to the activation of pro-inflammatory caspase-1 which subsequently results in the formation of Interleukin (IL)-1β and IL-18. Mutations in the NLRP3 gene can lead to its constitutive activation resulting in an uncontrolled production of IL-1β. These mutations have been implicated in hereditary inflammatory diseases, often grouped under Cryopyrin associated periodic syndromes (CAPS, cryopyrin being an alternative name for NLRP3).Paper I in this thesis presents the case of a patient with a long history of arthritis and antibiotic resistant fever, but without the typical symptoms of CAPS. The patient was a heterozygous carrier of two common polymorphisms, Q705K in NLRP3 and C10X in CARD-8. Experimental studies indicated elevated activity of caspase-1 and IL-1β levels in the patient and a total clinical remission was achieved by IL-1β blockade. These two polymorphisms simultaneously occur in almost 4% of the control population, suggesting the possibility of a genetic predisposition for inflammation in these individuals. We, therefore, investigated a cohort of rheumatoid arthritis (RA) patients in paper II, and found that carrying the combined polymorphisms resulted in increased RA susceptibility and a more severe disease course. Hypothetically, this subgroup might benefit from IL-1β blockade. Paper III presents two patients: siblings, who did not fit into a typical CAPS phenotype. The inflammatory symptoms in both the patients appeared in adult life. A novel and functional M299V mutation in NLRP3 was detected in the siblings who neither had common symptoms nor the same disease severity. Consequent with inflammasome activation, abnormally elevated caspase-1 activity and IL-1β levels were seen. Patients in papers I and III highlight the risk of missing out such patients if attempting a very conventional diagnosis. Paper IV dissects the functional role of Q705K in NLRP3 using THP-1 cells in an in vitro model. Moderately elevated IL-1β and IL-18 levels could be observed in the THP-1 cells expressing Q705K, as compared to the wild type expressing cells, indicating a gain-of-function. Due to the presence of this alteration in healthy individuals it can be classified as a low-penetrance alteration. Additional studies are warranted to elucidate the mechanistic details of this polymorphism.
|
|
