Genome and Transcriptome Comparisons between Human and Chimpanzee

Wetterbom, Anna

January 2010

The chimpanzee is humankind’s closest living relative and the two species diverged ~6 million years ago. Comparative studies of the human and chimpanzee genomes and transcriptomes are of great interest to understand the molecular mechanisms of speciation and the development of species-specific traits. The aim of this thesis is to characterize differences between the two species with regard to their genome sequences and the resulting transcript profiles. The first two papers focus on indel divergence and in particular, indels causing premature termination codons (PTCs) in 8% of the chimpanzee genes. The density of PTC genes is correlated with both the distance to the telomere and the indel divergence. Many PTC genes have several associated transcripts and since not all are affected by the PTC we propose that PTCs may affect the pattern of expressed isoforms. In the third paper, we investigate the transcriptome divergence in cerebellum, heart and liver, using high-density exon arrays. The results show that gene expression differs more between tissues than between species. Approximately 15% of the genes are differentially expressed between species, and half of the genes show different splicing patterns. We identify 28 cassette exons which are only included in one of the species, often in a tissue-specific manner. In the fourth paper, we use massive parallel sequencing to study the chimpanzee transcriptome in frontal cortex and liver. We estimate gene expression and search for novel transcribed regions (TRs). The majority of TRs are located close to genes and possibly extend the annotations. A subset of TRs are not found in the human genome. The brain transcriptome differs substantially from that of the liver and we identify a subset of genes enriched with TRs in frontal cortex. In conclusion, this thesis provides evidence of extensive genomic and transcriptomic variability between human and chimpanzee. The findings provide a basis for further studies of the underlying differences affecting phenotypic divergence between human and chimpanzee.

human

chimpanzee

genome

transcriptome

comparative studies

exon arrays

next-generation sequencing

premature termination codon

alternative splicing

primate evolution

Genetic Analyses of Multiple Sclerosis and Systemic Lupus Erythematosus : From Single Markers to Genome-Wide Data

Sandling, Johanna K

January 2010

In autoimmune diseases an individual’s immune system becomes targeted at the body’s own healthy cells. The aim of this thesis was to identify genetic risk factors for the two autoimmune diseases multiple sclerosis (MS) and systemic lupus erythematosus (SLE). In Study I, we found that genetic variation in the interferon regulatory factor 5 gene (IRF5), previously shown to be associated with SLE, rheumatoid arthritis and inflammatory bowel diseases, was associated also with MS. An insertion/deletion polymorphism in the first intron of IRF5 is as a good functional candidate for this association. IRF5, together with the signal transducer and activator of transcription 4 gene (STAT4), are the most important genetic risk factors for SLE, outside the HLA region. In Study II we showed using a family-based study design that genetic variation in STAT4 is associated with SLE also in the Finnish population. In Study III, we investigated a STAT4 risk allele for SLE for its association with cardiovascular disease in SLE patients. The risk allele of STAT4 proved to be strongly associated with ischemic cerebrovascular disease and anti-phospholipid antibodies in SLE patients. A possible mechanism for this association is that the risk allele leads to increased production of pro-thrombotic anti-phospholipid antibodies, which in turn increases the risk for stroke. Both IRF5 and STAT4 are involved in signalling of the type I interferon system. In Study IV, we investigated 78 additional genes in this system for their association with SLE in a Swedish cohort. The most promising results were followed up in additional patients and controls from Sweden and the US. Two novel SLE genes were identified. In Study V a large follow-up of a genome-wide association study was performed. Five new SLE loci were identified: TNIP1, PRDM1, JAZF1, UHRF1BP1 and IL10. A number of genes previously shown to be associated with other autoimmune diseases were also tested for association with SLE. This analysis identified the type I interferon system gene IFIH1 as a novel SLE risk locus. These studies confirms the central role of the type I interferon system in SLE and further suggests common genetic risk factors in autoimmunity.

Systemic lupus erythematosus

Multiple Sclerosis

Association study

Type I interferon system

Single nucleotide polymorphism

Stem cell function and organ development : analysis of Lhx2 function in hematopoietic stem cells and eye development / Stamcellsfunktion och organutveckling : studier av blodstamceller och ögonutveckling

Dahl, Lina

January 2010

When a multicellular organism suffers damages to tissues/organs it heals itself by either substituting the lost cellular matrix by scar formation or by regenerating the lost tissue. Regeneration likely occurs by a recapitulation of the developmental process that formed the organ. Many processes regulating organ development are based on epithelial-mesenchymal interactions and a strict control of organ specific stem/progenitor cells. Elucidation of the molecular basis of these processes is therefore vital in order to develop novel therapies in regenerative medicine. The LIM homebox gene Lhx2 is interesting in this context since Lhx2 has been shown to be important for the formation of several organs by regulating epithelial-mesenchymal interactions and progenitor cell function. Targeted inactivation of Lhx2 leads to a lethal anemia due to malformed liver and severe neural abnormalities such as hypoplasia of the forebrain and anophtalmia. Thus, elucidation of the mechanisms of the function of Lhx2 in different organ systems would give important insights into the molecular mechanisms regulating epithelial-mesenchymal interactions and stem/progenitor cell function. To elucidate the function of Lhx2 in the hematopoietic system Lhx2 was initially expressed in hematopoietic progenitor cells derived from ES cells differentiated in vitro using retroviral vectors. This approach led to the generation of hematopoietic stem cell (HSC)-like cell lines suggesting that Lhx2 could impact HSC function. However neither the specificity nor the efficiency of the Lhx2-induced phenotype could be determined using this approach. To be able to elucidate the function of Lhx2 in the hematopoietic system, an ES cell line with inducible Lhx2 expression was generated. Lhx2 expression induces self-renewal of a distinct hematopoietic progenitor cell from which HSC-like cell lines were established. Down-regulation of Lhx2 in these HSC-like cell lines leads to a rapid loss of stem cell character, providing a good model to study the molecular function of Lhx2 in hematopoietic stem/progenitor cells. A global gene expression analysis was performed comparing the Lhx2+ stem cell population to the Lhx2- differentiated progeny. This approach identified genes putatively linked to self-renewal/differentiation of HSCs. A considerable proportion of the genes showed an overlapping gene expression pattern with Lhx2 expression in tissue of non-hematopoietic origin suggesting that Lhx2 function in stem/progenitor cells partly overlap with Lhx2 function during organ development. In order to define other Lhx2-dependent progenitor cell populations and to generate a tool to analyze the function of Lhx2 in organ development a new transgenic mouse model was generated. By using a specific part of the Lhx2 promoter to drive expression of Cre recombinase in vivo (Lhx2-Cre mice) we have been able to define the first eye committed progenitor cells in the forebrain. By using the Lhx2-Cre mice it will be possible to distinguish the function of genes during eye development from their function in the patterning of the forebrain e.g. the eye field transcription factors. Conditional inactivation of Lhx2 in these eye specific progenitor cells causes an immediate developmental arrest. The transgene is also active in Lhx2-/- embryonic forebrain, but re-expression of Lhx2 in Lhx2-/- progenitor cells only promote formation of retinal pigment epithelium cells. Analysis of genes expressed by the Lhx2+ stem cell population allowed us to define novel genes putatively linked to Lhx2 function in eye development. Thus, we have defined the progenitor cells in the forebrain committed to eye development and the expansion and patterning of these progenitors are dependent on Lhx2. Although commitment to eye development is Lhx2-independent, Lhx2 might be important for the acquisition of the oligopotent fate of these progenitor cells.

Lhx2

hematopoietic system

hematopoietic stem cell

progenitor

embryonic stem cell

embryoid body

eye development

forebrain

eye field transcription factor

RAS-MAPK syndromes - a Clinical and Molecular Investigation

Nyström, Anna-Maja

January 2009

The RAS-MAPK syndromes are a group of clinically and genetically related disorders, characterized by cardiac defects, facial dysmorphism, cutaneous abnormalities and neurocognitive impairment. The pathogenesis is dysregulation of the RAS-MAPK pathway, and several genes within the pathway are involved. The present thesis aimed at identifying genetic causes in three of the RAS-MAPK syndromes - Noonan syndrome (NS), cardio-facio-cutaneous syndrome (CFC) and Neurofibromatosis-Noonan syndrome (NFNS) - and at correlating genotype with phenotype. A mutation analysis of six genes associated with the RAS-MAPK syndromes in NS and CFC patients revealed mutations in 10/31 patients. The results suggested more complex genetic overlap and genetic heterogeneity among these syndromes than previously believed. Subsequently, gene dosage imbalances of seven RAS-MAPK-syndrome-related genes were investigated in mutation-negative patients. A multiplex ligation-dependent probe amplification strategy was developed that excluded copy number changes of these genes as a common mechanism in NS. Genetic causes of clinical variability in NS were investigated where an atypical and severe NS patient was described. In addition, multiple café-au-lait (CAL) spots affected the patient and four otherwise healthy family members. Molecular analysis of four candidate genes revealed a previously described de novo PTPN11 mutation and an inherited NF1 variant in the patient. Neither of them explained the CAL spots trait, which consequently represented a distinct entity. The results suggested that the atypical and severe phenotype in the patient could be a consequence of an additive effect. Finally, a family displaying NFNS was investigated clinically and molecularly revealing a novel mutation in the GAP-domain of NF1. Furthermore, the results suggested that other RAS-MAPK-syndrome-related genes are not involved in NFNS. A proposal of prioritizing the GAP-domain of NF1 in NFNS was presented. Conclusively, these studies contribute to further understanding of the RAS-MAPK syndromes and facilitate the diagnostic process and future prognosis prediction.

RAS-MAPK syndromes

Noonan syndrome

Neurofibromatosis type I

cardio-facio-cutaneous syndrome

mutation

gene

Proximity Ligation as a Universal Protein Detection Tool

Gullberg, Mats

January 2003

Among the great challenges in biology are the precise quantification of specific sets of proteins and analyses of their patterns of interaction on a much larger scale than is possible today. This thesis presents a novel protein detection technique - proximity ligation - and reports the development and application of a nucleic acid amplification technique, RCA. Proximity ligation converts information about the presence or co-localization of specific proteins to unique sets of nucleic acid sequences. For detection of target proteins or protein complexes the coincident binding by pairs or triplets of specific protein-binding reagents are required. Oligonucleotide-extensions attached to those binding reagents are joined by a DNA ligase and subsequently analyzed by standard molecular genetic techniques. The technique is shown to sensitively detect an assortment of proteins using different types of binders converted to proximity probes, including SELEX aptamers and mono- and polyclonal antibodies. I discuss factors important for using the technique to analyze many proteins simultaneously. Quantification of target molecules requires precise amplification and detection. I show how rolling circle amplification, RCA, can be used for precise quantification of circular templates using modified molecular beacons with real-time detection. The combination of proximity-probe templated circularization and RCA results in a sensitive method with high selectivity, capable of visualizing individual immobilized proteins. This technique is used for localized detection of a set of individual proteins and protein complexes at sub-cellular resolution.

Molecular medicine

Proximity ligation

proteomics

aptamer

antibody

molecular beacon

rolling circle amplification

Molekylärmedicin

Signal Transduction in Malignant Cells – Transformation, Activation and Differentiation

Kårehed, Karin

January 2006

All aspects of cell life are regulated by signal transduction mechanisms. This thesis describes the regulatory roles of a few key signal transduction molecules involved in three major biological responses. The studied pathways include platelet derived growth factor (PDGF)-BB induced transformation of murine fibroblasts, interferon (IFN)-γ stimulated monocyte activation and all-trans retinoic acid (ATRA) induced myeloid differentiation. We found that intact phosphoinositide 3OH-kinase (PI3K) activity is essential in the signaling pathway that leads to the morphological alterations and migration pattern characteristic of PDGF-BB transformed NIH/sis and NIH/COL1A1 fibroblasts. Furthermore, our data indicated that the small Rho-GTPase, Rac1 is the predominant mediator of these signals downstream of PI3K. The study of the IFN-γ induced activation of monocytic U-937 cells showed that upregulation of the high affinity receptor for IgG (FcγRI) is dependent on the coordination of several regulatory events: the PKR-mediated serine 727 phosphorylation of Stat1, the expression of the hematopoietic lineage specific transcription factor PU.I, and the activation of the NFκB pathway. ATRA-induced differentiation and cell cycle arrest are impaired in U-937 sublines expressing phosphorylation deficient Stat1 (Stat1Y701F and Stat1S727A). The findings in paper III indicated that the expression pattern of the myeloid specific transcription factors Stat2, ICSBP and c/EBPε was altered in the sublines and that intact Stat1 activation is critical for maintaining the balance of the transcriptional network during ATRA induced terminal differentiation. Finally, ATRA-induced differentiation and growth arrest were blocked by treatment with the IKKα/β inhibitor BMS345541 or by ectopic expression of the NFκB super repressor IκBα (S32A/S36A). The fact that IκB(AA) sublines differentiated normally in response to vitamin D3, showed that NFκB inhibition specifically affected ATRA induced responses. Notably we suggest that the activity of the NFκB pathway may interfere with the differentiation process via a direct effect on the RAR/RXR mediated transcription.

Molecular medicine

transformation

PDGF

PI3K

Rho-GTPase

U-937

FcγRI

macrophage

Stat1

PKR

NFκB

ATRA

differentiation

Molekylärmedicin

Satellite cells in human skeletal muscle : molecular identification quantification and function / Satellitceller i human skelettmuskulatur : molekylär identifiering, kvantifiering och funktion

Lindström, Mona

January 2009

Skeletal muscle satellite cells located between the plasma membrane and the basal lamina of muscle fibres, could for many years, only be studied in situ by electron microscopy. The introduction of immunohistochemistry and the discovery of molecular markers of satellite cells then made them accessible for light microscopic studies and a wealth of information is today available. Satellite cells are myogenic stem cells that can be activated from a quiescent state to proliferate for self-renewal or differentiate into myogenic cells. The satellite cells are involved in muscle growth during fetal and postnatal development and play a key role in repair and regeneration of damaged muscle fibres. The satellite cells are also essential for muscle fibre hypertrophy and maintenance of muscle mass in the adult. When the present thesis was initiated, studies on satellite cells in human skeletal muscle relied on the neuronal cell adhesion molecule (NCAM) as a marker for satellite cell identification. The results from different studies varied markedly. Therefore the aims of the present thesis were i) to develop a highly reliable method using light microscopy for satellite cell identification and quantification in biopsies of human skeletal muscle in normal and pathological conditions. A molecular marker for the myofibre basal lamina or plasma membrane to enhance the reliability of myonuclei and satellite cell identification were to be included. Furthermore unbiased morphometric methods should be used in the quantification process. ii) to evaluate which molecular markers which had been described for satellite cell and stem cell identification in different cell states (quiescence, activated or differentiated) are the most useful for studies on human skeletal muscle. iii) to further explore the function and heterogeneity of satellite cells with respect to different markers in human skeletal muscle by studying the effects of strength-training, intake of anabolic substances and pathological conditions. A new immunofluorescence method was developed where in the same tissue section, two satellite cell markers, the basal lamina and nuclei were monitored. From the evaluation of different markers it was found that both NCAM and Pax7 identified the majority of satellite cells but that both markers were needed for reliable identification. The members of the myogenic regulatory family were evaluated and by using the new method MyoD and myogenin were found to be useful markers to identify activated and differentiated satellite cells. Upon re-examination of biopsies from power-lifters, power-lifters using anabolic substances and untrained subjects it was observed that the new results on satellite cell frequency were significantly different from those obtained when using staining for NCAM and nuclei alone. In addition three subtypes of satellite cells (94.4% NCAM+/Pax7+, 4.2% NCAM+/Pax7– and 1.4% NCAM–/Pax7+) were observed. Thus the multiple marker method gave more information about satellite cells heterogeneity in human muscle and we propose that this is more reliable than previous methods. Low numbers of MyoD or myogenin stained satellite cells were observed in both untrained and strength trained subjects. Other markers such as DLK1/FA1, a member of the EGF-like family and c-Met, the receptor for hepatocyte growth factor showed that satellite cell heterogeneity in human muscle is far greater than previously shown. Furthermore, new evidence is presented for so called fibre splitting observed in hypertrophic muscle fibres to be due to defect regeneration of partially damaged fibres.

satellite cell markers

NCAM

Pax7

MyoD

myogenin

DLK1/FA1

c-Met

human skeletal muscle

immunohistochemistry

muscle growth

muscle hypertrophy

Morphology, cell biology, pathology

Morfologi, cellbiologi, patologi

Biomarker Discovery in Cutaneous Malignant Melanoma : A Study Based on Tissue Microarrays and Immunohistochemistry

Agnarsdóttir, Margrét

January 2011

The incidence of cutaneous malignant melanoma has increased dramatically in Caucasians the last few decades, an increase that is partly explained by altered sun exposure habits. For the individual patient, with a localized disease, the tumor thickness of the excised lesion is the most important prognostic factor. However, there is a need to identify characteristics that can place patients in certain risk groups. In this study, the protein expression of multiple proteins in malignant melanoma tumors was studied, with the aim of identifying potential new candidate biomarkers. Representative samples from melanoma tissues were assembled in a tissue microarray format and protein expression was detected using immunohistochemistry. Multiple cohorts were used and for a subset of proteins the expression was also analyzed in melanocytes in normal skin and in benign nevi. The immunohistochemical staining was evaluated manually and for part of the proteins also with an automated algorithm. The protein expression of STX7 was described for the first time in tumors of the melanocytic lineage. Stronger expression of STX7 and SOX10 was seen in superficial spreading melanomas compared with nodular malignant melanomas. An inverse relationship between STX7 expression and T-stage was seen and between SOX10 expression and T-stage and Ki-67, respectively. In a population-based cohort the expression of MITF was analyzed and found to be associated with prognosis. Twenty-one potential biomarkers were analyzed using bioinformatics tools and a protein signature was identified which had a prognostic value independent of T-stage. The protein driving this signature was RBM3, a protein not previously described in malignant melanoma. Other markers included in the signature were MITF, SOX10 and Ki-67. In conclusion, the protein expression of numerous potential biomarkers was extensively studied and a new prognostic protein panel was identified which can be of value for risk stratification.

antibody-based proteomics

automated analysis

biomarker

immunohistochemistry

malignant melanoma

survival

tissue microarray

Tumour biology

Tumörbiologi

Pathology

Patologi

Molecular medicine

Molekylär medicin

The CpG island methylator phenotype in colorectal cancer : studies on risk and prognosis

Dahlin, Anna

January 2011

Background Colorectal cancer (CRC) is the second most common malignancy in developed countries. The mortality is high, with nearly half of patients dying from the disease. The primary treatment of CRC is surgery, and decisions about additional treatment with chemotherapy are based mainly on tumor stage. Novel prognostic markers that identify patients at high risk of recurrence and cancer-related death are needed. The development of CRC has been described in terms of two different pathways; the microsatellite instability (MSI) and chromosomal instability (microsatellite stable, MSS) pathway. More recently, the CpG island methylator phenotype (CIMP), characterized by frequent DNA hypermethylation, has been described as an alternative pathway of tumorigenesis. The event of DNA methylation is dependent on one-carbon metabolism, in which folate and vitamin B12 have essential functions. The purpose of this thesis was to study CIMP in CRC. The specific aims were to investigate the potential role of components of one-carbon metabolism as risk factors for this subgroup of tumors, and the prognostic importance of CIMP status, taking into consideration important confounding factors, such as MSI and tumor-infiltrating T cells. Methods CRC cases and referents included in the Northern Sweden Health and Disease Study (NSHDS, 226 cases and 437 referents) and CRC cases in the Colorectal Cancer in Umeå Study (CRUMS, n=490) were studied. Prediagnostic plasma concentrations of folate and vitamin B12 were analyzed in NSHDS. In both study groups, CIMP status was determined in archival tumor tissue by real-time quantitative PCR using an eight-gene panel (CDKN2A, MLH1, CACNA1G, NEUROG1, RUNX3, SOCS1, IGF2 and CRABP1). MSI screening status and the density of tumor-infiltrating T cells were determined by immunohistochemistry.  Results An inverse association was found between plasma concentrations of vitamin B12 and rectal, but not colon, cancer risk. We also found a reduced risk of CIMP-high and CIMP-low CRC in study subjects with the lowest levels of plasma folate. We found that patients with CIMP-low tumors in both NSHDS and CRUMS had a poorer prognosis compared with CIMP-negative, regardless of MSI screening status. We also found that MSS CIMP-high patients had a poorer prognosis compared with MSS CIMP-negative. The density of tumor-infiltrating T cells and CIMP status were both found to be independent predictors of CRC patient prognosis. A particularly poor prognosis was found in patients with CIMP-low tumors poorly infiltrated by T cells. In addition, the density of T cells appeared to be more important than MSI screening status for predicting CRC patient prognosis. Conclusion Rather than being one disease, CRC is a heterogeneous set of diseases with respect to clinico-pathological and molecular characteristics. We found that the association between risk and plasma concentration of vitamin B12 and folate depends on tumor site and CIMP status, respectively. Patient prognosis was found to be different depending on CIMP and MSI screening status, and the density of tumor-infiltrating T cells.

Colorectal cancer

DNA methylation

folate

microsatellite instability (MSI)

prognosis

risk factors

t-lymphocytes

Vitamin B12

Pathology

Patologi

Tumour biology

Tumörbiologi

Genotyping and Mutation Detection In Situ : Development and application of single-molecule techniques

Grundberg, Ida

January 2011

The human body is composed of trillions of cells closely working together to maintain a functional organism. Every cell is unique in molecular composition and can acquire genetic variations that might cause it to turn pathological. It is essential to develop improved tools to better understand the development of normal and disease tissue, ideally enabling single-cell expression studies in preserved context of complex tissue with single-nucleotide resolution. This thesis presents the development and application of a new in situ method for localized detection and genotyping of individual transcripts directly in cells and tissues. The described technique utilizes padlock probes and target-primed rolling circle amplification and is highly suitable for sensitive in situ analysis. First, a new strategy for directed cleavage of single stranded DNA was investigated, e.g. nucleic acid targets with extended 3´ ends, for successful initiation of rolling circle amplification. The presented cleavage strategy is simple and applicable for subsequent enzymatic reactions, e.g. ligation and polymerization. Specific cleavage of long target overhangs was demonstrated in synthetic oligonucleotides and in genomic DNA and the detection efficiency was substantially increased. For multiplex detection and genotyping of individual transcripts in single cells, a new in situ method was developed. The technique showed a satisfactorily detection efficiency and was later applied as a general mutation analysis tool for detection of KRAS point mutations in complex tumor tissue sections, e.g. formalin-fixed, paraffin-embedded tumor tissues and cytologic tumor imprints. Mutation status was assessed in patient samples by in situ padlock probe detection and results were confirmed by DNA-sequencing.  Finally, the method was adapted for simultaneous detection of individual mRNA molecules and endogenous protein modifications in single cells using padlock probes and in situ PLA. This assay will be useful for gene expression analysis and exploration of new drugs with vague effector sites. To our knowledge, no other technique exists today that offers in situ transcript detection with single-nucleotide resolution in heterogeneous tissues. The method will especially be suitable for discrimination of highly similar transcripts, e.g. splice variants, SNPs and point mutations, within gene expression studies and for cancer diagnostics.

padlock probes

in situ

rolling circle amplification

mRNA

genotyping

mutation detection

cancer

tissue sections

diagnostics

single-molecule

single-cell

microscopy