Retroviral long Terminal Repeats; Structure, Detection and Phylogeny

Benachenhou, Farid

January 2010

Long terminal repeats (LTRs) are non-coding repeats flanking the protein-coding genes of LTR retrotransposons. The variability of LTRs poses a challenge in studying them. Hidden Markov models (HMMs), probabilistic models widely used in pattern recognition, are useful in dealing with this variability. The aim of this work was mainly to study LTRs of retroviruses and LTR retrotransposons using HMMs. Paper I describes the methodology of HMM modelling applied to different groups of LTRs from exogenous retroviruses (XRVs) and endogenous retroviruses (ERVs). The detection capabilities of HMMs were assessed and were found to be high for homogeneous groups of LTRs. The alignments generated by the HMMs displayed conserved motifs some of which could be related to known functions of XRVs. The common features of the different groups of retroviral LTRs were investigated by combining them into a single alignment. They were the short inverted terminal repeats TG and CA and three AT-rich stretches which provide retroviruses with TATA boxes and AATAAA polyadenylation signals. In Paper II, phylogenetic trees of three groups of retroviral LTRs were constructed by using HMM-based alignments. The LTR trees were consistent with trees based on other retroviral genes suggesting co-evolution between LTRs and these genes. In Paper III, the methods in Paper I and II were extended to LTRs from other retrotransposon groups, covering much of the diversity of all known LTRs. For the first time an LTR phylogeny could be achieved. There were no major disagreement between the LTR tree and trees based on three different domains of the Pol gene. The conserved LTR structure of paper I was found to apply to all LTRs. Putative Integrase recognition motifs extended up to 12 bp beyond the short inverted repeats TG/CA. Paper IV is a review article describing the use of sequence similarity and structural markers for the taxonomy of ERVs. ERVs were originally classified into three classes according to the length of the target site duplication. While this classification is useful it does not include all ERVs. A naming convention based on previous ERV and XRV nomenclature but taking into account newer information is advocated in order to provide a practical yet coherent scheme in dealing with new unclassified ERV sequences. Paper V gives an overview of bioinformatics tools for studies of ERVs and of retroviral evolution before and after endogenization. It gives some examples of recent integrations in vertebrate genomes and discusses pathogenicity of human ERVs including their possible relation to cancers. In conclusion, HMMs were able to successfully detect and align LTRs. Progress was made in understanding their conserved structure and phylogeny. The methods developed in this thesis could be applied to different kinds of non-coding DNA sequence element.

Retrovirus

long terminal repeats

hidden Markov models

phylogeny

alignment

conserved motif

stem-loop

Clinical virology

Klinisk virologi

Structural Studies of Bacteriophage PRR1 and HIV-1 protease

Persson, Magnus

January 2010

Viruses are a diverse genera of organisms adapted to thrive in many different hosts from prokaryotic to eukaryotic. We present here the structure of bacteriophage PRR1 virus-like particle (VLP), belonging to Leviviridae family. Our structure reveals calcium ions in the VLP. Metal ions are rare in the VLP among the Leviviridae and the calcium ions were found to affect VLP stability. Gene expression in Leviviridae is controlled by a specific interaction between the viral coat protein that assembles to create the VLP, and the genomic RNA. This interaction has been thoroughly studied for the levivirus MS2 but other structural data are scarce. We have solved the structure of PRR1 VLP in complex with its RNA operator stem-loop. Binding of the stem-loop in PRR1 shows similarities to MS2 but also a different arrangement of the nucleotides, in the area of the loop that we could interpret, compared to MS2. The structures of PRR1 increase our knowledge about translational control in Leviviridae and add new information about particle stability within this family. The other virus we investigated is the more infamous human pathogen, the HIV. Because of the high mutation rate of HIV new drugs are needed on a continuous basis. We describe here the structure of two new protease inhibitors bound to the HIV-1 protease and compare them with two previously published inhibitors. Due to an extended P1´site the new compounds are able to exploit a new interaction to Phe53 in the protease structure. / <p>Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 724</p>

PRR1

HIV

Structural Biology

X-ray crystallography

PRR1

HIV-1 protease

NCS

crystallography

inhibitor

virus

bacteriophage

X-ray crystallography

Virology

Virologi

Molecular biology

Molekylärbiologi

Oncolytic Adenovirus Therapy of Neuroendocrine Tumors

Leja, Justyna

January 2011

Neuroendocrine tumors (NETs), originally described as carcinoids, represent a rare and heterogeneous group of neoplasms associated with intensive secretion of hormones, bioactive peptides and amines. Most of the patients are diagnosed at a late stage of disease, often with liver metastases. Surgery remains the main treatment to control metastatic disease, but is not curative. Oncolytic virotherapy represents a promising approach to treat cancer and different strategies have been exploited to restrict viral replication to tumor cells. We developed an oncolytic adenovirus based on serotype 5, Ad5[CgA-E1A], where the chromogranin A (CgA) promoter controls expression of the E1A gene and thereby virus replication. We found that Ad5[CgA-E1A], selectively replicates in NET cells and it is able to suppress fast-growing human BON carcinoid tumors in nude mice. The activity of Ad5[CgA-E1A] was not completely blocked in liver cells. We further repressed virus replication in hepatocytes by targeting E1A with miR122, an miRNA specifically expressed in the liver. miRNAs bind to mRNA and induce its cleavage or translational blockage. By insertion of tandem repeats of miR122 target sequences in 3’UTR of E1A gene, we observed reduced E1A protein expression and replication arrest in miR122 expressing liver cells. The oncolytic potency of the miR122-targeted virus was not affected in NET cells. Since some NET and neuroblastoma cells express high levels of somatostatin receptors (SSTRs), we introduced in the virus fiber knob cyclic peptides, which contain four amino acids (FWKT) and mimic the binding site of somatostatin for SSTRs. The FWKT-modified Ad5 transduces midgut carcinoid cells from liver metastases about 3-4 times better than non-modified Ad5. Moreover, FWKT-modified Ad5 overcomes neutralization in an ex vivo human blood loop model to a greater extent than Ad5, indicating that the fiber knob modification may prolong the systemic circulation time. NETs represent a huge therapeutic challenge and novel diagnostic markers are needed for early detection and effective treatment of NETs. We have profiled primary tumors and liver metastases of ileocaceal NETs, using Affymetrix microarrays and advanced bioinformatics. We have identified six novel marker genes and show high similarity between primary lesions and liver metastases transcriptome by hierarchical clustering analysis.

adenovirus

virotherapy

oncolytic virus

neuroendocrine tumors

chromogranin A

somatostatin receptors

microRNA

novel biomarkers

Molecular biology

Molekylärbiologi

Oncology

Onkologi

Virology

Virologi

Tumour biology

Tumörbiologi