Integrated data analytics of germline mutation classes in human cancers : an integrated bioinformatics analysis to investigate associations between germline mutation classes and human cancers

Al-Shammari, Mohamad Hilal

January 2013

Biological and environmental factors contribute collectively to the development of human cancers. The primary focus of this research project was to investigate the impact of germline gene mutations, as a significant biological factor, on 29 major primary human cancers. For this I obtained data from multiple databases, including the Genetic Association Database (GAD), Sanger database (COSMIC), HGMD database, OMIM data and PubMed literature. Using the Extraction Transform and Load (ETL) process, 424 genes were obtained with 8,879 cancer mutation records. By integrating these gene mutation records a Human Cancer Map (HCM) was constructed, from which several sub-maps were derived based on particular mutation classes. Furthermore, a Protein-Protein Interaction Map (PPIM) was constructed based on the encoded proteins of the 424 gene set. Several key questions were addressed using the HCM and its sub-maps including the following: (i) Are individual groups of primary cancers associated with specific subset of genes (within the 424 full set)? (ii) Are groups of primary cancers associated with particular mutation classes? (iii) If both questions prove to be true, are groups of cancers associated with particular mutation class of target genes? This project also explored whether a corresponding Protein-Protein Interaction Map, derived from the Missense/Non-sense Mutation portion of the HCM gene set, would provide further information on gene associations between primary cancers in terms of the consequent identical amino acid changes involved. Results showed that: (1) closely-connected human cancers in the HCM exhibited a strong association with a particular mutation class; (2) Missense /Nonsense and Regulatory mutations played a central role in connecting cancers (i.e. via primary nodes) and so significantly influenced the construction of the HCM; (3) Genes with Missense/Nonsense and Regulatory mutations tended to be involved in cancer-associated pathways; (4) Using the kappa test to measure the extent of agreement between two connected primary cancers in the sub-HCMs, BRCA1, BRCA2, PALB2, MSH2, MSH6, MLH1, CDKN2A, and TP53 showed highest agreement for 5 of 10 mutation classes; (5) From the PIPM, it was evident that BRCA1, MSH6, BARD1, TP53, MSH2 and CHEK2 proteins best connected Breast, Ovarian, Prostate and Bowel primary cancers, and so the latter could represent 'driver proteins' for these cancers. In summary, this project has approached the analysis of gene involvement in human primary cancers from the starting position of the mutation class that harbours the specific gene mutation. Together with their downstream resultant alterations in the associated proteins, this analysis can provide insights into the relatedness of primary human cancers and their potential gene hierarchies. These data may therefore help us to understand more fully the etiology, diagnosis and potentially personalized treatments for cancer.

616.99

Genetic Alterations in Pheochromocytoma and Paraganglioma

Welander, Jenny

January 2015

Pheochromocytomas and paragangliomas are neuroendocrine tumors that arise from neural crest-derived cells of the adrenal medulla and the extra-adrenal paraganglia. They cause hypertension due to an abnormally high production of catecholamines (mainly adrenaline and noradrenaline), with symptoms including recurrent episodes of headache, palpitations and sweating, and an increased risk of cardiovascular disease. Malignancy in the form of distant metastases occurs in 10-15% of the patients. The malignant cases are difficult to predict and cure, and have a poor prognosis. About a third of pheochromocytomas and paragangliomas are caused by hereditary mutations in a growing list of known susceptibility genes. However, the cause of the remaining, sporadic, tumors is still largely unknown. The aim of this thesis project has been to further characterize the genetic background of pheochromocytomas and paragangliomas, with a focus on the sporadic tumors. First, we investigated the role of the genes known from the familial tumors in the sporadic form of the disease. By studying mutations, copy number variations, DNA methylation and gene expression, we found that many of the known susceptibility genes harbor somatic alterations in sporadic pheochromocytomas. Particularly, we found that the NF1 gene, which plays an important role in suppressing cell growth and proliferation by regulating the RASMAPK pathway, was inactivated by mutations in more than 20% of the cases. The mutations occurred together with deletions of the normal allele and were associated with a reduced NF1 gene expression and a specific hormone profile. We also detected activating mutations in the gene EPAS1, which encodes HIF-2α, in a subset of sporadic cases. Microarray analysis of gene expression showed that several genes involved in angiogenesis and cell metabolism were upregulated in EPAS1-mutated tumors, which is in agreement with the role of HIF-2α in the cellular response to hypoxia. In order to comprehensively investigate all the known susceptibility genes in a larger patient cohort, we designed a targeted next-generation sequencing approach and could conclude that it was fast and cost-efficient for genetic testing of pheochromocytomas and paragangliomas. The results showed that about 40% of the sporadic cases had mutations in the tested genes. The majority of the mutations were somatic, but some apparently sporadic cases in fact carried germline mutations. Such knowledge of the genetic background can be of importance to facilitate early detection and correct treatment of pheochromocytomas, paragangliomas and potential co-occurring cancers, and also to identify relatives that might be at risk. By sequencing all the coding regions of the genome, the exome, we then identified recurrent activating mutations in a novel gene, in which mutations have previously only been reported in subgroups of brain tumors. The identified mutations are proposed to cause constitutive activation of the encoded receptor tyrosine kinase, resulting in the activation of downstream kinase signaling pathways that promote cell growth and proliferation. In summary, the studies increase our biological understanding of pheochromocytoma and paraganglioma, and possibly also co-occurring cancers in which the same genes and pathways are involved. Together with the findings of other scientific studies, our results may contribute to the development of future treatment options.

Genetic epidemiology of breast and ovarian cancer

Ford, Deborah

January 2001

No description available.

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Somatic evolution in human blood and colon

Lee-Six, Henry

January 2019

All cancers were once normal cells. They became cancerous through the chance acquisition of particular somatic mutations that gave them a selective advantage over their neighbours. Thus, the mutations that initiate cancer occur in normal cells, and the normal clonal dynamics of the tissue determine a mutant cell's ability to establish a malignant clone; yet these remain poorly understood in humans. One tissue was selected for the exploration of each of these two facets of somatic evolution: blood for clonal dynamics; colon for mutational processes. Blood presents an opportunity to study normal human clonal dynamics, as clones mix spatially and longitudinal samples can be taken. We isolated 140 single haematopoietic stem and progenitor cells from a healthy 59 year-old and grew them in vitro into colonies that were whole genome sequenced. Population genetics approaches were applied to this dataset, allowing us to elucidate for the first time the number of active haematopoietic stem cells, the rate at which clones grow and shrink, and the cellular output of stem cell clones. Colonic epithelium is organised into crypts, at the base of which sit a small number of stem cells. All cells in a crypt ultimately share an ancestor in one stem cell that existed recently, and consequently share the mutations that were present in this ancestor. We exploited this natural clonal unit, isolating single colonic crypts through laser capture microdissection. 570 colonic crypts from 42 individuals were whole genome sequenced. We describe the burden and pattern of somatic mutations in these genomes and their variability across and within different people, identifying some mutational processes that are ubiquitous and others that are sporadic. Targeted sequencing of an additional 1,500 crypts allowed us to quantify the frequency of driver mutations in normal human colon. Together, these two studies inform on the somatic evolution of normal tissues, describing new biology in human tissue homeostasis and providing a window into the processes that govern cancer incidence.

Recombinant production and in silico analysis of the Androgen receptor ligand binding domain

Simila, Henry Allan

January 2006

The androgen receptor (AR) fulfils important roles for both sexes. By mediating the biological function of androgens, the AR has remained the target for endocrine therapies treating prostate cancer. The AR also determines the effectiveness of medroxyprogesterone acetate (MPA) in treating AR positive breast cancer. Every man will be affected by prostate cancer if he lives long enough. Prostate cancer continues to be a leading cause of death for males despite research into this cancer covering more than 60 years since Huggins' seminal 1941 study showing that androgens play a key role in this cancer. Unfortunately, significant advances have not been forthcoming and the effect of treatment has remained largely the same over past decades, whereby initial treatment provides temporary remission but eventually advanced cases become refractory to further intervention and the disease recurs in a more aggressive form. A plethora of factors are exquisitely sensitive to minute changes in the AR's structural profile, which can be altered by a single mutation, resulting in aberrant activity. A principal feature of these variant ARs associated with prostate cancer, is enhanced capacity to bind a number of molecules other than its cognate ligand, dihydrotestosterone (DHT). The promiscuous activity of this receptor leads to continued AR signalling and stimulus for the cancer despite low androgen levels induced by treatment regimes. A key question is whether mutations occurring within the AR occur as a result of cancer or contribute to the propagation of the cancer. Recent research has demonstrated that treatments incorporating anti-androgens such as flutamide, which are designed to impede prostate cancer progression by inhibiting AR activity, may actually provide selective pressure favouring somatic mutation of the receptor to take place. The specific changes to the AR which are responsible for gains of function have not been resolved as their crystal structures, which are used to provide conformational analysis of proteins, are tremendously problematic to produce with little success found in literature. Generating representative crystals of the AR protein involves producing soluble recombinant protein. Unfortunately the AR is prone to aggregation and is highly unstable, especially in the presence of antagonistic molecules or absence of a stabilising ligand, preventing the protein from being maintained in the soluble state required for crystallization. In order to produce sufficient quantities of soluble material for crystallization, the androgen receptor's ligand binding domain (LBD) was produced as a recombinant protein in Escherichia coli bacteria strain BL21 (DE3) in the presence of DHT, flutamide, as well as in the absence of ligand. Since soluble unbound AR-LBD has not been produced until now, the bacterial culture containing no ligand was further processed to the stage of cleaving the purification tag from the recombinant protein and represents considerable progress into producing soluble material for crystallizing the troublesome yet considerably important AR in the absence of ligand. Although distinct from prostate cancer in males, AR activity in breast tissue is also a factor determining the action of drugs, such as MPA, included in therapies aimed at breast cancer. The use of MPA has declined primarily due to its adverse effects including unsuccessful generation of a biological response, as well as the advent of other drugs administered for hormonal therapies treating breast cancer. Alternative drugs are needed when breast cancer therapies fail as tumours develop resistance to primary drugs. Although there are a number of drugs on the market, success would be maximised if the determined therapy is matched with the patient, based for example, on their genetic makeup. There is a conundrum whereby some patients with an AR do not respond to MPA, a drug normally recognised by the receptor. In clinical trials it was discovered that an AR with threonine instead of methionine at residue 780 (M780T) fails to activate in response to MPA, but the exact mechanism has remained elusive and needs to be answered at the molecular level. The X-ray crystallographic studies that generate 3D images of macromolecules and wet chemistry, which have traditionally been used to provide insight into science in these dimensions, are incorporated with computer based molecular simulation. This is both complementary and distinct to traditional scientific methodologies, enabling further elucidation of protein-protein interactions, and the influence applied to such inter-relations by natural and drug ligands. This approach has been used, and is continually developed, to understand the binding mechanisms of current drugs as well as designing new drugs. In order to produce a receptor representing the M780T variant, the crystal structure representing the AR-LBD was mutated in silico, into which MPA was then docked. It was found that MPA binds into the M780T AR-LBD with considerably more spatial displacement compared to the position of DHT in the crystal structure, and is predicted to be the primary reason for the inability of MPA to activate this variant AR. The clarification of MPA binding and failure to elicit a response from the variant AR is significant for a cohort of breast cancer patients, as not only does the presence of an AR in the tumour determine the effectiveness of MPA, but correct composition of the AR, specifically, the absence of a M780T mutation. In the absence of this AR mutation, MPA could effectively be used either as an alternative to primary drugs, or in secondary therapies when primary therapies fail. Aberrant activity of variant ARs in response to MPA should also be taken into consideration when analysing drug studies about the effectiveness of MPA. The findings on the loss of response to MPA by the M780T variant AR have been included in the journal article &quotDecreased Androgen Receptor Levels and Receptor Function in Breast Cancer Contribute to the Failure of Response to Medroxyprogesterone Acetate" appearing in the September 2005 issue of Cancer Research journal.

androgen receptor

flutamide

in vitro recombinant protein expression

medroxyprogesterone acetate (MPA)

molecular simulation

prostate cancer

Systematic associations between germ-line mutations and human cancers

Al-Shammari, Mohamad H., Tobin, Desmond J., Peng, Yonghong

January 2016

Yes / The revolution in Big Data has opened the gate for new research challenges in biomedical science. The aim of this study was to investigate whether germ-line gene mutations are a significant factor in 29 major primary human cancers. Using data obtained from multiple biological databases, we identified 424 genes from 8879 cancer mutation records. By integrating these gene mutation records a human cancer map was constructed from which several key results were obtained. These include the observations that missense/nonsense and regulatory mutations might play central role in connecting cancers/genes, and tend to be distributed in all chromosomes. This suggests that, of all mutation classes missense/nonsense and regulatory mutation classes are over-expressed in human genome and so are likely to have a significant impact on human cancer aetiology and pathomechanism. This offers new insights into how the distribution and interconnections of gene mutations influence the development of cancers.

Germ-line mutations

Human cancers

Gene mutations

Chromosomes

Pathways

Big data

Cancer mutation

Cancer map

Gene mutation interconnections

Gene mutation distribution

Bioinformatics