Investigating candidate genes identified by genome-wide studies of granulomatous diseases in susceptibility to tuberculosis: ANXA11 and the CADM family

Salie, Muneeb

12 1900

Thesis (MScMedSc (Biomedical Sciences))--University of Stellenbosch, 2010. / Thesis presented in partial fulfilment of the requirements for the degree Master of Medical Science (Human Genetics) at the University of Stellenbosch. / Bibliography / ENGLISH ABSTRACT: The infectious disease tuberculosis (TB) remains the leading cause of death worldwide by a single infectious agent, despite significant advances in biomedical sciences. The idea that host genetics plays a role in the development of disease was proposed by Haldane in 1949. The observation that only 10% of immunocompetent individuals develop disease while others are able to successfully contain it, further suggests that host genetics plays an important role. TB is thus a complex disease, with the causative bacterium, Mycobacterium tuberculosis, host genetic factors and environment all contributing to the development of disease. To date several genes have been implicated in TB susceptibility, albeit with small effect. Genome-wide association studies (GWAS) offer the means to identify novel susceptibility variants and pathways through their ability to interrogate polymorphisms throughout the genome without being limited by our understanding of the immune processes involved in TB infection and disease progression. TB and sarcoidosis are both granulomatous diseases, and we therefore hypothesized that the genes and their associated variants identified in recent GWAS conducted in West Africa for TB, and Germany for sarcoidosis, could alter susceptibility to TB in the South African Coloured (SAC) population. In the sarcoidosis GWAS, ANXA11 was shown to alter susceptibility to sarcoidosis; whereas in the TB GWAS, CADM1 was found to alter susceptibility to TB. This study tested the association with TB of 16 polymorphisms in 5 potential TB host susceptibility genes in the SAC population. A well designed case-control study was employed, using the TaqMan® genotyping system to type the various polymorphisms. Any polymorphism that was found to be significantly associated with susceptibility to TB was then subjected to further analysis to determine the functional effect of the polymorphism. Promoter methylation patterns were also investigated in ANXA11 as another mechanism to elucidate its role in TB susceptibility. A 3’ UTR ANXA11 polymorphism was found to be strongly associated with susceptibility to TB, including 3 haplotypes. The gene expression analysis identified differential transcriptional levels between individual with the different genotypes, with individuals homozygous for the A-allele exhibiting a 1.2-fold increase in gene expression relative to those homozygous for the G-allele. Methylation analysis however found no differences between cases and controls. In addition, 16 novel polymorphisms were also identified, 15 of which occurred in the 3’UTR of ANXA11. The mechanism of action of ANXA11 in TB susceptibility is hypothesised to be in the area of endocytosis, autophagy or apoptosis. A weak association was noted with one of the 5’ UTR polymorphisms of CADM3, which did not hold up to further analysis in the GWAS study, and no functional work was therefore done. This work facilitates our understanding of the role of host genetics in susceptibility to TB and adds to the growing amount of information available. Proper understanding of the role that host genetics plays in TB susceptibility could result in better treatment regimens and prediction of individuals who are at a greater risk of developing TB, a disease that still kills millions of individuals annually. / AFRIKAANSE OPSOMMING: Tuberkulose is verantwoordelik vir meer sterftes as enige ander aansteeklike siekte, ten spyte van die voortuitgang wat die Biomediese Wetenskappe tans beleef. In 1949 het Haldane voorgestel dat die genetiese samestelling van die gasheer ‘n rol speel in vatbaarheid vir aansteeklike siektes. Vir tuberkulose word hierdie aanname gesteun deur die feit dat slegs 10% van individue wat geïnfekteer word aktiewe simptome ontwikkel, terwyl 90% die siekte suksesvol sal afweer. Tuberkulose is dus ‘n komplekse siekte wat veroorsaak word deur Mycobacterium tuberculosis, maar wat beïnvloed word deur genetiese sowel as omgewingsfaktore. Verskeie gene is al geïdentifiseer wat ‘n rol speel in vatbaarheid vir tuberkulose, tog is hul invloed betreklik klein. Genoom-wye assosiasiestudies (GWAS) bied unieke geleenthede vir die identifisering van nuwe polimorfismes wat genetiese vatbaarheid kan beïnvloed. Hierdie tegniek kan die hele genoom fynkam, sonder dat enige vooropgestelde idees oor die immuunrespons teen tuberkulose ‘n invloed sal hê. Tuberkulose en sarkoïdose is albei siektes wat die vorming van granulomas veroorsaak. Verskeie gene met hul geassosieerde variante is geïdentifiseer in ‘n onlangse GWAS, wat gefokus het op populasies in Wes-Afrika en Duitsland. Ons hipotese was dat die polimorfismes wat in hierdie studie geïdentifiseer is, ‘n invloed kan hê op genetiese vatbaarheid vir TB in die Suid-Afrikaanse Kleurlingbevolking (SAK). Die sarkoïdose GWAS het bevind dat ANXA11 vatbaarheid vir die siekte beïnvloed, terwyl CADM1 in die tuberkulose GWAS geïdentifiseer is. Die studie het die assosiasie tussen 16 variante en tuberkulose vatbaarheid ondersoek in die SAK populasie. Die variante strek oor 5 potensiële tuberkulose vatbaarheidsgene. Goedbeplande pasiënt-kontrole assosiasiestudies is gedoen en die polimorfismes is gegenotipeer deur gebruik te maak van die TaqMan® genotiperingsisteem. Enige polimorfisme wat beduidend met tuberkulose geassosieer was, is verder geanaliseer om die moontlike funksionele invloed daarvan te bepaal. Promotormetileringspatrone van ANXA11 is ook geanaliseer, om ‘n addisionele meganisme in tuberkulose vatbaarheidheid te ondersoek. Na genotipering van die polimorfismes is ‘n 3’ UTR ANXA11 variant geïdentifiseer wat beduidend met tuberkulose vatbaarheid geassosieer was. Drie haplotipes is ook geïdentifiseer. Geenuitdrukkingsanalise het aangedui dat verskille in transkripsie vlakke voorkom in individue met verskillende genotipes. Individue wat homosigoties was vir die A-alleel het ‘n verhoging van 1.2 in geenuitdrukking gehad, relatief tot individue wat homosigoties was vir die G-alleel. Metileringsanalise het egter geen verskil aangedui tussen pasiënte en kontroles nie. Addisioneel, is 16 nuwe variante ontdek, waarvan 15 in die 3’UTR van ANXA11 geleë was. Die meganisme waarmee ANAX11 genetiese vatbaarheid vir tuberkulose beïnvloed, blyk in die area van endositose, apoptose of outofagie, te wees. ‘n Swak assosiasie is gevind vir ‘n 5’ UTR variant van CADM3 en is nie verder opgevolg in die GWAS nie. Gevolglik is geen funksionele studies op hierdie polimorfisme gedoen nie. Hierdie studie dra by tot ons kennis oor die rol wat die genetiese samestelling van die gasheer speel in vatbaarheid vir tuberkulose. Indien die rol van mensgenetika in tuberkulose vatbaarheid korrek verstaan word, kan behandeling van die siekte verbeter word en kan individue wat ‘n hoër risiko loop om tuberkulose te ontwikkel geïdentifiseer word.

Tuberculosis susceptibility

Host genetics

ANXA11

CADM

Tuberculosis -- Genetic aspects

Tuberculosis -- Environmental aspects

Biomedical Sciences

Host genetic factors in susceptibility to mycobacterial disease in the African buffalo, Syncerus caffer.

Le Roex, Nikki

04 1900

Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Bovine tuberculosis (BTB) is a chronic, infectious disease found in domestic livestock and wildlife, and has serious biodiversity, economic and public health implications. African buffalo act as a wildlife reservoir of BTB, maintaining and transmitting the disease within the environment. The research presented in this thesis addresses the role of host genetic variation in resistance to BTB infection in African buffalo, and reviews the possible practical application of such information. Annual BTB prevalence within the African buffalo population in Hluhluwe iMfolozi Park, South Africa, was evaluated over a seven year period in order to define the extent of M. bovis infection. Prevalence changes over time suggest that the test and cull operation currently in place is performing successfully with respect to the original aims of the programme. A review of genetic studies of BTB in livestock and wildlife collated previous findings in this field and provided a collection of possible candidate genes and variants. It also highlighted a lack of research in wildlife, and the limitations of working with species with insufficient genetic data. To overcome the absence of whole-genome data, next-generation sequencing was performed on nine African buffalo, in order to identify novel genetic variants in this species. Upwards of 76 000 novel SNPs within gene regions were identified, and subsequent fluorescent genotyping of 173 SNPs showed a 57% validation rate. From the validated set, 69 SNPs located in genes related to the immune system were selected for association testing with BTB status in African buffalo, and were fluorescently genotyped in 868 individuals. Three SNPs, in the Solute Carrier family 7, member A13 (SLC7A13), Deleted in Malignant Brain Tumour-1 (DMBT1) and Interleukin 1 alpha (IL1α) genes, were identified as significantly associated with BTB status. Very little sequence information of the NRAMP1 (SLC11A1) gene was obtained from the next-generation sequencing performed, and this gene has been associated with brucellosis, salmonella and paratuberculosis in other animal species, making it an excellent candidate for BTB resistance. To characterise this gene in African buffalo, Sanger sequencing was performed to generate the complete coding region, and partially sequence the 5’UTR, intronic and 3’UTR regions. Fifteen novel polymorphisms and three microsatellites were identified within the gene. Finally, a review was prepared to assess the applicability of genetic information on BTB resistance to selective breeding programmes for African buffalo. Phenotypic, marker-assisted and genomic breeding strategies were discussed, with particular emphasis on their suitability to African buffalo. Identifying genes and variants involved in BTB resistance in African buffalo provides potential targets for drug or vaccine development, as well as information that could be incorporated into selective breeding programmes. This may support new management options for controlling the BTB epidemic in the game parks of South Africa, as an alternative to, or in conjunction with, lethal control / AFRIKAANSE OPSOMMING: Beestuberkulose (BTB) is ‘n chroniese, aansteeklike siekte wat in vee en wild voorkom en wat ernstige gevolge vir die ekonomie, biodiversiteit en openbare gesondheid inhou. Die Kaap-buffel is ‘n wild reservoir vir BTB wat die siekte onderhou en versprei in die omgewing. Die navorsing wat in hierdie tesis aangebied word fokus op die rol van gasheer genetiese variasie in die weerstand teen BTB infeksie in Kaap-buffels en gee ‘n oorsig van die moontlike praktiese toepassing van die resultate. Die jaarlikse BTB voorkomsyfer in die Kaap-buffel bevolking in die Hluhluwe iMfolozi Park in Suid-Afrika is oor ‘n tydperk van sewe jaar geëvalueer om die omvang van M. bovis infeksie te bepaal. Die verandering in voorkomsyfer oor tyd dui daarop dat die toets-en-slag operasie wat tans gebruik word die oorspronklike doelwitte van die program suksesvol bereik. ‘n Oorsig en vergelyking van vorige genetiese studies van BTB in vee en wild het ‘n versameling van moontlike kandidaatgene en –variante verskaf. Dit het ook die gebrek aan navorsing in wildediere uitgewys en die navorsingsbeperkinge wanneer ‘n spesie met onvoldoende genetiese data bestudeer word benadruk. Aangesien daar nie heel genoom data beskikbaar is nie, is volgende-generasie volgordebepaling van 9 Kaap-buffels gedoen om nuwe genetiese variasies in hierdie spesie te identifiseer. Meer as 76 000 nuwe enkel-nukleotied polimorfismes (ENPs) binne geen-areas is geïdentifiseer en die daaropvolgende genotipering van 173 ENPs het ‘n bevestigingskoers van 57% gehad. Vanuit die bevestigde stel ENPs is 69 gekies vir assosiasietoetse met BTB status in die Kaap-buffel en genotipering van 868 individue is gedoen. Drie ENPs, in die Solute Carrier family 7, member A13 (SLC7A13), Deleted in Malignant Brain Tumour-1 (DMBT1) en Interleukin 1 alpha (IL1α) gene, was beduidend geassosieer met BTB status. Baie min volgorde inligting van die NRAMP1 (SLC11A1) geen is verkry uit die volgende-generasie volgordebepaling. Aangesien hierdie geen voorheen met brucellose, salmonella en paratuberkulose in ander dierespesies geassosieer is, is dit ‘n uitstekende kandidaat vir BTB weerstand. Hierdie geen is in Kaap-buffels gekarakteriseer deur Sanger volgordebepaling van die volledige koderende, gedeeltelike 5’UTR, introniese en 3’UTR areas te doen. Vyftien nuwe polimorfismes en drie mikrosatelliete is geïdentifiseer. Ten slotte is ‘n oorsigstudie gedoen om die toepaslikheid van BTB genetiese weerstandsdata in selektiewe telingsprogramme van Kaap-buffels te evalueer. Fenotipiese, merkerbemiddelde en genomiese teling strategieë is bespreek, met spesifieke klem op die geskiktheid van die metodes vir Kaap-buffels. Identifisering van gene en variante wat betrokke is by BTB weerstand in die Kaap-buffel bied potensiële teikens vir medikasie of entstof ontwikkeling, sowel as inligting wat in selektiewe telingsprogramme gebruik kan word. Dit kan nuwe bestuursopsies vir die beheer van die BTB-epidemie in die parke van Suid-Afrika bied as 'n alternatief vir, of in samewerking met, dodelike beheermetodes.

Tuberculosis in animals

Buffaloes -- Diseases

Medical genetics

Mycobacterial diseases

Disease susceptibility

UCTD

G₂ chromosomal radiosensitivity in childhood and adolescent cancer survivors and their offspring

Curwen, Gillian B.

January 2008

It is increasingly recognised that individual risk of cancer may be related to genetically determined differences in the ability of cells to identify and repair DNA damage. Cell cycle based assays of chromosomal radiosensitivity provide the greatest power for discriminating differences in response to DNA damage and it has been suggested that individuals who are genetically susceptible to cancer show increased chromosomal radiosensitivity. The relationship between chromosomal radiosensitivity and early onset cancer was investigated in a population of Danish survivors of childhood and adolescent cancer and a control group comprising of their partners using the G₂ assay of chromosomal radiosensitivity. Heritability was also examined in the offspring. No significant differences in radiosensitivity profiles were found between partner controls and either the cancer survivors or offspring. However, when compared to the Westlakes Research Institute control population, significant differences were observed with the cancer survivors (P = 0.002) and offspring (P < 0.001), supporting an association of chromosomal radiosensitivity with cancer predisposition. Heritability studies suggested the majority of phenotypic variance of chromosomal radiosensitivity was attributable to a putative major gene locus with dominant effect. Since G2 chromosomal radiosensitivity indirectly measures the ability of cells to repair DNA damage induced by ionising radiation exposure, variants in DNA repair genes may explain inter-individual variation observed. Sixteen polymorphisms in nine genes from four DNA repair pathways were investigated. Genotype frequencies at the Asp148Glu polymorphism were associated with childhood cancer in survivors. Analysis of variance and FBAT analysis suggested significant associations at both the Thr241Met and Ser326Cys polymorphism sites with G₂ radiosensitivity, but neither remained significant after multiple-test adjustment. This study invites further exploration of the predictive capacity of G₂ chromosomal radiosensitivity in cancer predisposition. Clearly, further work is needed to correlate radiosensitivity with genetic polymorphisms, which may underlie cancer susceptibility and variation in radiosensitivity.

Second order semiclassical theory of Bloch electrons in uniform electromagnetic fields

Gao, Yang 1987-

07 November 2014

Berry curvature appears in the semi-classical theory of Bloch electrons already to first order in electromagnetic fields, resulting in profound modification of the carrier velocity and phase space density of states. Here we derive the equations of motion for the physical position and crystal momentum to second order in the fields. The dynamics still has a Hamiltonian structure, albeit with noncanonical Poisson brackets between the physical variables. We are able to expand both the carrier energy and the Poisson brackets to second order in the fields with terms of clear physical meaning. To demonstrate the utility of our theory, we obtain with much ease the electromagnetic response and orbital magnetic susceptibility. / text

Magnetoelectric polarizability

Magnetic susceptibility

Semiclassical

Berry curvature

Phase space quantum mechanics

Magnetic and superconducting phases of heavy fermion compounds

Saxena, Siddharth Shanker

January 1998

No description available.

530.41

Instrumentation and thermometry for the study of heavy fermion compounds

Bach, Alexandra P. R.

January 2001

No description available.

530.41

Ac susceptibility and resistivity studies of YBa←2Cu←3O←7←-←#delta# high-temperature superconductors

Bracanovic, Darko

January 1999

No description available.

530.41

The fabrication and microwave characterisation of ferromagnetic thin films

Hood, Karen A.

January 2001

No description available.

530.41

Strong correlation effects in heavy fermion and double exchange systems

Brunton, Rosalind Elizabeth

January 1998

No description available.

519

Vasarinių rapsų veislių atsparumo/jautrumo Heterodera schachtii įvertinimas / Summer rape variety resistance/susceptibility of Heterodera schachtii evaluation

Kupliauskas, Stasys

09 June 2010

Runkelinis nematodas (Heterodera schachtii) yra polifagas, t.y. turi labai daug augalų šeimininkų. Remiantis literatūros šaltiniais, augalais šeimininkais šiam patogenui gali būti apie 218 augalų rūšių priklausančių 98 gentims. H.schachtii yra vienas labiausiai augalui kenkiančių parazitinių nematodų Europos šalyse (Williamson, Hussey, 1996; Greco, Esmenjaud, 2004; Peterka et al., 2004) ir būtent šis nematodas buvo pirmas patogeninis nematodas, atpažintas cukriniuose runkeliuose (Cooke, 1993). Jis paplitęs visame pasaulyje ir daug cistinių nematodų rūšių patenka į “Schachtii” grupę, kurioje yra apie 20 rūšių (Evans, Rowe, 1998). Visos tirtos vasarinio rapso veislės ‚Ural‘, ‚Terra‘, ‚SW Savan‘, ‚Sponsor‘, ‚SW Landmark‘, ‚Heros‘, ‚Griffin‘, ‚Campino‘, ‚Ability‘ atsparumo H.schachtii patogenui neparodė, tačiau dvi iš jų ‚Liaison‘ ir ‚Maskot‘ buvo patikimai mažiau jautrios patogenui nei kitos. Heterodera schachtii cistų turinys esmingai priklausė nuo vasarinio rapso veislės. Vasarinio rapso veislės ‚SW Savan‘, ‚Griffin‘ ir ‚Ural‘ yra patikimai jautresnės H.schachtii nei likusios tirtos vasarinio rapso veislės vertinant pagal suformuotų cistų turinį. Mažiausias Heterodera schachtii reprodukcijos greitis buvo nustatytas vasarinio rapso veislėse ‚Maskot‘ (0,8), ‚Liaison‘ (0,8) ir ‚Terra‘ (0,9). Šiose veislėse reprodukcijos greičio koeficientas buvo mažesnis už vienetą, tai rodo, kad H.schachtii populiacija neprogresavo. Tačiau nustatyti reprodukcijos greičio koeficiento skirtumai... [toliau žr. visą tekstą] / Beet nematode Heterodera schachtii is polyphagous i.e. it has a lot of host plants. According to literature sources, host plants for this pathogen may be about 218 plants species witch belong to 98 genera. Heterodera schachtii is one of the most harmful parasitical nematodes for plants in European countries (Williamson, Hussey, 1996; Greco, Esmenjaud, 2004; Peterka and others, 2004) and exactly this nematode was the first pathogenic nematode identified in sugar beets (Cooke, 1993). It is distributed worldwide and a lot of cystic nematodes species are included in “Schachtii” group which has about 20 species (Evans, Rowe, 1998). All of investigated summer rape varieties ‘Ural’, ‘Terra’ , ,SW Savan‘, ‘Sponsor‘, ‘SW Landmark‘, ‘Heros‘, ‘Griffin‘, ‘Campino‘, ‘Ability‘ did not show resistance to Heterodera Schachtii pathogen, but two varieties ‘Liaison‘ and ‘Maskot‘ were significantly less susceptible to pathogen than others. The content of Heterodera schachtii cysts was essentially dependent on the variety of summer rape. Summer rape varieties ‘SW Savan’, ‘Griffin’ and ‘Ural’ is significantly more susceptible for Heterodera schachtii in terms of the establishment of cyst contents than the rest investigated summer rape varieties. The lowest Heterodera schachtii reproduction rate has been identified in ’Maskot’ (0.8), ‘Liaison’ (0.8) and ‘Terra’ (0.9) summer rape varieties. In these varieties reproduction rate ratio was less than one and this indicates that Heterodera schachtii... [to full text]

Agronomy

Vasarinis

Rapsas

Nematodas

Atsparumas

Jautrumas

Summer

Rape

Nematode

Resistance

Susceptibility