Your search keyword '"Zeeshan Durrani"' showing total 8 results

1. A parasite DNA binding protein with potential to influence disease susceptibility acts as an analogue of mammalian HMGA transcription factors.

Author

Zeeshan Durrani, Jane Kinnaird, Chew Weng Cheng, Francis Brühlmann, Paul Capewell, Andrew Jackson, Stephen Larcombe, Philipp Olias, William Weir, and Brian Shiels

Subjects

Medicine, Science

Abstract

Intracellular pathogens construct their environmental niche, and influence disease susceptibility, by deploying factors that manipulate infected host cell gene expression. Theileria annulata is an important tick-borne parasite of cattle that causes tropical theileriosis. Excellent candidates for modulating host cell gene expression are DNA binding proteins bearing AT-hook motifs encoded within the TashAT gene cluster of the parasite genome. In this study, TashAT2 was transfected into bovine BoMac cells to generate three expressing and three non-expressing (opposite orientation) cell lines. RNA-Seq was conducted and differentially expressed (DE) genes identified. The resulting dataset was compared with genes differentially expressed between infected cells and non-infected cells, and DE genes between infected cell lines from susceptible Holstein vs tolerant Sahiwal cattle. Over 800 bovine genes displayed differential expression associated with TashAT2, 209 of which were also modulated by parasite infection. Network analysis showed enrichment of DE genes in pathways associated with cellular adhesion, oncogenesis and developmental regulation by mammalian AT-hook bearing high mobility group A (HMGA) proteins. Overlap of TashAT2 DE genes with Sahiwal vs Holstein DE genes revealed that a significant number of shared genes were associated with disease susceptibility. Altered protein levels encoded by one of these genes (GULP1) was strongly linked to expression of TashAT2 in BoMac cells and was demonstrated to be higher in infected Holstein leucocytes compared to Sahiwal. We conclude that TashAT2 operates as an HMGA analogue to differentially mould the epigenome of the infected cell and influence disease susceptibility.

Published

2023

2. Identification of candidate transmission-blocking antigen genes in Theileria annulata and related vector-borne apicomplexan parasites

Author

Laetitia Lempereur, Stephen D. Larcombe, Zeeshan Durrani, Tulin Karagenc, Huseyin Bilgin Bilgic, Serkan Bakirci, Selin Hacilarlioglu, Jane Kinnaird, Joanne Thompson, William Weir, and Brian Shiels

Subjects

Theileria annulata, Plasmodium, Babesia, Bioinformatic screen, Transmission-blocking vaccine, 6-Cys domain, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Vector-borne apicomplexan parasites are a major cause of mortality and morbidity to humans and livestock globally. The most important disease syndromes caused by these parasites are malaria, babesiosis and theileriosis. Strategies for control often target parasite stages in the mammalian host that cause disease, but this can result in reservoir infections that promote pathogen transmission and generate economic loss. Optimal control strategies should protect against clinical disease, block transmission and be applicable across related genera of parasites. We have used bioinformatics and transcriptomics to screen for transmission-blocking candidate antigens in the tick-borne apicomplexan parasite, Theileria annulata. Results A number of candidate antigen genes were identified which encoded amino acid domains that are conserved across vector-borne Apicomplexa (Babesia, Plasmodium and Theileria), including the Pfs48/45 6-cys domain and a novel cysteine-rich domain. Expression profiling confirmed that selected candidate genes are expressed by life cycle stages within infected ticks. Additionally, putative B cell epitopes were identified in the T. annulata gene sequences encoding the 6-cys and cysteine rich domains, in a gene encoding a putative papain-family cysteine peptidase, with similarity to the Plasmodium SERA family, and the gene encoding the T. annulata major merozoite/piroplasm surface antigen, Tams1. Conclusions Candidate genes were identified that encode proteins with similarity to known transmission blocking candidates in related parasites, while one is a novel candidate conserved across vector-borne apicomplexans and has a potential role in the sexual phase of the life cycle. The results indicate that a ‘One Health’ approach could be utilised to develop a transmission-blocking strategy effective against vector-borne apicomplexan parasites of animals and humans.

Published

2017

3. A Bovine Lymphosarcoma Cell Line Infected with Theileria annulata Exhibits an Irreversible Reconfiguration of Host Cell Gene Expression.

Author

Jane H Kinnaird, William Weir, Zeeshan Durrani, Sreerekha S Pillai, Margaret Baird, and Brian R Shiels

Subjects

Medicine, Science

Abstract

Theileria annulata, an intracellular parasite of bovine lymphoid cells, induces substantial phenotypic alterations to its host cell including continuous proliferation, cytoskeletal changes and resistance to apoptosis. While parasite induced modulation of host cell signal transduction pathways and NFκB activation are established, there remains considerable speculation on the complexities of the parasite directed control mechanisms that govern these radical changes to the host cell. Our objectives in this study were to provide a comprehensive analysis of the global changes to host cell gene expression with emphasis on those that result from direct intervention by the parasite. By using comparative microarray analysis of an uninfected bovine cell line and its Theileria infected counterpart, in conjunction with use of the specific parasitacidal agent, buparvaquone, we have identified a large number of host cell gene expression changes that result from parasite infection. Our results indicate that the viable parasite can irreversibly modify the transformed phenotype of a bovine cell line. Fifty percent of genes with altered expression failed to show a reversible response to parasite death, a possible contributing factor to initiation of host cell apoptosis. The genes that did show an early predicted response to loss of parasite viability highlighted a sub-group of genes that are likely to be under direct control by parasite infection. Network and pathway analysis demonstrated that this sub-group is significantly enriched for genes involved in regulation of chromatin modification and gene expression. The results provide evidence that the Theileria parasite has the regulatory capacity to generate widespread change to host cell gene expression in a complex and largely irreversible manner.

Published

2013

4. Evaluation of innovative digital microscopy and interactive team-based learning approaches in histology teaching

Author

Karen Noble, Sarah Nevitt, Zeeshan Durrani, Lucy Pickavance, and Denis Duret

Subjects

Team-based learning, 020205 medical informatics, Multimedia, Computer science, 05 social sciences, ComputingMilieux_COMPUTERSANDEDUCATION, 0202 electrical engineering, electronic engineering, information engineering, 050301 education, 02 engineering and technology, computer.software_genre, 0503 education, computer, Digital microscopy

Abstract

Histology teaching in veterinary science and other higher education clinical programmes has traditionally relied on light microscopy in a laboratory setting. However, increasing student numbers, limited flexibility of these tools for learning outside the lab, and, most recently, the COVID-19 pandemic, are driving the search for alternative approaches to delivery and sustaining of learning resources. Improved digital technologies, increasingly available through technology-enhanced learning facilities, can help address these issues. Thus, we created a digitized, interactive library of slide-mounted tissue specimens accessible through our institutional virtual learning environment, piloted its uptake by first-year BVSc students, tested it in combination with a team-based learning/flipped classroom strategy, and compared old and new approaches by evaluating student preferences and histology examination results. Students reported greater engagement with the new resource which appeared to influence exam results positively. We identify future areas of investigation and suggest developments to these approaches to encourage adoption across curricula.

Published

2021

5. A STUDY FOR UNIVERSITY STUDENT DIGITAL CAPABILITIES, INDEPENDENT LEARNING AND THE COVID-19 LOCKDOWN PERIOD

Author

Denis Duret, Tünde Varga-Atkins, Maria Limniou, Caroline Hands, and Zeeshan Durrani

Subjects

Coronavirus disease 2019 (COVID-19), Mathematics education, Psychology, Independent learning, Period (music)

Published

2020

6. Identification of candidate transmission-blocking antigen genes in Theileria annulata and related vector-borne apicomplexan parasites

Author

William Weir, Selin Hacilarlioglu, Zeeshan Durrani, Jane Kinnaird, Stephen D. Larcombe, Serkan Bakirci, Laetitia Lempereur, Hüseyin Bilgin Bilgiç, Joanne Thompson, Brian Shiels, and Tülin Karagenç

Subjects

0301 basic medicine, Candidate gene, Plasmodium, lcsh:QH426-470, lcsh:Biotechnology, 030231 tropical medicine, Babesia, Antigens, Protozoan, Disease Vectors, Apicomplexa, 03 medical and health sciences, Bioinformatic screen, Ticks, 0302 clinical medicine, 6-Cys domain, lcsh:TP248.13-248.65, Theileria, parasitic diseases, Genetics, medicine, Animals, Computer Simulation, Amino Acid Sequence, Gene, Conserved Sequence, biology, Computational Biology, Genetic Variation, Transmission-blocking vaccine, Babesiosis, biology.organism_classification, medicine.disease, Virology, Theileria annulata, 3. Good health, Gene expression profiling, lcsh:Genetics, 030104 developmental biology, transmission-blocking vaccine, bioinformatic screen, Epitopes, B-Lymphocyte, Research Article, Biotechnology

Abstract

Background Vector-borne apicomplexan parasites are a major cause of mortality and morbidity to humans and livestock globally. The most important disease syndromes caused by these parasites are malaria, babesiosis and theileriosis. Strategies for control often target parasite stages in the mammalian host that cause disease, but this can result in reservoir infections that promote pathogen transmission and generate economic loss. Optimal control strategies should protect against clinical disease, block transmission and be applicable across related genera of parasites. We have used bioinformatics and transcriptomics to screen for transmission-blocking candidate antigens in the tick-borne apicomplexan parasite, Theileria annulata. Results A number of candidate antigen genes were identified which encoded amino acid domains that are conserved across vector-borne Apicomplexa (Babesia, Plasmodium and Theileria), including the Pfs48/45 6-cys domain and a novel cysteine-rich domain. Expression profiling confirmed that selected candidate genes are expressed by life cycle stages within infected ticks. Additionally, putative B cell epitopes were identified in the T. annulata gene sequences encoding the 6-cys and cysteine rich domains, in a gene encoding a putative papain-family cysteine peptidase, with similarity to the Plasmodium SERA family, and the gene encoding the T. annulata major merozoite/piroplasm surface antigen, Tams1. Conclusions Candidate genes were identified that encode proteins with similarity to known transmission blocking candidates in related parasites, while one is a novel candidate conserved across vector-borne apicomplexans and has a potential role in the sexual phase of the life cycle. The results indicate that a ‘One Health’ approach could be utilised to develop a transmission-blocking strategy effective against vector-borne apicomplexan parasites of animals and humans. Electronic supplementary material The online version of this article (doi:10.1186/s12864-017-3788-1) contains supplementary material, which is available to authorized users.

Published

2017

7. Modulation of activation-associated host cell gene expression by the apicomplexan parasite Theileria annulata

Author

William Weir, Jane Kinnaird, Sreerekha S. Pillai, Brian Shiels, and Zeeshan Durrani

Subjects

Lipopolysaccharides, Programmed cell death, Candidate gene, Cell Survival, Immunology, Biology, Microbiology, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Virology, Gene expression, Leukocytes, Animals, Transcription factor, Gene, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Gene Expression Profiling, Original Articles, Theileria annulata, Cell biology, Gene expression profiling, Gene Expression Regulation, Cell culture, 030220 oncology & carcinogenesis, Host-Pathogen Interactions, Cattle

Abstract

Summary Infection of bovine leucocytes by Theileria annulata results in establishment of transformed, infected cells. Infection of the host cell is known to promote constitutive activation of pro-inflammatory transcription factors that have the potential to be beneficial or detrimental. In this study we have compared the effect of LPS activation on uninfected bovine leucocytes (BL20 cells) and their Theileria-infected counterpart (TBL20). Gene expression profiles representing activated uninfected BL20 relative to TBL20 cells were also compared. The results show that while prolonged stimulation with LPS induces cell death and activation of NF-κB in BL20 cells, the viability of Theileria-infected cells was unaffected. Analysis of gene expression networks provided evidence that the parasite establishes tight control over pathways associated with cellular activation by modulating reception of extrinsic stimuli and by significantly altering the expression outcome of genes targeted by infection-activated transcription factors. Pathway analysis of the data set identified novel candidate genes involved in manipulation of cellular functions associated with the infected transformed cell. The data indicate that the T. annulata parasite can irreversibly reconfigure host cell gene expression networks associated with development of inflammatory disease and cancer to generate an outcome thatis beneficial to survival and propagation of the infected leucocyte.

Published

2012

8. A Bovine Lymphosarcoma Cell Line Infected with Theileria annulata Exhibits an Irreversible Reconfiguration of Host Cell Gene Expression

Author

William Weir, Zeeshan Durrani, Margaret Baird, Jane Kinnaird, Sreerekha S. Pillai, and Brian Shiels

Subjects

Transcription, Genetic, Microarrays, Cellular differentiation, lcsh:Medicine, Gene Expression, Genetic Networks, Transcriptomes, 0302 clinical medicine, Theileria, Gene expression, Leukocytes, lcsh:Science, Genetics, Regulation of gene expression, 0303 health sciences, Multidisciplinary, biology, Lymphoma, Non-Hodgkin, Cell Differentiation, Genomics, 3. Good health, Cell biology, Infectious Diseases, Veterinary Diseases, 030220 oncology & carcinogenesis, Medicine, Signal transduction, Research Article, Cell Survival, Microbiology, Host-Parasite Interactions, Molecular Genetics, 03 medical and health sciences, Genome Analysis Tools, Cell Line, Tumor, Parasitic Diseases, Animals, Biology, 030304 developmental biology, Cell Proliferation, Cell growth, Microarray analysis techniques, Intracellular parasite, lcsh:R, Computational Biology, biology.organism_classification, Veterinary Parasitology, Theileria annulata, Gene Expression Regulation, lcsh:Q, Parasitology, Veterinary Science, Cattle, Gene Function, Genome Expression Analysis, Zoology, Naphthoquinones

Abstract

Theileria annulata, an intracellular parasite of bovine lymphoid cells, induces substantial phenotypic alterations to its host cell including continuous proliferation, cytoskeletal changes and resistance to apoptosis. While parasite induced modulation of host cell signal transduction pathways and NFκB activation are established, there remains considerable speculation on the complexities of the parasite directed control mechanisms that govern these radical changes to the host cell. Our objectives in this study were to provide a comprehensive analysis of the global changes to host cell gene expression with emphasis on those that result from direct intervention by the parasite. By using comparative microarray analysis of an uninfected bovine cell line and its Theileria infected counterpart, in conjunction with use of the specific parasitacidal agent, buparvaquone, we have identified a large number of host cell gene expression changes that result from parasite infection. Our results indicate that the viable parasite can irreversibly modify the transformed phenotype of a bovine cell line. Fifty percent of genes with altered expression failed to show a reversible response to parasite death, a possible contributing factor to initiation of host cell apoptosis. The genes that did show an early predicted response to loss of parasite viability highlighted a sub-group of genes that are likely to be under direct control by parasite infection. Network and pathway analysis demonstrated that this sub-group is significantly enriched for genes involved in regulation of chromatin modification and gene expression. The results provide evidence that the Theileria parasite has the regulatory capacity to generate widespread change to host cell gene expression in a complex and largely irreversible manner.

Published

2013