Modeling and Phylodynamic Simulations of Avian Influenza

Mosley, Liam M.

03 May 2019

No description available.

Computer Science

Bioinformatics

Biology

Epidemiology

Bioinformatics

Artificial Life

High Performance Computing

Avian Influenza

Phylodynamics

Epidemiology

Distributed Computing

Simulations

Modeling

Simulation Environments

Antigen

Antigenic Drift

Vaccination

Vaccine

Computer Science

Hidden Patterns of Anti-HLA Class I Alloreactivity Revealed Through Machine Learning

Vittoraki, Angeliki G., Fylaktou, Asimina, Tarassi, Katerina, Tsinaris, Zafeiris, Siorenta, Alexandra, Petasis, George Ch., Gerogiannis, Demetris, Lehmann, Claudia, Carmagnat, Maryvonnick, Doxiadis, Ilias, Iniotaki, Aliki G., Theodorou, Ioannis

24 March 2023

Detection of alloreactive anti-HLA antibodies is a frequent and mandatory test before and after organ transplantation to determine the antigenic targets of the antibodies. Nowadays, this test involves the measurement of fluorescent signals generated through antibody–antigen reactions on multi-beads flow cytometers. In this study, in a cohort of 1,066 patients from one country, anti-HLA class I responses were analyzed on a panel of 98 different antigens. Knowing that the immune system responds typically to “shared” antigenic targets, we studied the clustering patterns of antibody responses against HLA class I antigens without any a priori hypothesis, applying two unsupervised machine learning approaches. At first, the principal component analysis (PCA) projections of intralocus specific responses showed that anti-HLA-A and anti-HLA-C were the most distantly projected responses in the population with the anti-HLA-B responses to be projected between them. When PCA was applied on the responses against antigens belonging to a single locus, some already known groupings were confirmed while several new crossreactive patterns of alloreactivity were detected. Anti-HLA-A responses projected through PCA suggested that three cross-reactive groups accounted for about 70% of the variance observed in the population, while anti-HLA-B responses were mainly characterized by a distinction between previously described Bw4 and Bw6 cross-reactive groups followed by several yet undocumented or poorly described ones. Furthermore, anti-HLA-C responses could be explained by two major cross-reactive groups completely overlapping with previously described C1 and C2 allelic groups. A second featurebased analysis of all antigenic specificities, projected as a dendrogram, generated a robust measure of allelic antigenic distances depicting bead-array defined cross reactive groups. Finally, amino acid combinations explaining major population specific crossreactive groups were described. The interpretation of the results was based on the current knowledge of the antigenic targets of the antibodies as they have been characterized either experimentally or computationally and appear at the HLA epitope registry.

info:eu-repo/classification/ddc/610

ddc:610

Antigenic Determinants Of Chicken Riboflavin Carrier Protein: Structural And Functional Aspects

Beena, T K

10 1900

Investigations detailed in this thesis constitute a part of the continuing programme of research undertaken in our laboratory on the riboflavin carrier protein (RCP) with partic­ular reference to identification and synthesis of neutralizing antigenic determinants, design of relevant epitope mimetics with improved immunogenic characteristics and relationship between their secondary structures and immunological properties. The riboflavin carrier protein is elaborated as a reproductive stratagem to ensure ade­quate vitamin deposition in the developing oocyte in the chickens. The protein is scrupu­lously conserved through evolution in terms of physico chemical and immunological char­acteristics from fish through birds to mammals, including primates. In rodents and sub­human primates immunization with the heteroantigen viz., chicken egg white RCP leads to functional neutralization of the endogenous maternal protein resulting in curtailment of early pregnancy. Thus, the crucial role of RCP in maintenance of pregnancy is established and the protein identified as a potential candidate vaccine for immimocontraception. Fur­ther studies with the reduced and carboxymethylated (RCM) RCP as the immunogen re­veal that antibodies induced by RCM-RCP are equally effective in bioneutralization of the endogenous protein. So it can be surmised that the native folded structure of RCP is not obligatory for eliciting bioneutralizing antibodies. In an attempt to identify functionally relevant regions of the protein, a panel of monoclonal antibodies (MAbs) have been raised and characterized. One of the MAbs viz., 6J32Ci2 could bring about early fetal resorp-tion when injected to mice with confirmed pregnancies. These results prompted a detail molecular immunological approach to understand underlying mechanisms. The principal aims of the present investigations include: (1) identification of neutralizing epitopes; (2) synthesis of peptidyl sequences incorporating these determinants; (3) an understanding of the structure, antigenic and immunogenic characteristics of these peptides; (4) correlation of conformational and antigenic characteristics; (5) rational design and synthesis of peptide analogs with greater propensity to assume predicted secondary structures; (6) analysis of conformation dependency of peptide antigens and the importance of such conformation in generating an optimal B-cell response; (7) the efficacy of the antibodies elicited by these Peptide antigens in neutralizing endogenous protein with the ultimate aim of designing synthetic vaccines. Chapter 1 of this thesis deals with a general introduction summarizing the current status of knowledge regarding the chemistry and biology of RCP as well as synthetic pep­tides as potential immunogens. Chapter 2 outlines details of the experimental procedures adopted. Chapter 3 describes the results of investigations on the C-terminal fragment (residues 200-219) of cRCR The main consideration in selecting this sequence for the design of a potential peptide-based vaccine relied on the epitopic specificity of the neu­tralizing MAb 6S2C12. Epitope mapping using the Pepscan method revealed that the monoclonal antibody recognizes a core sequence corresponding to residues 203-210 of the cRCP. A 21-residue synthetic peptide (C-21) comprising this epitope was synthesized and antibodies elicited to the peptide conjugated to two different carriers, namely diphtheria toxoid and purified protein derivative (PPD) for T-cell help. In both active and passive immunoneutralization experiments, the peptide specific neutralizing antibodies interfered with the biological function of the protein and hence either protected from pregnancy or caused early fetal resorption in rodents as well as in sub-human primates. The conforma-tional properties of the peptide in aqueous buffers were analyzed from circular dichroism which revealed the absence of any ordered structure in the native C-21 peptide. Theoreti­cal predictions of secondary structure suggested a propensity for an t*-helical structure for this fragment in the native protein. Therefore, influence of the helix-promoting solvent, vizM 2,2,2,trifluroethanol (TFE) on the C-21 peptide was investigated. Addition of TFE resulted in spectral changes with negative bands at 208 and 222 nm and a positive band at 190 rim which are typical of an a-helix. To gain more information on the conformational characteristics of this peptide, it was considered worthwhile to stabilize the native peptide in an a-helical conformation based on simple rational design principles. Towards this end, four analogs of the parent peptide were synthesized and helix stabilization was sought to be achieved by introducing either salt bridges or back-bone conformational constraints such as by incorporating a-amino isobutyric acid at appropriate positions. In all the analogs, the core sequence, recognised by the neutralizing MAb 6B2C12 was maintained intact to ensure induction of antibodies capable of recognizing the native protein. CD spectral analysis of the analog peptides indicated that all the engineered peptides had varying degrees of enhanced helicities as compared to the parent peptide. The immunogenicity of each analog was studied by to the relevant peptide-diphtheria toxoid conjugates and analyzing their reactivities with the native protein by direct and competitive ELISA. The results revealed that these engi­neered conformational analogs axe highly immunogenic eliciting high titers of anti-protein antibodies. The relative affinities of these antibodies to bind cRCP were investigated. The antibodies to peptide analogs had higher affinities for the native protein and a positive correlation was found between the helical content of the peptide antigen in question and the relative affinity of corresponding antibody. The antibodies directed to all the peptide analogs could block the function of RCP resulting in early embryonic resorption when ad­ministered to pregnant mice. An interesting pattern of immunological cross-reactivity has been observed with the native and designed peptides. Antibodies raised to constrained helical analogs could bind the C-21 peptide which is structurally flexible. In contrast, the antibodies raised to the flexible native peptide antigen were inefficient in recognizing the structured peptides. The ability of all the peptide antibody to bind the native protein has been interpreted in terms of a conformationally flexible C-terminus region in cRCP. Chapter 4 details investigations on a 21-residue peptide (N- 21) from the N-terminiis (4-24) of the protein. Selection of this peptidyl sequence relied on theoretical prediction of potential sequential determinants on RCP other than at C-terminus as well as on the outcome of immunoneutralisation experiments using antibodies to egg yolk RCP which lacks the relevant C-terminal determinants. The structure of this peptide in solution was analyzed by two dimensional NMR and CD. NMR experiments revealed the presence of two structured regions in the peptide. Diagnostic nuclear Overhauser effects characteristics of reverse turns or short frayed helical segments over residues 3-9 and 18-21 of the peptide were obtained. CD spectra showed the presence of a strong, negative band at 204 nm over a wide range of solvent conditions, a feature which has been interpreted in terms of a "polyproline Il-like" segment encompassing residues 11-16 which corresponds to an interesting (X-Pro)^ repeat in the N-21 sequence. Specific antibodies were generated to this peptide as a conjugate with diphtheria tox­oid. Administration of the antipeptide antibodies could neutralize the protein in vivo as demonstrated by early embryonic loss in pregnant mice. In limited experiments the anti­peptide antibodies showed propensity to protect bonnet monkeys from pregnancy over a few consecutive ovulatory cycles when titres are maintained elevated by periodic boosting. To address the relationship between peptide structures and antigenicity, epitope mapping of this antipeptide antibodies as well- as the polyclonal antibodies to native RCP was undertaken using the Pepscan method. The results reveal that antigenic regions correspond well to conformationally well-defined elements of structure with the polyproline II-like seg­ment being a common antigenic determinant on both the peptide and the native protein. These observations are suggestive of the involvement of both the N and C-terminal regions of RCP in terms of its binding to putative plasma membrane receptors.

Biochemistry

Riboflavin Carrier Protein (RCP)

Chickens - Carrier Protein

Peptide Synthesis

Peptide Antigens

Synthetic Peptides

Immunoassays

Peptide-based Vaccines

Immunology

Synthetic Peptide Immunogens

Peptide Immunogen

Peptide-Carrier Conjugation

Antigenic Determinants

Desenvolvimento e caracterização de células-tronco mesenquimais derivadas do tecido adiposo e seu potencial de diferenciação / Development, characterization and differentiation potential of adipose tissue-derived mesenchymal stem cells

Braunig, Patricia

09 March 2016

Mesenchymal stem cells (MSCs) have demonstrated significant potential for clinical use due to their convenient isolation, lack of significant immunogenicity, lack of ethical controversy and their potential to differentiate into tissue-specific cell types. MSCs reside in almost all tissues including the adipose tissue. Adipose tissue has main advantages as wide distribution in the organism, suitable isolation and considerable amount of resident multipotent stem cells. Therefore, in this study, adipose tissue-derived mesenchymal stem cells (AT-MSCs) were isolated from BALB/c mice omentum and epididymis fat pats. During AT-MSCs maintenance and expansion in vitro, they were characterized for the expression of antigenic surface markers and for osteogenic, chondrogenic, and adipogenic differentiation potential. AT-MSCs form both sources expressed mesenchymal surface markers, CD73, and CD105 and were negative for a hematopoietic marker, CD45. The cultures derived from both adipose tissues differentiated into all three lineages. However, differences were observed in mesenchymal surface marker expression profiles as well as in the differentiation potential of AT-MSCs from different fat sources. Furthermore, AT-MSCs isolated from omentum fat depot were cultured with differentiation medium containing retinoic acid and testicular cell conditioned medium. After treatment periods, AT-MSCs showed Gdnf gene expression, this gene is a marker for Sertoli cells. The results showed that AT-MSCs from distinct fat depots have different characteristics related to stem cell surface marker expression profiles and differentiation potential. / Células-tronco mesenquimais têm demonstrado significativo potencial para aplicação terapêutica devido ao seu fácil isolamento, baixa imunogenicidade, ausência das implicações éticas e sua ampla plasticidade. Essas células estão nos mais diversos tecidos, destacando-se o tecido adiposo devido á sua ampla distribuição no organismo, conveniente obtenção e o considerável número de células-tronco mesenquimais multipotentes que podem ser isoladas desse tecido. Assim sendo, no presente estudo, células-tronco mesenquimais derivadas do tecido adiposo (AT-MSCs) foram isoladas do tecido adiposo localizado nas regiões próximas ao omento e testículos de camundongos BALB/c. Durante a manutenção e expansão das AT-MSCs in vitro, elas foram caracterizadas quanto à presença de marcadores antigênicos de superfície e potencial de diferenciação nas linhagens osteogênica, condrogênica e adipogênica. AT-MSCs de ambas as fontes expressaram os marcadores mesenquimais de superfície, CD73 e CD105, assim como foram negativas para o marcador de linhagens hematopoiéticas, CD45. Quanto ao potencial de diferenciação, os cultivos provenientes das duas origens de tecido adiposo apresentaram capacidade de diferenciar nas três linhagens acima citadas. Porém, foram observadas discretas diferenças tanto nos padrões de expressão dos marcadores mesenquimais de superfície quanto nos potenciais de diferenciação entre as AT-MSCs provenientes dos diferentes locais de deposição de gordura. Além disso, as AT-MSCs isoladas do tecido adiposo depositado em contato com o omento quando cultivadas com meios de diferenciação, contendo ácido retinóico e meio condicionado testicular demonstraram expressão do gene Gdnf o qual é reconhecidamente expresso pelas células de Sertoli. Portanto, os resultados obtidos demonstram que conforme a origem do tecido adiposo as AT-MSCs possuem diferentes características relacionadas aos marcadores de superfície assim como aos potenciais de diferenciação.

Ácido retinóico

Diferenciação in vitro

Gene marcador

Marcadores antigênicos de superfície

Meio condicionado

Antigenic surface markers

Conditioned medium

Gene marker

In vitro differentiation

Multipotent stromal cells

Retinoic acid

Computer-aided design and engineering of sucrose-utilizing transglucosylases for oligosaccharide synthesis / Design computationnel et ingénierie de transglycosylases pour la synthèse d'oligosaccharides

Verges, Alizee

08 April 2015

La synthèse d’oligosides complexes reste difficilement réalisable par voie chimique. Le recours aux catalyseurs enzymatiques permettrait de pallier aux contraintes de la chimie mais les enzymes naturelles ne présentent pas toujours les propriétés adéquates et nécessitent d’être optimisées par ingénierie moléculaire. Le couplage de la chimie et de biocatalyseurs conçus « sur mesure », peut offrir une alternative prometteuse pour explorer de nouvelles voies de synthèse des sucres, notamment pour la mise au point de glycovaccins. L’objectif de cette thèse a ainsi visé à mettre en œuvre des stratégies d’ingénierie semi-rationnelles de l’amylosaccharase de Neisseria polysaccharea (ASNp), une α-transglucosylase utilisant le saccharose comme substrat, afin de concevoir de nouvelles spécificités de substrats et d’étendre le potentiel de cette enzyme à catalyser de nouvelles réactions, permettant ainsi d’aller bien au-delà de ce que la Nature peut offrir. Dans une première étude, une approche assistée par ordinateur a été suivie afin de remodeler le site actif de l’enzyme (sous-sites +1, +2 et +3) pour la reconnaissance et la glucosylation en α-1,4 d’un accepteur disaccharidique non-naturel (l’allyl 2-deoxy-2-N-trichloroacetyl-β-D-glucopyranosyl-(1→2)-α-L-rhamnopyranose). Le produit attendu, un trisaccharide, est un précurseur dans la synthèse chimio-enzymatique des oligosaccharides mimant les unités répétitives des lipopolysaccharides de Shigella flexneri, dont l’utilisation ultime est le développement de vaccins contre la Shigellose. Une approche computationnelle faisant appel à des outils dédiés au design automatisé de protéines et à une analyse des séquences a conduit au design d’une librairie d’environ 2.7x104 séquences, qui a ensuite été construite expérimentalement puis criblée. Au final, 55 variants actifs sur saccharose (le substrat donneur) ont été identifiés, et un mutant, appelé F3, a révélé sa capacité à glucosyler en α-1,4 le disaccharide cible. De manière étonnante, ce mutant possède 7 mutations au sein de son site actif, nécessaires au déploiement de sa nouvelle spécificité tout en maintenant son aptitude à utiliser le saccharose comme donneur d'unité glucosyle. Dans une deuxième étude, trois variants ont été identifiés lors du criblage de la librairie semi-rationnelle sur saccharose comme présentant de nouvelles spécificités de produits. Ces mutants ont été caractérisés plus en détails, ainsi que leurs produits, sur un plan biochimique et structural. Ces mutants, appelés 37G4, 39A8 et 47A10, contiennent entre 7 et 11 mutations dans leur site actif. Il a été montré qu’ils étaient capables de reconnaitre le saccharose et le maltose (un produit de la réaction avec le saccharose) comme donneur et accepteur pour synthétiser en quantités variables de l’erlose (α-D-Glucopyranosyl-(1→4)-α-D-Glucopyranosyl-(1→2)-β-D-Fructose) et du panose (α-D-Glucopyranosyl-(1→6)-α-D-Glucopyranosyl-(1→4)-α-D-glucose), des molécules non produites par l’enzyme sauvage. Des taux de production relativement élevés ont été obtenus pour ces molécules, dont les propriétés acariogènes et le pouvoir sucrant pourraient présenter un intérêt applicatif pour l’industrie alimentaire. Dans une dernière partie, un autre mutant, appelé 30H3, a été isolé lors du criblage primaire de la librairie de par son activité élevée sur saccharose (une amélioration d’un facteur 6.5 comparé à l’enzyme sauvage). Après caractérisation, le mutant s’est avéré synthétiser un profil unique de produits en comparaison de l’enzyme sauvage ASNp. Il s’est ainsi montré très efficace pour la synthèse de maltooligosaccharides solubles, de taille de chaînes contrôlée allant d’un DP 3 à 21, et de faible polydispersité. Aucun polymère insoluble n’a été identifié. La structure 3D du mutant résolue par cristallographie des rayons X a révélé un agrandissement de la poche catalytique en raison de la présence de 9 mutations introduites dans la première sphère.... / Chemical synthesis of complex oligosaccharides still remains critical. Enzymes have emerged as powerful tools to circumvent chemical boundaries of glycochemistry. However, natural enzymes do not necessarily display the required properties and need to be optimized by molecular engineering. Combined use of chemistry and tailored biocatalysts may thus be attractive for exploring novel synthetic routes, especially for glyco-based vaccines development. The objective of this thesis was thus to apply semi-rational engineering strategies to Neisseria polysaccharea amylosucrase (NpAS), a sucrose-utilizing α-transglucosylase, in order to conceive novel substrate specificities and extend the potential of this enzyme to catalyze novel reactions, going beyond what nature has to offer. In a first study, a computer aided-approach was followed to reshape the active site of the enzyme (subsites +1, +2 and +3) for the recognition and α-1,4 glucosylation of a non-natural disaccharide acceptor molecule (allyl 2-deoxy-2-N-trichloroacetyl-β-D-glucopyranosyl-(1→2)-α-L-rhamnopyranose). The trisaccharide product is a building block for the chemo-enzymatic synthesis of oligosaccharides mimicking the repetitive units of the Shigella flexneri lipopolysaccharides, and ultimately, for the production of a vaccine against Shigellosis disease. Using computational tools dedicated to the automated protein design, combined with sequence analysis, a library of about 2.7x104 sequences was designed and experimentally constructed and screened. Altogether, 55 mutants were identified to be active on sucrose (the donor substrate), and one, called mutant F3, was subsequently found able to catalyze the α-1,4 glucosylation of the target disaccharide. Impressively, this mutant contained seven mutations in the first shell of the active site leading to a drastic reshaping of the catalytic pocket without significantly perturbing the original specificity for sucrose donor substrate. In a second study, three variants were identified from the screening of the semi-rational library on sole sucrose as displaying totally novel product specificities. They were further characterized, as well as their products, at both biochemical and structural level. These mutants, called 37G4, 39A8 and 47A10, contained between 7 and 11 mutations into their active site. They were found able to use sucrose and maltose (a reaction product from sucrose) as both donor and acceptor substrates to produce in varying amounts erlose (α-D-Glucopyranosyl-(1→4)-α-D-Glucopyranosyl-(1→2)-β-D-Fructose) and panose (α-D-Glucopyranosyl-(1→6)-α-D-Glucopyranosyl-(1→4)-α-D-glucose) trisaccharides, which are not produced at all by parental wild-type enzyme. Relatively high yields were obtained for the production of these molecules, which are known to have acariogenic and sweetening properties and could be of interest for food applications. In a last part, another mutant 30H3 was isolated due to its high activity on sucrose (6.5-fold improvement compared to wild-type activity) from primary screening of the library. When characterized, the mutant revealed a singular product profile compared to that of wild-type NpAS. It appeared highly efficient for the synthesis of soluble maltooligosaccharides of controlled size chains, from DP 3 to 21, and with a low polydispersity. No formation of insoluble polymer was found. The X-ray structure of the mutant was determined and revealed the opening of the catalytic pocket due to the presence of 9 mutations in the first sphere. Molecular dynamics simulations suggested a role of mutations onto flexibility of domain B’ that might interfere with oligosaccharide binding and explain product specificity of the mutant.

Amylosaccharase

Transglycosylase

Glucosylation

Design computationnel de libairies

Design et ingénierie d'enzymes

Synthèse chimio-enzymatique

Shigella flexneri

Oligosaccharides antigéniques

Erlose

Panose

Maltooligosaccharide

Amylosucrase

Transglycosylase

Glucosylation

Computer-aided library design

Enzym design and engineering

Chemo-enzymatic synthesis

Shigella flexneri

Antigenic oligosaccharides

Erlose

Panose

Maltooligosaccharide

572.7

The in silico prediction of foot-and-mouth disease virus (FMDV) epitopes on the South African territories (SAT)1, SAT2 and SAT3 serotypes

Mukonyora, Michelle

24 January 2017

Foot-and-mouth disease (FMD) is a highly contagious and economically important disease that affects even-toed hoofed mammals. The FMD virus (FMDV) is the causative agent of FMD, of which there are seven clinically indistinguishable serotypes. Three serotypes, namely, South African Territories (SAT)1, SAT2 and SAT3 are endemic to southern Africa and are the most antigenically diverse among the FMDV serotypes. A negative consequence of this antigenic variation is that infection or vaccination with one virus may not provide immune protection from other strains or it may only confer partial protection. The identification of B-cell epitopes is therefore key to rationally designing cross-reactive vaccines that recognize the immunologically distinct serotypes present within the population. Computational epitope prediction methods that exploit the inherent physicochemical properties of epitopes in their algorithms have been proposed as a cost and time-effective alternative to the classical experimental methods. The aim of this project is to employ in silico epitope prediction programmes to predict B-cell epitopes on the capsids of the SAT serotypes. Sequence data for 18 immunologically distinct SAT1, SAT2 and SAT3 strains from across southern Africa were collated. Since, only one SAT1 virus has had its structure elucidated by X-ray crystallography (PDB ID: 2WZR), homology models of the 18 virus capsids were built computationally using Modeller v9.12. They were then subjected to energy minimizations using the AMBER force field. The quality of the models was evaluated and validated stereochemically and energetically using the PROMOTIF and ANOLEA servers respectively. The homology models were subsequently used as input to two different epitope prediction servers, namely Discotope1.0 and Ellipro. Only those epitopes predicted by both programmes were defined as epitopes. Both previously characterised and novel epitopes were predicted on the SAT strains. Some of the novel epitopes are located on the same loops as experimentally derived epitopes, while others are located on a putative novel antigenic site, which is located close to the five-fold axis of symmetry. A consensus set of 11 epitopes that are common on at least 15 out of 18 SAT strains was collated. In future work, the epitopes predicted in this study will be experimentally validated using mutagenesis studies. Those found to be true epitopes may be used in the rational design of broadly reactive SAT vaccines / Life and Consumer Sciences / M. Sc. (Life Sciences)

Foot-and-mouth-disease

Foot-and-mouth disease virus (FMDV)

South African territories (SAT)

Viral protein (VP)

Epitope

Epitope prediction

Immunoinformatics

Homology Model

Discotope

Ellipro

636.08969100968

Homology theory

Viral proteins -- South Africa

Antigenic determinants -- South Africa

Immunoinformatics -- South Africa

Mathematical evolutionary epidemiology : limited epitopes, evolution of strain structures and age-specificity

Cherif, Alhaji

January 2015

We investigate the biological constraints determined by the complex relationships between ecological and immunological processes of host-pathogen interactions, with emphasis on influenza viruses in human, which are responsible for a number of pandemics in the last 150 years. We begin by discussing prolegomenous reviews of historical perspectives on the use of theoretical modelling as a complementary tool in public health and epidemiology, current biological background motivating the objective of the thesis, and derivations of mathematical models of multi-locus-allele systems for infectious diseases with co-circulating serotypes. We provide detailed analysis of the multi-locus-allele model and its age-specific extension. In particular, we establish the necessary conditions for the local asymptotic stability of the steady states and the existence of oscillatory behaviours. For the age-structured model, results on the existence of a mild solution and stability conditions are presented. Numerical studies of various strain spaces show that the dynamic features are preserved. Specifically, we demonstrate that discrete antigenic forms of pathogens can exhibit three distinct dynamic features, where antigenic variants (i) fully self-organize and co-exist with no strain structure (NSS), (ii) sort themselves into discrete strain structure (DSS) with non-overlapping or minimally overlapping clusters under the principle of competitive exclusion, or (iii) exhibit cyclical strain structure (CSS) where dominant antigenic types are cyclically replaced with sharp epidemics dominated by (1) a single strain dominance with irregular emergence and re-emergence of certain pathogenic forms, (2) ordered alternating appearance of a single antigenic type in periodic or quasi-periodic form similar to periodic travelling waves, (3) erratic appearance and disappearance of synchrony between discrete antigenic types, and (4) phase-synchronization with uncorrelated amplitudes. These analyses allow us to gain insight into the age-specific immunological profile in order to untangle the effects of strain structures as captured by the clustering behaviours, and to provide public health implications. The age-structured model can be used to investigate the effect of age-specific targeting for public health purposes.

616.2