Antigenic variation or antigenic alteration refers to the mechanism by which an

infectious agent In biology, a pathogen ( el, πάθος, "suffering", "passion" and , "producer of") in the oldest and broadest sense, is any organism or agent that can produce disease. A pathogen may also be referred to as an infectious agent, or simply a germ ...

such as a

protozoa Protozoa (singular: protozoan or protozoon; alternative plural: protozoans) are a group of single-celled eukaryotes, either free-living or parasitic, that feed on organic matter such as other microorganisms or organic tissues and debris. Histo ...

n, bacterium or virus alters the

proteins Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, respo ...

carbohydrates In organic chemistry, a carbohydrate () is a biomolecule consisting of carbon (C), hydrogen (H) and oxygen (O) atoms, usually with a hydrogen–oxygen atom ratio of 2:1 (as in water) and thus with the empirical formula (where ''m'' may or may ...

on its surface and thus avoids a

host A host is a person responsible for guests at an event or for providing hospitality during it. Host may also refer to: Places * Host, Pennsylvania, a village in Berks County People *Jim Host (born 1937), American businessman * Michel Host ...

immune response An immune response is a reaction which occurs within an organism for the purpose of defending against foreign invaders. These invaders include a wide variety of different microorganisms including viruses, bacteria, parasites, and fungi which could ...

, making it one of the mechanisms of

antigenic escape Antigenic escape, immune escape, immune evasion or escape mutation occurs when the immune system of a host, especially of a human being, is unable to respond to an infectious agent: the host's immune system is no longer able to recognize and elimi ...

. It is related to

phase variation In biology, phase variation is a method for dealing with rapidly varying environments without requiring random mutation. It involves the variation of protein expression, frequently in an on-off fashion, within different parts of a bacterial populati ...

. Antigenic variation not only enables the pathogen to avoid the immune response in its current host, but also allows re-infection of previously infected hosts. Immunity to re-infection is based on recognition of the

antigens In immunology, an antigen (Ag) is a molecule or molecular structure or any foreign particulate matter or a pollen grain that can bind to a specific antibody or T-cell receptor. The presence of antigens in the body may trigger an immune response. ...

carried by the pathogen, which are "remembered" by the

acquired immune response The adaptive immune system, also known as the acquired immune system, is a subsystem of the immune system that is composed of specialized, systemic cells and processes that eliminate pathogens or prevent their growth. The acquired immune system ...

. If the pathogen's dominant antigen can be altered, the pathogen can then evade the host's acquired immune system. Antigenic variation can occur by altering a variety of surface molecules including

and

. Antigenic variation can result from

gene conversion Gene conversion is the process by which one DNA sequence replaces a homologous sequence such that the sequences become identical after the conversion event. Gene conversion can be either allelic, meaning that one allele of the same gene replaces a ...

, site-specific DNA inversions,

hypermutation Somatic hypermutation (or SHM) is a cellular mechanism by which the immune system adapts to the new foreign elements that confront it (e.g. microbes), as seen during class switching. A major component of the process of affinity maturation, SHM dive ...

, or recombination of sequence cassettes. The result is that even a

clonal population A clone is a group of ''identical'' cells that share a ''common ancestry'', meaning they are derived from the same cell. Clonality implies the state of a cell or a substance being derived from one source or the other. Thus there are terms like '' ...

of pathogens expresses a heterogeneous

phenotype In genetics, the phenotype () is the set of observable characteristics or traits of an organism. The term covers the organism's morphology or physical form and structure, its developmental processes, its biochemical and physiological proper ...

. Many of the proteins known to show antigenic or phase variation are related to

virulence Virulence is a pathogen's or microorganism's ability to cause damage to a host. In most, especially in animal systems, virulence refers to the degree of damage caused by a microbe to its host. The pathogenicity of an organism—its ability to ca ...

In bacteria

Antigenic variation in bacteria is best demonstrated by species of the genus '' Neisseria'' (most notably, '' Neisseria meningitidis'' and ''

Neisseria gonorrhoeae ''Neisseria gonorrhoeae'', also known as ''gonococcus'' (singular), or ''gonococci'' (plural), is a species of Gram-negative diplococci bacteria isolated by Albert Ludwig Sigesmund Neisser, Albert Neisser in 1879. It causes the sexually transmit ...

'', the gonococcus); species of the genus '' Streptococcus'' and the

Mycoplasma ''Mycoplasma'' is a genus of bacteria that, like the other members of the class ''Mollicutes'', lack a cell wall around their cell membranes. Peptidoglycan (murein) is absent. This characteristic makes them naturally resistant to antibiotics ...

. The ''Neisseria'' species vary their pili (protein

polymer A polymer (; Greek '' poly-'', "many" + ''-mer'', "part") is a substance or material consisting of very large molecules called macromolecules, composed of many repeating subunits. Due to their broad spectrum of properties, both synthetic a ...

s made up of subunits called

pilin Pilin refers to a class of fibrous proteins that are found in pilus structures in bacteria. These structures can be used for the exchange of genetic material, or as a cell adhesion mechanism. Although not all bacteria have pili or fimbriae, bact ...

which play a critical role in bacterial adhesion, and stimulate a vigorous host immune response) and the Streptococci vary their M-protein. In the bacterium ''Borrelia burgdorferi'', the cause of

Lyme disease Lyme disease, also known as Lyme borreliosis, is a vector-borne disease caused by the ''Borrelia'' bacterium, which is spread by ticks in the genus ''Ixodes''. The most common sign of infection is an expanding red rash, known as erythema migran ...

, the surface lipoprotein VlsE can undergo recombination which results in antigenic diversity. The bacterium carries a plasmid that contains fifteen silent ''vls'' cassettes and one functional copy of ''vlsE''. Segments of the silent cassettes recombine with the vlsE gene, generating variants of the surface lipoprotein antigen.

In protozoa

Antigenic variation is employed by a number of different

protozoan Protozoa (singular: protozoan or protozoon; alternative plural: protozoans) are a group of single-celled eukaryotes, either free-living or parasitic, that feed on organic matter such as other microorganisms or organic tissues and debris. Histo ...

parasites. ''

Trypanosoma brucei ''Trypanosoma brucei'' is a species of parasitic Kinetoplastida, kinetoplastid belonging to the genus ''Trypanosoma'' that is present in sub-Saharan Africa. Unlike other protozoan parasites that normally infect blood and tissue cells, it is exclus ...

'' and ''

Plasmodium falciparum ''Plasmodium falciparum'' is a Unicellular organism, unicellular protozoan parasite of humans, and the deadliest species of ''Plasmodium'' that causes malaria in humans. The parasite is transmitted through the bite of a female ''Anopheles'' mosqu ...

'' are some of the best studied examples.

''Trypanosoma brucei''

''Trypanosoma brucei'', the organism that causes sleeping sickness, Mechanisms of VSG switching2

replicates extracellularly in the bloodstream of infected mammals and is subjected to numerous host defense mechanisms including the

complement system The complement system, also known as complement cascade, is a part of the immune system that enhances (complements) the ability of antibodies and phagocytic cells to clear microbes and damaged cells from an organism, promote inflammation, and at ...

, and the innate and adaptive immune systems. To protect itself, the parasite decorates itself with a dense, homogeneous coat (~10^7 molecules) of the

variant surface glycoprotein Variant surface glycoprotein (VSG) is a ~60kDa protein which densely packs the cell surface of protozoan parasites belonging to the genus ''Trypanosoma''. This genus is notable for their cell surface proteins. They were first isolated from ''Tryp ...

(VSG). In the early stages of invasion, the VSG coat is sufficient to protect the parasite from immune detection. The host eventually identifies the VSG as a foreign antigen and mounts an attack against the microbe. However, the parasite's genome has over 1,000 genes that code for different variants of the VSG protein, located on the subtelomeric portion of large chromosomes, or on intermediate chromosomes. These VSG genes become activated by

in a hierarchical order: telomeric VSGs are activated first, followed by array VSGs, and finally pseudogene VSGs. Only one VSG is expressed at any given time. Each new gene is switched in turn into a VSG expression site (ES). This process is partially dependent on homologous recombination of DNA, which is mediated in part by the interaction of the ''T. brucei'' BRCA2 gene with RAD51 (however, this is not the only possible mechanism, as BRCA2 variants still display some VSG switching). In addition to homologous recombination,

transcriptional regulation In molecular biology and genetics, transcriptional regulation is the means by which a cell regulates the conversion of DNA to RNA (transcription), thereby orchestrating gene activity. A single gene can be regulated in a range of ways, from alt ...

is also important in antigen switching, since ''T. brucei'' has multiple potential expression sites. A new VSG can either be selected by transcriptional activation of a previously silent ES, or by recombination of a VSG sequence into the active ES (see figure, "Mechanisms of VSG Switching in ''T. brucei''"). Although the biological triggers that result in VSG switching are not fully known, mathematical modeling suggests that the ordered appearance of different VSG variants is controlled by at least two key parasite-derived factors: differential activation rates of parasite VSG and density-dependent parasite differentiation.

''Plasmodium falciparum''

''Plasmodium falciparum'', the major etiologic agent of human malaria, has a very complex life cycle that occurs in both humans and mosquitoes. While in the human host, the parasite spends most of its life cycle within hepatic cells and erythrocytes (in contrast to ''T. brucei'' which remains extracellular). As a result of its mainly intracellular niche, parasitized host cells which display parasite proteins must be modified to prevent destruction by the host immune defenses. In the case of ''Plasmodium'', this is accomplished via the dual purpose ''Plasmodium falciparum'' erythrocyte membrane protein 1 (PfEMP1). PfEMP1 is encoded by the diverse family of genes known as the ''var'' family of genes (approximately 60 genes in all). The diversity of the gene family is further increased via a number of different mechanisms including exchange of genetic information at telomeric loci, as well as meiotic recombination. The PfEMP1 protein serves to sequester infected erythrocytes from splenic destruction via adhesion to the

endothelium The endothelium is a single layer of squamous endothelial cells that line the interior surface of blood vessels and lymphatic vessels. The endothelium forms an interface between circulating blood or lymph in the lumen and the rest of the vessel ...

. Moreover, the parasite is able to evade host defense mechanisms by changing which ''var'' allele is used to code the PfEMP1 protein. Like ''T. brucei'', each parasite expresses multiple copies of one identical protein. However, unlike ''T. brucei'', the mechanism by which ''var'' switching occurs in ''P. falciparum'' is thought to be purely transcriptional. ''Var'' switching has been shown to take place soon after invasion of an erythrocyte by a ''P. falciparum'' parasite.

Fluorescent in situ hybridization Fluorescence ''in situ'' hybridization (FISH) is a molecular cytogenetic technique that uses fluorescent probes that bind to only particular parts of a nucleic acid sequence with a high degree of sequence complementarity. It was developed ...

analysis has shown that activation of ''var'' alleles is linked to altered positioning of the genetic material to distinct "transcriptionally permissive" areas.

In viruses

Different virus families have different levels of ability to alter their genomes and trick the immune system into not recognizing. Some viruses have relatively unchanging genomes like paramyxoviruses while others like influenza have rapidly changing genomes that inhibit our ability to create long lasting vaccines against the disease. Viruses in general have much faster rate of mutation of their genomes than human or bacterial cells. In general viruses with shorter genomes have faster rates of mutation than longer genomes since they have a faster rate of replication. It was classically thought that viruses with an RNA genome always had a faster rate of antigenic variation than those with a DNA genome because RNA polymerase lacks a mechanism for checking for mistakes in translation but recent work by Duffy et al. shows that some DNA viruses have the same high rates of antigenic variation as their RNA counterparts. Antigenic variation within viruses can be categorized into 6 different categories called antigenic

drift Drift or Drifts may refer to: Geography * Drift or ford (crossing) of a river * Drift, Kentucky, unincorporated community in the United States * In Cornwall, England: ** Drift, Cornwall, village ** Drift Reservoir, associated with the village ...

, shift, rift, lift, sift, and gift Antigenic drift: point mutations that occur through imperfect replication of the viral genome. All viruses exhibit

genetic drift Genetic drift, also known as allelic drift or the Wright effect, is the change in the frequency of an existing gene variant (allele) in a population due to random chance. Genetic drift may cause gene variants to disappear completely and there ...

over time but the amount that they are able to drift without incurring a negative impact on their fitness varies between families. Antigenic shift: reassortment of the viral genome that occurs when a single host cell is co-infected with two unique virus particles. As the viruses replicate, they reassort and the genes of the two species get mixed up when packaged into a new budding virus. For influenza, this process could yield up to 256 new variations of the virus, and meaningful antigenic shift events tend to occur every couple of decades. Antigenic rift: Recombination of viral gene. This occurs when there are again two viral cells that infect the same host cell. In this instance the viruses recombine with pieces of each gene creating a new gene instead of simply switching out genes. Recombination has been extensively studied in avian influenza strains as to how the genetics of H5N1 have changed over time. Antigenic sift: direct transmission with a zoonotic strain of a virus. This occurs when a human is infected during a spillover event. Antigenic lift: Viral transmission of host derived gene. Some viruses steal host genes and then incorporate them into their own viral genome, encoding genes that sometimes give them an increased virulence. An example of this is the pox virus vaccinia which encoded a viral growth factor that is very similar to the human growth factor and thought to be stolen from the human genome. Antigenic gift: Occurs when humans deliberately modify a virus's genome either in a lab setting or in order to make a bioweapon.

Influenza virus

The antigenic properties of influenza viruses are determined by both hemagglutinin and neuraminidase. Specific host proteases cleave the single peptide HA into two subunits HA1 and HA2. The virus becomes highly virulent if the amino acids at the cleavage sites are lipophilic. Selection pressure in the environment selects for antigenic changes in the antigen determinants of HA, that includes places undergoing adaptive evolution and in antigenic locations undergoing substitutions, which ultimately results in changes in the antigenicity of the virus. Glycosylation of HA does not correlate with either the antigenicity or the selection pressure. Antigenic variation may be classified into two types, antigenic drift that results from a change in few amino acids and

antigenic shift Antigenic shift is the process by which two or more different strains of a virus, or strains of two or more different viruses, combine to form a new subtype having a mixture of the surface antigens of the two or more original strains. The term is ...

which is the outcome of acquiring new structural proteins. A new vaccine is required every year because influenza virus has the ability to undergo antigenic drift. Antigenic shift occurs periodically when the genes for structural proteins are acquired from other animal hosts resulting in a sudden dramatic change in viral genome. Recombination between segments that encode for hemagglutinin and neuraminidase of avian and human influenza virus segments have resulted in worldwide influenza epidemics called pandemics such as the Asian flu of 1957 when 3 genes from Eurasian avian viruses were acquired and underwent reassortment with 5 gene segments of the circulating human strains. Another example comes from the 1968 Hong Kong flu which acquired 2 genes by reassortment from Eurasian avian viruses with the 6 gene segments from circulating human strains.

Vaccination against influenza

After vaccination, IgG+ antibody-secreting plasma cells (ASCs) increase rapidly and reaches a maximum level at day 7 before returning to a minimum level at day 14. The influenza-specific memory B-cells reach their maxima at day 14–21. The secreted antibodies are specific to the vaccine virus. Further, most of the monoclonal antibodies isolated have binding affinities against HA and the remaining demonstrate affinity against NA, nucleoprotein (NP) and other antigens. These high affinity human monoclonal antibodies can be produced within a month after vaccination and because of their human origin, they will have very little, if any, antibody-related side-effects in humans. They can potentially be used to develop passive antibody therapy against influenza virus transmission.

Mapping antigenic evolution

The ability of an antiviral antibody to inhibit hemagglutination can be measured and used to generate a two-dimensional map using a process called antigenic cartography so that antigenic evolution can be visualized. These maps can show how changes in amino acids can alter the binding of an antibody to virus particle and help to analyze the pattern of genetic and antigenic evolution. Recent findings show that as a result of antibody-driven antigenic variation in one domain of the H1 hemagglutinin Sa site, a compensatory mutation in NA can result leading to NA antigenic variation. As a consequence, drug resistance develops to NA inhibitors. Such a phenomenon can mask the evolution of NA evolution in nature because the resistance to NA inhibitors could be due to antibody-driven, HA escape.

HIV-1

The major challenge in controlling HIV-1 infection in the long term is immune escape. The extent and frequency to which an epitope will be targeted by a particular HLA allele differs from person-to-person. Moreover, as a consequence of immunodominance, an individual's CTL response is limited to a few epitopes of a specific HLA allele although six HLA class 1 alleles are expressed. Although the CTL response in the acute phase is directed against limited number of epitopes, the epitopic repertoire increases with time due to viral escape. Additionally amino acid co-evolution is a challenging issue that needs to be addressed. For example, a substitution in a particular site results in a secondary or compensatory mutation in another site. An invaluable discovery was that when a selective pressure is applied, the pattern of HIV-1 evolution can be predicted. In individuals who express a protective HLA B*27 allele, the first mutation that occurs in the Gag epitope KK10 is at position 6 from an L to an M and after several years there is a change in position 2 from a R to a K. Therefore, the knowledge of the predictability of the escape pathways can be utilized to design immunogens. The region gp120 of HIV-1 Env which contacts

CD4 In molecular biology, CD4 (cluster of differentiation 4) is a glycoprotein that serves as a co-receptor for the T-cell receptor (TCR). CD4 is found on the surface of immune cells such as T helper cells, monocytes, macrophages, and dendritic ...

, its primary receptor, is functionally conserved and vulnerable to neutralizing antibodies such as monoclonal antibody b12. Recent findings show that resistance to neutralization by b12 was an outcome of substitutions that resided in the region proximal to CD4 contact surface. In this way the virus evades neutralization by b12 without affecting its binding to CD4.

Flaviviruses

Flaviviridae is a family of viruses that encompasses well known viruses such as

West Nile virus West Nile virus (WNV) is a single-stranded RNA virus that causes West Nile fever. It is a member of the family ''Flaviviridae'', from the genus ''Flavivirus'', which also contains the Zika virus, dengue virus, and yellow fever virus. The virus ...

and

Dengue virus ''Dengue virus'' (DENV) is the cause of dengue fever. It is a mosquito-borne, single positive-stranded RNA virus of the family ''Flaviviridae''; genus ''Flavivirus''. Four serotypes of the virus have been found, a reported fifth has yet to be co ...

. The genus ''Flavivirus'' has a prototypical envelope protein (E-protein) on its surface which serves as the target for virus neutralizing antibodies. E protein plays a role in binding to receptor and could play a role in evading the host immune system. It has three major antigenic domains namely A, B and C that correspond to the three structural domains II, III and I. Structural domain III is a putative receptor binding domain and antibodies against it neutralize the infectivity of flaviviruses. Mutations that lead to antigenic differences can be traced to the biochemical nature of the amino acid substitutions as well as the location of the mutation in the domain III. For example, substitutions at different amino acids results in varying levels of neutralization by antibodies. If mutation in a critical amino acid can dramatically alter neutralization by antibodies then WNV vaccines and diagnostic assays becomes difficult to rely on. Other flaviviruses that cause dengue, louping ill and yellow fever escape antibody neutralization via mutations in the domain III of the E protein.

References

{{immune system Immune system Antigens