The major histocompatibility complex in sexual selection concerns how

major histocompatibility complex The major histocompatibility complex (MHC) is a large locus on vertebrate DNA containing a set of closely linked polymorphic genes that code for cell surface proteins essential for the adaptive immune system. These cell surface proteins are cal ...

(MHC) molecules allow for

immune system The immune system is a network of biological processes that protects an organism from diseases. It detects and responds to a wide variety of pathogens, from viruses to parasitic worms, as well as cancer cells and objects such as wood splinte ...

surveillance of the population of protein molecules in a host's cells. In 1976, Yamazaki et al. demonstrated a

sexual selection Sexual selection is a mode of natural selection in which members of one biological sex choose mates of the other sex to mate with (intersexual selection), and compete with members of the same sex for access to members of the opposite sex (in ...

mate choice Mate choice is one of the primary mechanisms under which evolution can occur. It is characterized by a "selective response by animals to particular stimuli" which can be observed as behavior.Bateson, Paul Patrick Gordon. "Mate Choice." Mate Choic ...

by male mice for females of a . Major histocompatibility complex genes, which control the immune response and effective resistance against pathogens, have been able to maintain an extremely high level of

allelic An allele (, ; ; modern formation from Greek ἄλλος ''állos'', "other") is a variation of the same sequence of nucleotides at the same place on a long DNA molecule, as described in leading textbooks on genetics and evolution. ::"The chrom ...

diversity throughout time and throughout different populations. Studies suggest that the MHC is involved in mate choice for many vertebrates through olfactory cues. There are several proposed hypotheses that address how MHC-associated mating preferences could be adaptive and how an unusually large amount of allelic diversity has been maintained in the MHC. The vast source of

genetic variation Genetic variation is the difference in DNA among individuals or the differences between populations. The multiple sources of genetic variation include mutation and genetic recombination. Mutations are the ultimate sources of genetic variation, b ...

affecting an organism's fitness stems from the co-evolutionary arms race between hosts and parasites. There are two nonmutually exclusive hypotheses for explaining this. One is that there is selection for the maintenance of a highly diverse set of MHC genes if MHC heterozygotes are more resistant to parasites than homozygotes—this is called ''

heterozygote advantage A heterozygote advantage describes the case in which the heterozygous genotype has a higher relative fitness than either the homozygous dominant or homozygous recessive genotype. Loci exhibiting heterozygote advantage are a small minority of ...

''. The second is that there is selection that undergoes a frequency-dependent cycle—and is called the ''

Red Queen hypothesis The Red Queen hypothesis is a hypothesis in evolutionary biology proposed in 1973, that species must constantly adapt, evolve, and proliferate in order to survive while pitted against ever-evolving opposing species. The hypothesis was intended ...

''.

Hypotheses

In the first hypothesis, if individuals

heterozygous Zygosity (the noun, zygote, is from the Greek "yoked," from "yoke") () is the degree to which both copies of a chromosome or gene have the same genetic sequence. In other words, it is the degree of similarity of the alleles in an organism. ...

at the MHC are more resistant to

parasite Parasitism is a close relationship between species, where one organism, the parasite, lives on or inside another organism, the host, causing it some harm, and is adapted structurally to this way of life. The entomologist E. O. Wilson h ...

s than those that are

homozygous Zygosity (the noun, zygote, is from the Greek "yoked," from "yoke") () is the degree to which both copies of a chromosome or gene have the same genetic sequence. In other words, it is the degree of similarity of the alleles in an organism. Mo ...

, then it is beneficial for females to choose mates with MHC genes different from their own, and would result in MHC-heterozygous offspring—this is known as

disassortative mating Disassortative mating (also known as negative assortative mating or heterogamy) is a mating pattern in which individuals with dissimilar phenotypes mate with one another more frequently than would be expected under random mating. Disassortative mat ...

. The hypothesis states that individuals with a heterozygous MHC would be capable of recognizing a wider range of

pathogen 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 g ...

s and therefore of inciting a specific immune response against a greater number of pathogens—thus having an

immunity Immunity may refer to: Medicine * Immunity (medical), resistance of an organism to infection or disease * ''Immunity'' (journal), a scientific journal published by Cell Press Biology * Immune system Engineering * Radiofrequence immunity de ...

advantage. Unfortunately, the MHC-heterozygote advantage hypothesis has not been adequately tested. A non-MHC immune genes across species exhibit heterozygote disadvantage, or no advantage. In mice, increased MHC heterozygosity reduces fitness, challenging this hypothesis. MHC-heterozygous females had significantly reduced fitness compared to homozygotes. This finding has been replicated in another study in mice and again in fish In some cases, excess heterozygosity can lead to decreased fitness. The optimality hypothesis states too much variability in the MHC can result in a failure of T-cells to distinguish themselves non-selves, and thereby increase the risk of autoimmune disease. This would confer greater fitness to individuals without a large degree MHC diversity. Autoimmune diseases are associated with MHC loci. In humans, those with greater MHC diversity have a greater risk for autoimmune disorders. MHC diversity may be low "because foreign peptides have to stand out against the self-background." On an individual level, MHC diversity tends to be low. Across many species, there is intermediate heterozygosity in the MHC. Overall evidence supports intermediate MHC heterozygosity is best. The Red Queen hypothesis asserts that MHC diversity is maintained by parasites. If individuals' MHC

allele An allele (, ; ; modern formation from Greek ἄλλος ''állos'', "other") is a variation of the same sequence of nucleotides at the same place on a long DNA molecule, as described in leading textbooks on genetics and evolution. ::"The chrom ...

s render different resistances to a particular parasite, then the allele with the highest resistance is favored, selected for, and consequently spread throughout the population. Recombination and

mutation In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, m ...

cause generation of new variants among offspring, which may facilitate a quick response to rapidly evolving parasites or pathogens with much shorter generation times. However, if this particular allele becomes common, selection pressure on parasites to avoid recognition by this common allele increases. An advantageous characteristic that allows a parasite to escape recognition spreads, and causes selection against what was formerly a resistant allele. This enables the parasite to escape this cycle of frequency-dependent selection, and such a cycle eventually leads to a co-evolutionary arms race that may support the maintenance of MHC diversity. This hypothesis has empirical support. Parasitismus

The

inbreeding avoidance Inbreeding avoidance, or the inbreeding avoidance hypothesis, is a concept in evolutionary biology that refers to the prevention of the deleterious effects of inbreeding. Animals only rarely exhibit inbreeding avoidance. The inbreeding avoidance ...

hypothesis has less to do with host-parasite relationships than does the heterozygote advantage hypothesis or the Red Queen hypothesis. The extreme diversity in the MHC would cause individuals sharing MHC alleles to be more likely to be related. As a result, one function of MHC-disassortative mating would be to avoid mating with family members and any harmful genetic consequences that could occur as a result. The hypothesis states that inbreeding increases the amount of overall homozygosity—not just locally in the MHC, so an increase in genetic homozygosity may be accompanied not only by the expression of recessive diseases and mutations, but by the loss of any potential heterozygote advantage as well. Animals only rarely avoid inbreeding. The inbreeding avoidance hypothesis has been "ruled out as an explanation for the observed pattern of MHC-dependent mate preference" because relatedness is not associated with mate choice. In the course of searching for potential mates, it would benefit females to be able to discriminate against "bad" genes in order to increase the health and viability of their offspring. If female

occurs for "good" genes, then it is implied that genetic variation exists among males. Furthermore, one would presume that said difference in genes would impart a difference in fitness as well, which could potentially be chosen or selected for. Generally, the extreme polymorphism of MHC genes is selected for by host-parasite arms races (the

); however, disassortative mate choice may maintain

genetic diversity Genetic diversity is the total number of genetic characteristics in the genetic makeup of a species, it ranges widely from the number of species to differences within species and can be attributed to the span of survival for a species. It is dis ...

in some species. Depending on how parasites alter selection on MHC alleles, MHC-dependent mate-choice may increase the fitness of the offspring by enhancing its immunity, as mentioned earlier. If this is the case, either through the heterozygote advantage hypothesis or the Red Queen hypothesis, then selection also favors mating practices that are MHC-dependent. Paonroue

Therefore, mate choice—with respect to the MHC—has probably evolved so that females choose males either based on diverse genes (heterozygote advantage and inbreeding avoidance hypotheses) or "good" genes. The fact that females choose is naturally selected, as it would be an advantageous trait for females to be able to choose a male that provided either an indirect or direct benefit. As a result of female choice, sexual selection is imposed on males. This is evidenced by genetic "advertisement"—an example of this would be the existence of exaggerated traits, such as the elaborate tail-feathers of male peacocks. However, in humans, both sexes exert mate choice.

The relationship between olfaction and MHC

MHC-based sexual selection is known to involve olfactory mechanisms in such vertebrate taxa as fish, mice, humans, primates, birds, and reptiles. At its simplest level, humans have long been acquainted with the sense of olfaction for its use in determining the pleasantness or the unpleasantness of one's resources, food, etc. At a deeper level, it has been predicted that olfaction serves to personally identify individuals based upon the genes of the MHC. Olfactory system

Chemosensation, which is one of the most primitive senses, has evolved into a specialized sensory system. Humans can not only detect, but also assess, and respond to environmental (chemical) olfactory cues—especially those used to evoke behavioral and sexual responses from other individuals, also known as

pheromone A pheromone () is a secreted or excreted chemical factor that triggers a social response in members of the same species. Pheromones are chemicals capable of acting like hormones outside the body of the secreting individual, to affect the behavio ...

s. Pheromones function to communicate one's species, sex, and perhaps most importantly one's genetic identity. The genes of the MHC provide the basis from which a set of unique olfactory coding develops. Although it is not known exactly how MHC-specific odors are recognized, it is currently believed that proteins bound to the peptide-binding groove of the MHC may produce the odorant. Each MHC protein binds to a specific peptide sequence, yielding a set of uniquely bound peptide-MHC complexes for each individual. During cellular turnover, the MHC-peptide complex is shed from the cell surface and the fragments are dispensed in bodily fluids such as blood serum, saliva, and urine. Scientists believe that commensal microflora, microorganisms that line epithelial surfaces open to the external environment such as the gastrointestinal tract and vagina, further degrade these fragments, which are made volatile by this process. Recently, it has been shown that receptors in the

vomeronasal organ The vomeronasal organ (VNO), or Jacobson's organ, is the paired auxiliary olfactory (smell) sense organ located in the soft tissue of the nasal septum, in the nasal cavity just above the roof of the mouth (the hard palate) in various tetrapo ...

of mice are activated by peptides having similar characteristics to MHC proteins; further studies may hopefully soon clarify the exact transformation between MHC genotype and an olfactory mechanism.

Empirical evidence

In humans

MHC similarity in humans has been studied in three broad ways: odor, facial attractiveness, and actual mate choice. Studies of odor find MHC-dissimilarity preferences but vary in details, while facial attractiveness favors MHC-similarity and actual mating studies are varied.

Specific studies

Several studies suggest that MHC-related odor preferences and mate choice are demonstrated by humans. However, the role of MHC in human mate choice has been relatively controversial. One study conducted by Ober et al. examined HLA types from 400 couples in the

Hutterite Hutterites (german: link=no, Hutterer), also called Hutterian Brethren (German: ), are a communal ethnoreligious branch of Anabaptists, who, like the Amish and Mennonites, trace their roots to the Radical Reformation of the early 16th centu ...

community and found dramatically fewer HLA matches between husbands and wives than expected when considering the social structure of their community. On the other hand, there was no evidence of MHC-based mate choice in the same study of 200 couples from South Amerindian tribes. Other studies have approached mate choice based on odor preference. In one study done by Wedekind et al., women were asked to smell male axillary odors collected on T-shirts worn by different males. Women that were ovulating rated the odors of MHC-dissimilar men as more pleasant than those of the MHC-similar men. Furthermore, odors of MHC-dissimilar men often reminded women of current or former partners, suggesting that odor—specifically odor for MHC-dissimilarity—plays a role in mate choice. In another study done by Wedekind et al., 121 women and men were asked to rank the pleasantness of the odors of sweaty T-shirts. Upon smelling the shirts, it was found that men and women who were reminded of their own mate or ex-mate had dramatically fewer MHC alleles in common with the wearer than would be expected by chance. If the selection for shirts was not random, and actually selected for MHC-dissimilar alleles, this suggests that MHC genetic composition does influence mate choice. Furthermore, when the degree of similarity between the wearer and the smeller was statistically accounted for, there was no longer a significant influence of MHC on odor preference. The results show that MHC similarity or dissimilarity certainly plays a role in mate choice. Specifically, MHC-disassortative mate choice and less similar MHC combinations are selected for. One interesting aspect of the Wedekind's experiment was that in contrast to normally cycling women, women taking oral contraceptives preferred odors of MHC-similar men. This would suggest that the pill may interfere with the adaptive preference for dissimilarity.

In primates

There is evidence of MHC-associated mate choice in other primates. In the grey mouse lemur ''

Microcebus murinus The gray mouse lemur (''Microcebus murinus''), grey mouse lemur or lesser mouse lemur, is a small lemur, a type of strepsirrhine primate, found only on the island of Madagascar. Weighing , it is the largest of the mouse lemurs (genus ''Microceb ...

'', post-copulatory mate-choice is associated with genetic constitution. Fathers are more MHC-dissimilar from the mother than are randomly tested males. Fathers have more differences in amino acid and microsatellite diversity than did randomly tested males. It is hypothesized that this is caused by female cryptic choice.

In other animals

In mice, both males and females choose MHC-dissimilar partners. Mice develop the ability to identify family members during early growth and are known to avoid inbreeding with kin, which would support the MHC-mediated mate choice hypothesis for inbreeding avoidance. Fish are another group of vertebrates shown to display MHC-associated mate choice. Scientists tested the Atlantic salmon, ''

Salmo salar The Atlantic salmon (''Salmo salar'') is a species of ray-finned fish in the family Salmonidae. It is the third largest of the Salmonidae, behind Siberian taimen and Pacific Chinook salmon, growing up to a meter in length. Atlantic salmon ar ...

'', by observing effects of MHC upon natural spawning salmon that resided in the river versus artificial crosses that were carried out in hatcheries. Logically, the artificial crosses would be bereft of the benefits of mate choice that would naturally be available. The results showed that the offspring of the artificially bred salmon were more infected with parasites: almost four times more than the naturally-spawned offspring were. In addition, wild offspring were more MHC-heterozygous than the artificially-bred offspring. These results support the Heterozygous Advantage hypothesis of sexual selection for MHC-dissimilar mate choice. In another fish, the three-spined stickleback, it has been shown that females desire MHC diversity in their offspring, which affects their mate choice. Female

Savannah sparrow The Savannah sparrow (''Passerculus sandwichensis'') is a small New World sparrow. It was the only member of the genus '' Passerculus'' and is typically the only widely accepted member. Comparison of mtDNA NADH dehydrogenase subunit 2 and 3 sequ ...

s, ''Passerculus sandwichensis'', chose MHC-dissimilar males to mate with. Females are more likely to engage in extra-pair relationships if paired with MHC-similar mates and more dissimilar mates are available. Similarly, MHC diversity in house sparrows, ''Passer domesticus'', suggests that MHC-disassortative mate choice occurs. MHC-mediated mate choice has been shown to exist in Swedish sand lizards, '' Lacerta agilis''. Females preferred to associate with odor samples obtained from males more distantly related at the MHC I loci. Even though many species are socially monogamous, females can accept or actively seek mating outside of the relationship; extra-pair paternity is a mating pattern known to be affiliated with MHC-associated mate choice. Birds are one of the more commonly studied groups of animals to exhibit this sexual behavior. In the scarlet rosefinch '' Carpocus erythrinus'', females engaged in extra-pair paternity much less frequently when their mates were MHC-heterozygous. In the Seychelles warbler '' Acrocephalus sechellensis'', there was no evidence of MHC variation between social mates. However, when females' social mates were MHC-similar, they were more likely to participate in extra-pair paternity; in most cases, the extra-pair male was significantly more MHC-dissimilar than the social mate. MHC-mediated mate choice may occur after copulation, at the gametic level, through sperm competition or female cryptic choice. The

Atlantic salmon The Atlantic salmon (''Salmo salar'') is a species of ray-finned fish in the family Salmonidae. It is the third largest of the Salmonidae, behind Siberian taimen and Pacific Chinook salmon, growing up to a meter in length. Atlantic salmon are ...

, ''Salmo salar'', is one species in which sperm competition is influenced by the variation in the major histocompatibility complex, specifically that of the Class I alleles. Atlantic salmon males have higher rates of successful fertilization when competing for eggs from females genetically similar at the class I genes of the MHC. Another species that exhibits MHC-associated cryptic choice is the Arctic charr ''

Salvelinus alpinus The Arctic char or Arctic charr (''Salvelinus alpinus'') is a cold-water fish in the family Salmonidae, native to alpine lakes and arctic and subarctic coastal waters. Its distribution is Circumpolar North. It spawns in freshwater and populatio ...

''. In this case, however, it seems that sperm selection is more dependent on the ovum. MHC-heterozygous males were found to have significantly more fertilization success than MHC-homozygous males; sperm count, motility, and swimming velocity were not shown to significantly co-vary with similarity or dissimilarity at the MHC. It is proposed that there is a chemo-attraction system responsible for the egg itself being able to discriminate and selectively choose between MHC-heterozygous and MHC-homozygous males. Contrary to the Atlantic salmon and the Arctic char, red junglefowl ''

Gallus gallus The red junglefowl (''Gallus gallus'') is a tropical bird in the family Phasianidae. It ranges across much of Southeast Asia and parts of South Asia. It was formerly known as the Bankiva or Bankiva Fowl. It is the species that gave rise to the ...

'' males instead of females exert cryptic preference. Male junglefowl showed no preference when simultaneously presented with both an MHC-dissimilar and an MHC-similar female. However, they did show a cryptic preference by allocating more sperm to the more MHC-dissimilar of the two. Male sand lizards '' Lacerta agilis'' behave similarly to the male junglefowl. Initial copulation between a male and a female without any rivals was shown to be extended when the male sensed a higher female fecundity. However, second males adjusted the duration of their copulation depending on the relatedness between the female and the first male, believed to be determined by the MHC-odor of the copulatory plug. A closer genetic relatedness between a male and a female sand lizard increased the chances for a successful fertilization and rate of paternity for the second male. Abortional selection may be a form of cryptic female choice. Many studies on humans and rodents have found that females may spontaneously abort pregnancies in which the offspring is too MHC-similar. In addition, in vitro fertilizations are more likely to fail when couples have similar MHC genes.

MHC and sexual conflict

If males attempt to thwart female mate choice by mating with a female against her will, sexual conflict may interfere with the choice for compatibility at the MHC genes. In

Chinook salmon The Chinook salmon (''Oncorhynchus tshawytscha'') is the largest and most valuable species of Pacific salmon in North America, as well as the largest in the genus '' Oncorhynchus''. Its common name is derived from the Chinookan peoples. Other ...

''Oncorhyncus tshawytscha'', females act more aggressively towards MHC-similar males than MHC-dissimilar males, suggesting the presence of female mate choice. Furthermore, males directed aggression at MHC-similar females. This was accompanied by male harassment of unreceptive females; however, there was a positive correlation between male aggression and reproductive success. The ability of the males to over-power the females' original mate choice resulted in the offspring of the targets of male aggression having low genetic diversity. Offspring with high genetic diversity seemed to happen only when the operational sex ratio was female-biased, when females were more likely to be able to exert mate choice, and males were less likely to harass females. These results suggest that sexual conflict may interfere with female mate choice for 'good' MHC genes.

References

{{Reflist Histochemistry Sexual selection