Biology of chromosome 6

Testing for post-copulatory selection for major histocompatibility complex genotype in a semi-free-ranging primate population

A large body of evidence suggests that major histocompatibility complex (MHC) genotype influences mate choice. However, few studies have investigated MHC-mediated post-copulatory mate choice under natural, or even semi-natural, conditions. We set out to explore this question in a large semi-free-ranging population of mandrills (Mandrillus sphinx) using MHC-DRB genotypes for 127 parent-offspring triads. First, we showed that offspring MHC heterozygosity correlates positively with parental MHC dissimilarity suggesting that mating among MHC dissimilar mates is efficient in increasing offspring MHC diversity. Second, we compared the haplotypes of the parental dyad with those of the offspring to test whether post-copulatory sexual selection favored offspring with two different MHC haplotypes, more diverse gamete combinations, or greater within-haplotype diversity. Limited statistical power meant that we could only detect medium or large effect sizes. Nevertheless, we found no evidence for selection for heterozygous offspring when parents share a haplotype (large effect size), genetic dissimilarity between parental haplotypes (we could detect an odds ratio of ≥1.86), or within-haplotype diversity (medium-large effect). These findings suggest that comparing parental and offspring haplotypes may be a useful approach to test for post-copulatory selection when matings cannot be observed, as is the case in many study systems. However, it will be extremely difficult to determine conclusively whether post-copulatory selection mechanisms for MHC genotype exist, particularly if the effect sizes are small, due to the difficulty in obtaining a sufficiently large sample.

HLA class I-associated diseases with a suspected autoimmune etiology: HLA-B27 subtypes as a model system

Although most autoimmune diseases are connected to major histocompatibility complex (MHC) class II alleles, a small number of these disorders exhibit a variable degree of association with selected MHC class I genes, like certain human HLA-A and HLA-B alleles. The basis for these associations, however, has so far remained elusive. An understanding might be obtained by comparing functional, biochemical, and biophysical properties of alleles that are minimally distinct from each other, but are nevertheless differentially associated to a given disease, like the HLA-B*27:05 and HLA-B*27:09 antigens, which differ only by a single amino acid residue (Asp116His) that is deeply buried within the binding groove. We have employed a number of approaches, including X-ray crystallography and isotope-edited infrared spectroscopy, to investigate biophysical characteristics of the two HLA-B27 subtypes complexed with up to ten different peptides. Our findings demonstrate that the binding of these peptides as well as the conformational flexibility of the subtypes is greatly influenced by interactions of the C-terminal peptide residue. In particular, a basic C-terminal peptide residue is favoured by the disease-associated subtype HLA-B*27:05, but not by HLA-B*27:09. This property appears also as the only common denominator of distinct HLA class I alleles, among them HLA-B*27:05, HLA-A*03:01 or HLA-A*11:01, that are associated with diseases suspected to have an autoimmune etiology. We postulate here that the products of these alleles, due to their unusual ability to bind with high affinity to a particular peptide set during positive T cell selection in the thymus, are involved in shaping an abnormal T cell repertoire which predisposes to the acquisition of autoimmune diseases.

Self/nonself perception, reproduction and the extended MHC

Self/nonself perception governs mate selection in most eukaryotic species. It relies on a number of natural barriers that act before, during and after copulation. These hurdles prevent a costly investment into an embryo with potentially suboptimal genetic and immunological properties and aim at discouraging fertilization when male and female gametes exhibit extensive sharing of alleles. Due to the fact that several genes belonging to the extended major histocompatibility complex (xMHC) carry out crucial immune functions and are the most polymorphic within vertebrate genomes, it is likely that securing heterozygosity and the selection of rare alleles within this gene complex contributes to endowing the offspring with an advantage in fighting infections. Apart from MHC class I and II antigens, the products of several other genes within the xMHC are candidates for participating in mate choice, especially since the respective loci are subject to long-range linkage disequilibrium which may aid to preserve functionally connected alleles within a given haplotype. Among these loci are polymorphic odorant receptor genes that are expressed not only in the olfactory epithelium, but also within male reproductive tissues. They may thus not only be of importance in olfaction-influenced mate choice, by recognizing MHC-dependent individual-specific olfactory signals, but could also guide spermatozoa along chemical gradients to their target, the oocyte. By focusing on the human HLA complex and genes within its vicinity, we show here that the products of several xMHC-specified molecules might be involved in self/nonself perception during reproduction. Although the molecular details are often unknown, the existence of highly diverse, yet intertwined pre- and post-copulatory barriers suggests that xMHC-encoded proteins may be important for various stages of mate choice, germ cell development, as well as embryonic and foetal life in mammals and other vertebrates. Many of these genes should thus be regarded as crucial not only within the immune system, but also in reproduction.

Variation and linkage disequilibrium within odorant receptor gene clusters linked to the human major histocompatibility complex

Odorant receptors (OR) are G-protein-coupled receptors that are predominantly expressed in the membrane of olfactory neurons. Members of the two OR gene clusters on the short arm of human chromosome 6 could be involved in major histocompatibility complex (MHC)-associated behavioral traits, such as olfaction-influenced mate selection and cryptic female choice. In this context, OR gene polymorphisms and haplotypes are likely to play an important role. Here we report an investigation of polymorphisms within 12 MHC-linked OR genes in 10 human cell lines. Eight of these OR loci belong to the telomeric, smaller OR gene cluster, whereas four are located centromeric, between the first cluster and the MHC. We also assessed part of this genomic region using sequence data from eight additional cell lines that had previously been sequenced. Thirteen novel OR variants were found through direct DNA sequencing and cloning, in addition to the detection of OR polymorphisms already known, and the number of OR cluster haplotypes could be increased to 21. Two loci belonging to the telomeric cluster (OR2B8P and OR1F12) were found to exhibit nonfunctional and potentially functional alleles and should therefore be considered as segregating pseudogenes. The results provide a detailed picture regarding polymorphisms and phenotypic variation in an ethnically diverse sample of major histocompatibility complex-linked OR clusters and identify a subregion of unusually pronounced genetic variability. We expand these data by analyzing linkage disequilibrium both within these OR clusters as well as between them and the HLA complex in 11 unrelated HapMap populations. The sequence data described in this paper have been submitted to the GenBank database under the accession numbers GU251059, GU251060, GU251061, GU251062, GU251063, GU251064, GU251065, GU251066, GU251067, GU251068, GU251069, GU251070, GU251071, and GU251072.

Female choice and the MHC

In animals, it is the female that typically selects a mating partner. This decision can occur before, during and after copulation. Here, recent evidence for the involvement of genes within the MHC in female choice is reviewed and the roles of MHC I and II antigens, various types of chemoreceptors, as well as MHC-encoded transcription factors, in securing an optimal genetic constitution of the offspring are discussed. Some particularly interesting and as yet unanswered questions are raised and some experiments that could provide deeper insight into the molecular mechanisms underlying female choice are suggested.

Possible roles for products of polymorphic MHC and linked olfactory receptor genes during selection processes in reproduction

PROBLEM

Polymorphic genes of the human major histocompatibility complex [MHC; human leukocyte antigen (HLA)] are probably important in determining resistance to parasites and avoidance of inbreeding. We investigated whether HLA-associated sexual selection could also involve HLA-linked olfactory receptor (OR) genes, which might not only participate in olfaction-guided mate choice, but also in selection processes within the testis.

METHOD OF STUDY

The testicular expression status of HLA class I molecules (by immunohistology) and HLA-linked OR genes (by transcriptional analysis) was determined.

RESULTS

Various HLA class I heavy chains, but not beta2-microglobulin (beta2m), were expressed, mainly at the spermatocyte I stage. Of 17 HLA-linked OR genes analyzed, eight were found to be transcribed in the testis. They exhibited varying numbers of 5'- or 3'-non-coding exons as well as differential splicing.

CONCLUSIONS

We suggest that testis-expressed polymorphic HLA and OR proteins are functionally connected and serve the selection of spermatozoa, enabling them to distinguish 'self from 'non-self [the sperm-receptor-selection (SRS) hypothesis].