A high-resolution polymerase chain reaction-sequence-specific primer HLA-B*27 typing set and its application in routine HLA-B27 testing

We designed a set of 35 polymerase chain reaction sequence-specific primers (PCR-SSP) in 29 SSP mixtures to assign 29 HLA-B*27 4-digit level alleles (B*2701-B*2721 and B*2723-B*2730). This was used in conjunction with our 41 PCR-SSP primer mixture low-resolution HLA-B typing set to fully differentiate B*27 from all other HLA-B alleles. Successful typing set validation used 521 B*27 samples covering 13 (B*2701-B*2710 and B*2712, B*2717, B*2723) alleles. The distribution of B*27 alleles was determined in a random population of 4020 local blood donors and the use of PCR-SSP B*27 typing in our routine flow cytometry-based HLA-B27/B2708 typing strategy is described.     

<Emphasis Type="Italic">MICB</Emphasis> typing by PCR amplification with sequence specific primers

MICB is a member of the MIC (MHC class I chain-related gene) family. Sixteen MICB alleles have been described; however, the functional relevance and population distribution of MICB alleles or their potential association to disease has not yet been evaluated. In this study, we have developed a PCR system using sequence-specific primers (PCR-SSP) that allows unambiguous amplification of all MICB alleles. This approach has been applied to type 100 healthy unrelated individuals from the Spanish population. The extent of polymorphism in this population is lower than that initially expected, and only nine alleles were detected. The alleles MICB01021 (46%), MICB0103101 (13.5%), MICB0104 (13.5%) and MICB0106 (12.5%) were found to be the most frequent alleles. HLA-B and MICA transmembrane polymorphism typing were also performed in this population. Our data showed that MICB is in linkage disequilibrium with MICA and even with HLA-B. Thus, the linkage disequilibrium with MICA and HLA-B suggests that MICB is a potential candidate for those diseases classically associated with HLA class I alleles.     

贵州侗族人群MICB等位基因多态性研究

目的:探讨贵州侗族健康人群MICB等位基因的分布特点。方法:收集100例健康无亲缘关系的贵州侗族人新鲜血液样本,采用世界卫生组织(WHO)推荐的标准盐析法从样本新鲜血液中提取基因组DNA,并用PCR-SSP、PCR-SBT两种方法对样本DNA进行MICB等位基因分型。结果:在贵州侗族人群中,检出7种MICB等位基因,其中MICB*005:02等位基因频率最高,其频率为58.50%,其次为MICB*002:01等位基因频率22.00%;而MICB*003及MICB*005:03等位基因频率最低,两者频率分别为1.50%。结论:贵州侗族人群MICB等位基因具有高度的多态性,该数据为研究MICB基因在同种异体器官移植和疾病易感性中的可能作用奠定了实验基础。     

MICA/B基因多态性与血吸虫病相关性研究

本研究采用PCR-SSP与PCR-SBT方法对正常健康对照组与血吸虫病感染组、血吸虫病性重度肝纤维化病人组和轻度肝纤维化病人组中MICA/B基因进行分型,并比较各组基因的多态性。结果在血吸虫感染组与健康对照组中共发现13种MICA等位基因和5种MICA-STR基因型,MICA*012:01(11.58%vs 5.83%)、MI-CA*017(2.11%vs 0.00%)及MICA*027(3.16%vs 0.97%)在对照人群组较血吸虫病人组中分布频率较高,但Pc值显示没有统计学意义(Pc>0.05)。MICA-STR型别分析显示,MICA-STR与血吸虫病易感没有相关性,但MICA*A5基因型的分布频率在重度肝纤维化组显著高于轻度肝纤维化组(45.10%vs 26.92%,Pc<0.05)。在血吸虫病人组中一共检出10种MICB等位基因。在本研究人群中未发现与日本血吸虫感染显著相关的MICB等位基因。同时MICB等位基因多态性在重度纤维化组、轻度纤维化组、以及正常对照组相互之间均无显著的相关性。研究显示在血吸虫病人组中,MICA和MICB具有连锁不平衡,其中单倍型MICB*008-MICA*002:01和MICB*014-MICA*045在血吸虫病人组中显示具有显著的连锁不平衡。     

Five-locus HLA typing of hematopoietic stem cell donor volunteers using PCR sequence specific primers

We have developed a strategy for five-locus human leukocyte antigen (HLA) typing of hematopoeitic stem cell (HSC) donors using the polymerase chain reaction with sequence-specific primers (PCR-SSP). The PCR-SSP method is robust, reproducible, and accurate. New PCR-SSP mixtures can be added as required and all reactions are carried out under the same conditions, which can easily be applied to the typing of other loci, e.g., ABO blood groups. Initially, 127 PCR-SSP reactions were used to detect simultaneously HLA-A, -B, -C, -DRB1/3/4/5, and DQB1 alleles, differentiated generally to the level of the first two digits of the allele name, essentially equivalent to the serological split specificity. Approximately 40% of subjects were tested against a further 29 HLA-A, -B SSP mixtures to exclude rare alleles and unambiguously assign a two-digit HLA allele family. This gave an overall typing resolution equivalent to or greater than the split specificity level and covered all HLA-A, -B, -C, -DRBland DQB1 alleles listed in the WHO's Nomenclature for Factors of the HLA System, 2000. The Welsh Bone Marrow Donor Registry has used this strategy to HLA type over 35,000 HSC donors over 9 years. Comprehensive and accurate five-locus HLA typing allows confident and rapid identification of potential matched HSC donors for patients requiring stem cell transplantation generally without the need for typing additional loci. This allows resources to be focused directly on allele level typing of DRB1 and other loci. This strategy decreases overall donor work-up time, which is a major benefit to patients.     

MICA genetic polymorphism and linkage disequilibrium with HLA-B in 29 African-American families

The human major histocompatibility complex (MHC) class I chain-related gene A ( MICA) is located 46 kb upstream of HLA-B and encodes a stress-inducible protein which displays a restricted pattern of tissue expression. MICA molecules interact with NKG2D, augmenting the activation of natural killer cells, CD8(+) alpha beta T cells, and gamma delta T cells. MICA allelic variation is thought to be associated with disease susceptibility and immune response to transplants. We investigated MICA allelic variations and linkage disequilibrium with HLA-A, B, and DRB1 loci on 110 parental haplotypes from 29 African-American families. PCR/sequence-specific oligonucleotide probing (SSOP) was used to define MICA polymorphisms in exons 2, 3, and 4. Ambiguous allelic combinations were resolved by sequencing exons 2, 3, and 4. Exon 5 polymorphisms were analyzed by size sequencing. For HLA-A, B and DRB1 typing, low-resolution PCR/SSOP and allelic PCR/sequence-specific priming techniques were used. Twelve MICA alleles were observed, the most frequent of which were MICA*008, MICA*004, and MICA*002, with gene frequencies of 28.2, 26.4, and 25.5%, respectively. Thirty-eight HLA-B- MICA haplotypic combinations were uncovered, 22 of which have not been reported in the HLA homozygous typing cell lines from the 10th International Histocompatibility Workshop. Significant positive linkage disequilibria were found in 8 HLA-B- MICA haplotypes. Furthermore, haplotypes bearing HLA-B*1503, *1801, *4901, *5201, *5301, and *5703 were found to segregate with at least two different MICA alleles. Our results provide new data about MICA genetic polymorphisms in African-Americans, which will form the basis for future studies of MICA alleles in allogeneic stem cell transplantation outcome.     

MICB基因多态性与乳腺癌的易感关联性研究

目的:研究海南汉族人群MICB等位基因的多态性与乳腺癌易感性之间的关联性。方法:采用PCRSSP(PCR sequence-specific primers)和PCR-SBT(PCR sequence-based typing)方法对样本MICB等位基因的多态性进行检测。结果:乳腺癌患者中检出14种MICB等位基因;和对照组相比较,MICB*002和MICB*014等位基因在乳腺癌患者组分布频率较少,MICB*002和MICB*014等位基因可能对乳腺癌不易感(MICB*002:OR=0.31,95%CI:0.19-0.51,Pc0.05;MICB*014:OR=0.32,95%CI:0.17-0.60,Pc0.05)。MICB*016和MICB*003等位基因在乳腺癌患者组分布较多;MICB*016和MICB*003等位基因可能对乳腺癌易感(MICB*016:OR=10.68,95%CI:2.52-45.28,Pc0.05;MICB*003:OR=3.57,95%CI:1.34-9.49,Pc0.05);MICB*002/002和MICB*014/014基因型可能对乳腺癌不易感(MICB*002/002:OR=0.12,95%CI:0.04-0.36,Pc0.05;MICB*014/014:OR=0.30,95%CI:0.10-0.89,Pc0.05)。结论:MICB等位基因的多态性与乳腺癌的易感性之间存在关联性。     

Alternatively spliced forms of <Emphasis Type="Italic">MICA</Emphasis> and <Emphasis Type="Italic">MICB</Emphasis> lacking exon 3 in a human cell line and evidence of presence of similar RNA in human peripheral blood mononuclear cells

MICA and MICB genes encode MHC class I chain-related proteins, which are polymorphic, do not appear to present peptides or associate with beta(2)-microglobulin, and are expressed predominantly in epithelial cells, endothelial cells, fibroblasts and several cultured cell lines. Alternatively spliced isoforms are known to exist for HLA-A and B, as well as HLA-G and the MHC class I-related gene, MR1. In the course of cloning MICA and MICB cDNA from the colon carcinoma cell line HCT 116, it was observed that two kinds of cDNAs were obtained: a 1161-bp cDNA, representing full-length MICA or MICB, and a shorter variant of 873 bp. The sequences of these short cDNAs were those of the correct MICA or MICB alleles but lacking exon 3. They were found in 7 of 72 clones examined or about 10% and were called MICA2 and MICB2. MICA1 and MICA2 were transfected into Chinese hamster ovary cells and found to be expressed both in the cells and on their surface. PCR with a primer based on a sequence formed by the joining of exons 2 and 4 allowed detection of the isoform RNA in different cells including freshly prepared normal PBMC.     

Characterization of 12 microsatellite loci of the human MHC in a panel of reference cell lines

 The human genome contains a large number of interspersed microsatellite repeats which exhibit a high degree of polymorphism and are inherited in a Mendelian fashion, making them extremely useful genetic markers. Several microsatellites have been described in the HLA region, but allele nomenclature, a set of broadly distributed controls, and typing methods have not been standardized, which has resulted in discrepant microsatellite data between laboratories. In this report we present a detailed protocol for genotyping microsatellites using a semi-automated fluorescence-based method. Twelve microsatellites within or near the major histocompatibility complex (MHC) were typed in the 10th International Histocompatibility Workshop homozygous typing cell lines (HTCs) and alleles were designated based on size. All loci were sequenced in two HTCs providing some information on the level of complexity of the repeat sequence. A comparison of allele size obtained by genotyping versus that obtained by direct sequencing showed minor discrepancies in some cases, but these were not unexpected given the technical differences in the methodologies. Fluorescence-based typing of microsatellites in the MHC described herein is highly efficient, accurate, and reproducible, and will allow comparison of results between laboratories. Received: 10 May 1997 / Revised: 1 August 1997     

A shared MHC supertype motif emerges by convergent evolution in macaques and mice, but is totally absent in human MHC molecules

The SIV-infected rhesus macaque (Macaca mulatta) is the most established model of AIDS disease systems, providing insight into pathogenesis and a model system for testing novel vaccines. The understanding of cellular immune responses based on the identification and study of Major Histocompatibility Complex (MHC) molecules, including their MHC:peptide-binding motif, provides valuable information to decipher outcomes of infection and vaccine efficacy. Detailed characterization of Mamu-B*039:01, a common allele expressed in Chinese rhesus macaques, revealed a unique MHC:peptide-binding preference consisting of glycine at the second position. Peptides containing a glycine at the second position were shown to be antigenic from animals positive for Mamu-B*039:01. A similar motif was previously described for the D(d) mouse MHC allele, but for none of the human HLA molecules for which a motif is known. Further investigation showed that one additional macaque allele, present in Indian rhesus macaques, Mamu-B*052:01, shares this same motif. These "G2" alleles were associated with the presence of specific residues in their B pocket. This pocket structure was found in 6% of macaque sequences but none of 950 human HLA class I alleles. Evolutionary studies using the "G2" alleles points to common ancestry for the macaque sequences, while convergent evolution is suggested when murine and macaque sequences are considered. This is the first detailed characterization of the pocket residues yielding this specific motif in nonhuman primates and mice, revealing a new supertype motif not present in humans.     

Allelic variation in the intron 2 and 3 of the MICA gene.

We have determined by sequencing the allelic variation in intron 2 and 3 of hte MICA gene for a total of 22 different alleles. Sequencing of introns was performed in two directions, using DNA from homozygous cell lines from families and from unrelated individuals. Intron 2 is 273 bp long and did in the alleles investigated not reveal any length polymorphism. We found a total of eight polymorphic positions which exhibit a strict biallelism, as it is also found in the polymorphisms for exon 2, 3 and 4 of MICA. Intron 3 is 586 bp long an required an additional set of primers placed near the middle of this intron in order to allow a complete bidirectional sequence. In intron 3, a total of 10 polymorphic positions were identified. Interestingly, we found two variants of the allele MICA*002 which are distinguished only by one basepair difference in intron 3. The variant MICA*002A is associated with HLA-B35 and B58, while the allele MICA*002B is associated with B38 and B39.     

广州地区106例汉族人群MICA和MICB微卫星基因座 单体型研究

利用聚合酶链反应和荧光（6－FAM）自动化检测技术对广东地区汉族106例无亲缘关系样本进行MICA基因外显子5和MICB基因内含子1微卫星基因座多态性及其单体型分布调查。根据群体资料估算两者间的单体型频率、连锁不平衡参数、相对连锁不平衡参数。结果显示,广州地区汉族人群MICA和MICB微卫星基因座基因型分布符合Hardy-Weinberg平衡法则,共检出MICA微卫星基因座 5个等位基因, MICB微卫星基因座14个等位基因。其中MICA A5基因频率最高（0.2877）,A4基因频率最低（0.1321）。MICB CA14等位基因频率最高（0.3255）,CA19、CA28等位基因频率最低（0.0047）,未检出CA27。21种MICA－MICB单体型频率大于1%(连锁不平衡参数>0), 其中单体型A5－CA14 (16.73%), A5.1－CA18 (8.75%), A4－CA26(3.76%),A9－CA15(3.66%)和A6－CA21(2.61%)为强连锁常见单体型（χ2>3.84, P<0.05）。广州地区汉族人群MICA和MICB微卫星基因座多态性和单体型分布有其自身特点,MICA和MICB微卫星基因座适合做为遗传标志,用于人类学、遗传疾病基因连锁分析、法医学亲子鉴定和个体识别等研究领域。Abstract: This study is to investigate genetic polymorphisms and haplotypes of microsatellite locus in the exon 5 of the MICA gene and intron 1 of the MICB gene based on 106 samples of Guangzhou Han Population by polymerase chain reaction and fluorescent technique (6-FAM). The corresponding haplotype frequencies, linkage disequilibria values and relative linkage disequilibria values were estimated based on population data. The results show that the genotype distributions of MICA and MICB microsatellite meet Hardy-Weinberg equilibrium in Guangdong Han population. In total, 5 alleles of MICA microsatellite locus and 14 alleles of MICB microsatellite locus were observed. MICA A5 was the most common allele (0.2877), whereas A4 was the least popular one (0.1321). MICB CA14 was the most common allele (0.3255), and CA19 and CA28 were the least popular ones (0.0047). CA27 was not observed. Twenty-one kinds of MICA-MICB haplotypes occurred at frequencies of more than 1% (linkage disequilibria value>0). The common MICA-MICB haplotypes were A5-CA14（16.73％）, A5.1- CA18 (8.75%), A4- CA26(3.76%),A9-CA15(3.66%) and A6-CA21(2.61%)（χ2>3.84, P<0.05）, and they were strong linkage disequilibria. The polymorphisms and haplotypes distributions of MICA and MICB microsatellite locus in Guangzhou Han population have their own genetic characteristics. The microsatellite locus of the exon5 of the MICA gene and intron 1 of the MICB gene could be used as the genetic markers in the studies of anthropology, linkage analysis of genetic disease genes, individual identification and paternity test in forensic medicine.     

Allelic MHC class I chain related B (MICB) molecules affect the binding to the human cytomegalovirus (HCMV) unique long 16 (UL16) protein: Implications for immune surveillance

Unique long 16 (UL16) is a viral glycoprotein produced in a host cell infected with human cytomegalovirus (HCMV). It down regulates surface expression of MICB, one of the NKG2D ligands, by forming stable intracellular complexes and retained in the endoplasmic reticulum. Down expression of MICB renders cells less susceptible to NK cell lysis via the NKG2D receptor. Diverse UL16 sequences were identified from different strains of HCMV. MICB is known to be polymorphic. It is not known whether these polymorphisms affect the interactions between these molecules leading to alteration of the immune surveillance of HCMV. The soluble Fc fusion variant UL16 proteins from four laboratory and clinical isolates (AD169, Toledo, PH, and TR) were produced. Four allelic MICB alleles (008, 003, 004, and 00502) were cloned and stable cell lines expressing these MICB alleles were produced. The binding activities of variant UL16 to allelic MICB proteins were determined by flow cytometry. The variants of UL16 proteins did not affect the binding activities to allelic MICB proteins. However, diverse MICB alleles differentially bound UL16. We found that MICB*008 which contains methionine and asparagine at the amino acid positions 98 and 113, respectively, in the alpha 2 domain showed decreased binding activities to UL16 when compared to MICB*003, 004, and MICB*00502 containing isoleucine and aspartic acid, respectively. This finding may imply that MICB*008 is a protective allele and involved in the immune surveillance of HCMV infected patients.     

MICA polymorphism in South American Indians

We have studied the MICA alleles of 196 unrelated subjects from three South American Indian tribes (Toba, Wichi and Terena). They are members of isolated tribes located in the Gran Chaco area in northeastern Argentina and in Mato Grosso do Sul in South Central Brazil. Of 55 previously known alleles, nine were observed in South American Indians, compared with 16 that were found in North American Caucasians, suggesting a more restricted allelic distribution of MICA in these tribes. In South American Indians, MICA*00201 was the most frequent allele, with a gene frequency of 33% in Toba, 47% in Wichi and 44% in Terena. MICA*00201, MICA*027 (external domain sequence like MICA*008/TM allele A5) and MICA*010 accounted for more than 90% of all the MICA genes in South American Indians. In North American Caucasians, MICA*00801 (*008/A5.1) accounted for 42% of the genes and was the most common allele. We observed a high degree of linkage disequilibrium between certain alleles of MICA and of HLA-B in the South American Indian populations. Phylogenetic trees constructed using gene frequencies of the transmembrane short tandem repeats in the populations reported here, and in other populations taken from published reports, suggest that South American Indians are more closely related to Asians than to Europeans.     

Subtyping for TNFa microsatellite sequence variation

The microsatellite locus TNFa is frequently used as an additional genetic marker in studies of the major histocompatibility complex (MHC). Novel sequence variations at the TNFa locus have been described, and which may have implications for genetic analyses. In this study, we set up a nested polymerase chain reaction-sequence-specific primer (PCR-SSP) approach to type for these TNFa sequence variations. First, sequencing analysis of workshop B lymphoblastoid cell lines (n=13) showed the presence of three sequence variations upstream of the dinucleotide repeat at TNFa. Using nested PCR-SSP, we were able to detect these variations in a larger B lymphoblastoid cell line panel (n=34). Furthermore, we were able to show that TNFa alleles a7 and a10 are present in two distinct conformations leading to "splitting" of TNFa alleles exhibiting identical fragment lengths. To establish the frequency of the TNFa alleles and their variants, we performed microsatellite typing of a large panel of random individuals from the Dutch population (n=272). Subsequent nested PCR-SSP typing showed the presence of three previously described sequence variations in the Dutch population. Furthermore, the presence of a fourth subtype was established. The described variations of allele TNFa7 and TNFa10 are present in the random population with significant frequencies. Haplotyping analysis between HLA-DR, TNFa, and HLA-B showed that allele TNFa7.2 is present in an extended DR7-TNFa7.2-B13 haplotype. In this way, we were able to show that the additional sequence variations behave like distinct TNFa alleles.     

MHC class I allele frequencies in pigtail macaques of diverse origin

Pigtail macaques (Macaca nemestrina) are an increasingly common primate model for the study of human AIDS. Major Histocompatibility complex (MHC) class I-restricted CD8⁺ T cell responses are a critical part of the adaptive immune response to HIV-1 in humans and simian immunodeficiency virus (SIV) in macaques; however, MHC class I alleles have not yet been comprehensively characterized in pigtail macaques. The frequencies of ten previously defined alleles (four Mane-A and six Mane-B) were investigated in detail in 109 pigtail macaques using reference strand-mediated conformational analysis (RSCA). The macaques were derived from three separate breeding colonies in the USA, Indonesia and Australia, and allele frequencies were analysed within and between these groups. Mane-A*10, an allele that restricts the immunodominant SIV Gag epitope KP9, was the most common allele, present in 32.1% of the animals overall, with similar frequencies across the three cohorts. Additionally, RSCA identified a new allele (Mane-A*17) common to three Indonesian pigtail macaques responding to the same Gag CD8⁺ T cell epitope. This broad characterization of common MHC class I alleles in more than 100 pigtail macaques further develops this animal model for the study of virus-specific CD8⁺ T cell responses.     

Two-color allele-specific polymerase chain reaction (PCR-SSP) assay of the leptin receptor gene (Leprdb) for genotyping mouse diabetes mutation.

An allele specific polymerase chain reaction (PCR-SSP) assay for genotyping the mouse leptin receptor (Leprdb) mutation and its wild type (Lepr+) gene was developed using two different fluorescent dye-labeled primers. First, we determined the Leprdb and Lepr+ allele by PCR-SSP assay with usual dye-unlabeled primers. However this method requires two separate PCR reactions because the amplified products specific for each allele are almost the same size. We further developed a simple and reliable two-color PCR-SSP method that uses a color complementation strategy to distinguish the Leprdb and Lepr+ alleles. Leprdb/Leprdb, Leprdb/Lepr+ and Lepr+/Lepr+ of mice (5 each) were clearly genotyped by the two-color PCR-SSP. We also performed PCR-direct sequencing for the same samples and confirmed the accuracy of this method. This method makes it possible to reduce the number of PCR reactions because both alleles are amplified in the same reaction mixture.     

Intracellular retention of the MHC class I-related chain B ligand of NKG2D by the human cytomegalovirus UL16 glycoprotein

Infection by human CMV induces expression of the cellular MHC class I-related chain A (MICA) and chain B (MICB) surface proteins, which function as ligands for the activating NKG2D receptor. Engagement of NKG2D triggers NK cells and costimulates Ag-specific effector CD8 alphabeta T cells. The potency of MHC class I-related chain-NKG2D in stimulating these anti-viral immune responses may be countered by a CMV-encoded transmembrane glycoprotein, UL16, which specifically binds MICB as well as two of the UL16-binding proteins that are ligands of NKG2D. However, the function and significance of these interactions are undefined. Using a stably transfected B cell line, we show that expression of UL16 results in loss of surface MICB. This effect is caused by the failure of newly synthesized MICB to mature and transit the secretory pathway due to physical association with UL16. The intracellular retention of these protein complexes is mediated by a tyrosine-based motif in the cytoplasmic tail sequence of UL16, which determines localization to or retrieval from the trans-Golgi network. Deletion of this motif restores surface expression of MICB, whereas UL16 may be redirected to endosomal compartments. Predictably, the retention of MICB abrogates the stimulatory function of NKG2D. These results suggest a potential mechanism of viral immune evasion. However, this activity remains to be confirmed with CMV-infected fibroblasts or endothelial cells, in particular because MICB is normally coexpressed with MICA, which is not retained by UL16.     

Alu polymorphism within the MICB gene and association with HLA-B alleles

We describe the finding of an Alu repeat dimorphism within the first intron of the MICB gene. The frequencies of the two AluyMICB alleles, AluyMICB*0(absence of insertion) and AluyMICB*1(presence of insertion), and their associations with the highly polymorphic HLA-B locus were determined for 51 human cell lines and for 109 and 200 Caucasians and northeastern Thais, respectively. Analysis of the AluyMICB and HLA-B allelic relationships revealed that AluyMICB*1 occurred at relatively low gene frequency (0.118-0.157) [corrected] but was strongly associated with HLA-B17 (HLA-B57,HLA-B58) and HLA-B13. The AluyMICB locus provides a useful dimorphic marker for investigations on the level of linkage disequilibrium between MICB, MICA, and HLA-B loci.     

Possible Polyphyletic Origin of Major Histocompatibility Complex Class I Chain-Related Gene A (MICA) Alleles

Phylogenetic relationships among 23 nonhuman primate (NHP) major histocompatibility complex class I chain-related gene (MIC) sequences, 54 confirmed human MICA alleles, and 16 human MICE alleles were constructed with methods of sequence analysis. Topology of the phylogenetic tree showed separation between NHP MICs and human MICs. For human MICs, the topology indicated monophyly for the MICB alleles, while MICA alleles were separated into two lineages, LI and LII. Of these, LI MICA alleles shared a common ancestry with gorilla (Ggo) MIC. One conservative amino acid difference and two nonconservative amino acid differences in the 3 domain were found between the MICA lineages. The nonconservative amino acid differences might imply structural and functional differences. Transmembrane (TM) trinucleotide-repeat variants were found to be specific to the MICA lineages such as A4, A9, and A10 to LI and A5 to LII. Variants such as A5.1 and A6 were commonly found in both MICA lineages. Based on these analyses, we postulate a polyphyletic origin for MICA alleles and their division into two lineages, LI and LII. As such, there would be 30 alleles in LI and 24 alleles in LII, thereby reducing the current level of polymorphism that exists, based on a presumed monophyletic origin. The lower degree of polymorphism in MICA would then be in line with the rest of the human major histocompatibility complex nonclassical class I genes.