MICA and MICB are ligands of the NKG2D receptor and thereby influence NK and T cell activity. MICA/B gene polymorphisms, expression levels and the amount of soluble MICA/B in the serum have been linked to autoimmune diseases, infections, and cancer. In hematopoietic stem cell transplantation, MICA matching between donor and patient has been correlated with reduced acute and chronic graft-vs.-host disease and improved survival. Hence, we developed an extremely cost-efficient high-throughput workflow for genotyping MICA/B for newly registered potential stem cell donors. Since mid-2017, we have genotyped over two million samples using NGS amplicon sequencing for MICA/B exons 2-5. In donors of German origin, MICA * 008 is the most common MICA allele with a frequency of 42.3%. It is followed by MICA * 002 (11.7%) and MICA * 009 (8.8%). The three most common MICB alleles are MICB * 005 (43.9%), MICB * 004 (21.7%), and MICB * 002 (18.9%). In general, MICB is less diverse than MICA and only 6 alleles, instead of 15, account for a cumulative allele frequency of 99.5%. In 0.5% of the samples we observed at least one allele of MICA or MICB which has so far not been reported to the IPD/IMGT-HLA database. By providing MICA/B typed voluntary donors, clinicians become empowered to include MICA/B into their donor selection process to further improve unrelated hematopoietic stem cell transplantation.
HLA‐E is a member of the nonclassical HLA class Ib genes. Even though it is structurally highly similar to the classical HLA class Ia genes, it is less diverse and only 45 alleles and 12 proteins were known in December 2019 (IPD‐IMGT/HLA, release 3.38.0). Since 2017, we have genotyped over 3 million voluntary stem cell donors for HLA‐E by sequencing the most relevant allele‐determining bases of exons 2 and 3. As expected, most donors harbor the two predominant alleles HLA‐E*01:01 and/or HLA‐E*01:03. However, in 1666 (0.05%) of our samples we detected 345 distinct novel HLA‐E sequences. The most frequent one was identified in 162 samples and has by now been named HLA‐E*01:114. To characterize these novel alleles in full‐length, we used both short‐read Illumina and long‐read PacBio sequencing to obtain fully phased and highly accurate sequences. This resulted in 234 submissions to IPD‐IMGT/HLA comprising 170 novel HLA‐E alleles, which encode for 93 novel HLA‐E proteins, as well as 64 confirmations or sequence extensions. Consequently, the number of HLA‐E alleles in the database (release 3.42.0) has now increased to 256 HLA‐E alleles and 110 HLA‐E proteins.
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