Impaired survival of peripheral T cells, disrupted NK/NKT cell development, and liver failure in mice lacking Gimap5

The loss of Gimap5 (GTPase of the immune-associated protein 5) gene function is the underlying cause of lymphopenia and autoimmune diabetes in the BioBreeding (BB) rat. The in vivo function of murine gimap5 is largely unknown. We show that selective gene ablation of the mouse gimap5 gene impairs the final intrathymic maturation of CD8 and CD4 T cells and compromises the survival of postthymic CD4 and CD8 cells, replicating findings in the BB rat model. In addition, gimap5 deficiency imposes a block of natural killer (NK)- and NKT-cell differentiation. Development of NK/NKT cells is restored on transfer of gimap5(-/-) bone marrow into a wild-type environment. Mice lacking gimap5 have a median survival of 15 weeks, exhibit chronic hepatic hematopoiesis, and in later stages show pronounced hepatocyte apoptosis, leading to liver failure. This pathology persists in a Rag2-deficient background in the absence of mature B, T, or NK cells and cannot be adoptively transferred by transplanting gimap5(-/-) bone marrow into wild-type recipients. We conclude that mouse gimap5 is necessary for the survival of peripheral T cells, NK/NKT-cell development, and the maintenance of normal liver function. These functions involve cell-intrinsic as well as cell-extrinsic mechanisms.     

Rh genotyping: avoiding false-negative and false-positive results among individuals of African ancestry

High homology, variant alleles, and silent alleles have made the development of completely reliable genotyping assays for the RHD and RHC alleles difficult. An RHD pseudogene (RHDPsi) possessing a 37-bp insertion within exon 4 is common among serologically RhD-negative individuals of African descent and generates false-positive results in previously reported RhD genotyping assays. Genotyping RhC is problematic due to exon 2 homology between RHD and RHC; however, an RHC-specific 109-bp insertion within intron 2 has been reported useful for genotyping. Primers flanking the exon 4 insertion point were used for detection of RHD and RHDPsi among a total of 231 serotyped individuals: 134 African American, 85 Caucasian, and 12 RhD serotype-negative/genotype-positive, D-sensitized women. Primers flanking the RHC-specific intron 2 insertion were used to genotype 282 serotyped individuals (128 African American, 154 Caucasian) and were compared to RHC genotyping using the exon 1 RhC-specific nt48 cytosine polymorphism. Complete correlation was observed between genotyping with the RHDPsi primer pair and serotyping among 219 individuals and 10/12 previous RHD false-positive genotyping results were resolved. RHDPsi was detected in 19% (n = 4/21) of RhD seronegative African Americans and 4.4% (n = 5/113) of RhD seropositive African Americans. When using the 109-bp intron 2 insertion for genotyping of RHC, a 23.9% (n = 11/46) false-negative rate was observed among African American RhCc serotyped heterozygotes. Utilization of the exon 1 nt48 cytosine for indirect genotyping of RHC yielded a 7.2% (n = 4/55) and 56.3% (n = 45/80) false-positive rate among Rhcc Caucasians and African Americans, respectively. We conclude that these additional reactions, though not sufficient alone, can be useful supplements to existing Rh genotyping assays.     

Age-dependent prevalence of vascular disease-associated polymorphisms among 2689 volunteer blood donors

BACKGROUND: The development of vascular disease involves the interaction of genetic and environmental factors. Because vascular disease is a major contributor to mortality in Western societies, we hypothesized that deleterious polymorphisms associated with hemostasis decrease in frequency among a healthy population as a function of age. METHODS: The frequencies of factor V G1691A Leiden (FVL), factor II (FII) G20210A, methylenetetrahydrofolate reductase (MTHFR) C677T, glycoprotein Ia (GPIa) C807T, glycoprotein IIIa (Pl(A1)/Pl(A2)) T1565C, and angiotensin-converting enzyme (ACE) intron 16 insertion/deletion (I/D) alleles were determined among 2689 healthy Caucasian whole-blood donors. For analysis, participants were divided into three age groups: 17-39 years (n = 979; 505 males and 474 females), 40-59 years (n = 900; 526 males and 374 females), and 60-85 years (n = 810; 530 males and 280 females). RESULTS: The Pl(A2) allele frequency decreased from 17.5% to 15.7% and 14.1% in the 17-39 years, 40-59 years, and 60-85 years age groups, respectively (n = 5094 alleles; P = 0.025). Among ACE DD males, the Pl(A2) allele frequency decreased from 20.8% to 16.1% and 9.1% in the same groups, respectively (n = 810 alleles; P = 0.001). No statistically significant decrease in genotype or allele frequency was observed among carriers of FVL, FII 20210A, MTHFR 677T, GPIa 807T, or ACE D. CONCLUSIONS: These data suggest that Pl(A2) carriers, especially those who are ACE DD, are statistically less prevalent among older healthy blood donors compared with their younger counterparts. These observations suggest an important, deleterious, time-dependent impact of the Pl(A2) allele, as well as the ACE DD/Pl(A2) allelic combination, on overall health and longevity.     

Prevalence of prothrombin G20210A, factor V G1691A (Leiden), and methylenetetrahydrofolate reductase (MTHFR) C677T in seven different populations determined by multiplex allele-specific PCR.

Individuals belonging to six racial groups (African American, Asian Indian, Caucasian, Hispanic, Korean, Native American), and a seventh group comprised of referred patients with thrombosis were genotyped for the prothrombin G20210A mutation, the factor V G1691A (Leiden) mutation, and the methylenetetrahydrofolate reductase (MTHFR) C677T mutation by multiplexed allele-specific PCR. The prothrombin 20210A and factor V 1691A allele frequencies in the thrombosis patients, 3.2% and 9.5%, were significantly higher than those in the random Caucasians, 1.3% and 1.8%, (p = 0.043 and p <0.001, respectively). The relative risk of venous thrombosis was determined to be 2.4-fold for carriers of the prothrombin 20210A allele (odds ratio = 2.54; 95% confidence interval = 0.94, 6.82) and 4.5-fold for carriers of the factor V 1691A allele (odds ratio = 5.06; 95% confidence interval = 2.25, 11.36). Among the seven populations, significant differences were observed in the MTHFR 677T allele distribution, however this mutation was not determined to be a risk factor for venous thrombosis in the patient group studied, either alone or in combination with the prothrombin 20210A and/or the factor V 1691A allele(s).     

Quantitative evaluation of post-bone marrow transplant engraftment status using fluorescent-labeled variable number of tandem repeats.

BACKGROUND: The analysis of highly polymorphic variable number of tandem repeat (VNTR) loci is useful for the estimation of donor-host chimerism in bone marrow transplant recipients. METHODS AND RESULTS: A rapid and sensitive engraftment assay has been developed in which the VNTR loci, D1S80, D17S5, D1S111, and apoB, are amplified with fluorescent-labeled (Cy5.5) oligonucleotide primers, followed by analysis using the Visible Genetics, Inc, OpenGene System. The degree of chimerism is then calculated by determining the percentage of host contribution to the total informative allele peak area. Reconstitution experiments and analysis of 383 posttransplantation DNA samples, isolated from 71 different bone marrow transplant recipients, were evaluated as part of assay development. Reconstitution studies showed assay linearity and sensitivity of at least 1%. Patient results were compared with a previous analysis in which unlabeled PCR products were quantified on silver-stained polyacrylamide gels. High concordance was observed between fluorescent analysis and silver-staining method in all 71 patients. CONCLUSIONS: Fluorescent analysis offers many advantages over previous methods, including faster turnaround time, decreased DNA requirements, greater resolution and/or sensitivity, and objective interpretation.