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193 results on '"Roopenian, D"'

1. An engineered human albumin enhances half-life and transmucosal delivery when fused to protein-based biologics

Author

Bern, M, Nilsen, J, Ferrarese, M, Sand, K, Gjolberg, T, Lode, H, Davidson, R, Camire, R, Baekkevold, E, Foss, S, Grevys, A, Dalhus, B, Wilson, J, Hoydahl, L, Christianson, G, Roopenian, D, Schlothauer, T, Michaelsen, T, Moe, M, Lombardi, S, Pinotti, M, Sandlie, I, Branchini, A, Andersen, J, Bern M., Nilsen J., Ferrarese M., Sand K. M. K., Gjolberg T. T., Lode H. E., Davidson R. J., Camire R. M., Baekkevold E. S., Foss S., Grevys A., Dalhus B., Wilson J., Hoydahl L. S., Christianson G. J., Roopenian D. C., Schlothauer T., Michaelsen T. E., Moe M. C., Lombardi S., Pinotti M., Sandlie I., Branchini A., Andersen J. T., Bern, M, Nilsen, J, Ferrarese, M, Sand, K, Gjolberg, T, Lode, H, Davidson, R, Camire, R, Baekkevold, E, Foss, S, Grevys, A, Dalhus, B, Wilson, J, Hoydahl, L, Christianson, G, Roopenian, D, Schlothauer, T, Michaelsen, T, Moe, M, Lombardi, S, Pinotti, M, Sandlie, I, Branchini, A, Andersen, J, Bern M., Nilsen J., Ferrarese M., Sand K. M. K., Gjolberg T. T., Lode H. E., Davidson R. J., Camire R. M., Baekkevold E. S., Foss S., Grevys A., Dalhus B., Wilson J., Hoydahl L. S., Christianson G. J., Roopenian D. C., Schlothauer T., Michaelsen T. E., Moe M. C., Lombardi S., Pinotti M., Sandlie I., Branchini A., and Andersen J. T.

Abstract

Needle-free uptake across mucosal barriers is a preferred route for delivery of biologics, but the efficiency of unassisted transmucosal transport is poor. To make administration and therapy efficient and convenient, strategies for the delivery of biologics must enhance both transcellular delivery and plasma half-life. We found that human albumin was transcytosed efficiently across polarized human epithelial cells by a mechanism that depends on the neonatal Fc receptor (FcRn). FcRn also transported immunoglobulin G, but twofold less than albumin. We therefore designed a human albumin variant, E505Q/T527M/K573P (QMP), with improved FcRn binding, resulting in enhanced transcellular transport upon intranasal delivery and extended plasma half-life of albumin in transgenic mice expressing human FcRn. When QMP was fused to recombinant activated coagulation factor VII, the half-life of the fusion molecule increased 3.6-fold compared with the wild-type human albumin fusion, without compromising the therapeutic properties of activated factor VII. Our findings highlight QMP as a suitable carrier of protein-based biologics that may enhance plasma half-life and delivery across mucosal barriers.

Published
2020

6. Blocking FcRn in humans reduces circulating IgG levels and inhibits IgG immune complex–mediated immune responses

Author

Blumberg, L. J., primary, Humphries, J. E., additional, Jones, S. D., additional, Pearce, L. B., additional, Holgate, R., additional, Hearn, A., additional, Cheung, J., additional, Mahmood, A., additional, Del Tito, B., additional, Graydon, J. S., additional, Stolz, L. E., additional, Bitonti, A., additional, Purohit, S., additional, de Graaf, D., additional, Kacena, K., additional, Andersen, J. T., additional, Christianson, G. J., additional, Roopenian, D. C., additional, Hubbard, J. J., additional, Gandhi, A. K., additional, Lasseter, K., additional, Pyzik, M., additional, and Blumberg, R. S., additional

Published
2019
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7. Next generation factor VIIa with enhanced half-life

Author

Ferrarese, M., Nilsen, J., Pinotti, M., Bern, M., Davidson, R. J., Camire, R. M., Lode, H. E., Roopenian, D. C., Sandlie, I., Lombardi, Silvia, Castaman, G., Andersen, J. T., and Branchini, A.

Subjects
Socio-culturale
Published
2019

14. The Molecular and Functional Characterization of a Dominant Minor H Antigen, H60

Author

Malarkannan, S., Shih, P. P., Eden, P. A., Horng, T., Zuberi, A. R., Gregory Christianson, Roopenian, D., and Shastri, N.

Subjects
Mice, Inbred BALB C, DNA, Complementary, Minor Histocompatibility Loci, Polymorphism, Genetic, Base Sequence, Immunodominant Epitopes, T-Lymphocytes, Molecular Sequence Data, Immunology, H-2 Antigens, Epitopes, T-Lymphocyte, Chromosomes, Mice, Inbred C57BL, Minor Histocompatibility Antigens, Mice, Animals, Immunology and Allergy, Amino Acid Sequence, Cloning, Molecular, Oligopeptides, Protein Binding, T-Lymphocytes, Cytotoxic
Abstract

Minor histocompatibility (H) Ags elicit T cell responses and thereby cause chronic graft rejection and graft-vs-host disease among MHC identical individuals. Although numerous independent H loci exist in mice of a given MHC haplotype, certain H Ags dominate the immune response and are thus of considerable conceptual and therapeutic importance. To identify these H Ags and their genes, lacZ-inducible CD8+ T cell hybrids were generated by immunizing C57BL/6 (B6) mice with MHC identical BALB.B spleen cells. The cDNA clones encoding the precursor for the antigenic peptide/Kb MHC class I complex were isolated by expression cloning using the BCZ39.84 T cell as a probe. The cDNAs defined a new H locus (termed H60), located on mouse chromosome 10, and encoded a novel protein that contains the naturally processed octapeptide LTFNYRNL (LYL8) presented by the Kb MHC molecule. Southern blot analysis revealed that the H60 locus was polymorphic among the BALB and the B6 strains. However, none of the H60 transcripts expressed in the donor BALB spleen were detected in the host B6 strain. The expression and immunogenicity of the LYL8/Kb complex in BALB.B and CXB recombinant inbred strains strongly suggested that the H60 locus may account for one of the previously described antigenic activity among these strains. The results establish the source of an immunodominant autosomal minor H Ag that, by its differential transcription in the donor vs the host strains, provides a novel peptide/MHC target for host CD8+ T cells.

Published
1998

15. The functional basis of minor histocompatibility loci

Author

Roopenian, D. C., Davis, A. P., Gregory Christianson, and Mobraaten, L. E.

Subjects
Immunology, Immunology and Allergy
Abstract

This work addresses the functional basis of classical minor histocompatibility (H) loci. We focus on the H-3 locus, which is actually a complex genetic unit to which the phenotypic trait of tissue rejection, genes whose products stimulate specific subsets of T cells, and Ir genes have been mapped. To clarify how these genes relate to one another and to the trait of tissue rejection, strains of intra-H-3 recombinant mice were produced and analyzed. These mice allowed us to selectively elicit immune responses to Ag (referred to as type I Ag) that stimulate MHC class I-restricted CTL, or Ag (referred to as type II Ag) that stimulate MHC class II-restricted Th. The splitting of H-3 in this manner resulted in a dramatic diminution of the skin allograft response, and with rare exception, an elimination of the CTL response after spleen cell immunization. A selective response to type I Ag resulted in slow, incomplete skin allograft rejection that demonstrated both CD4+ cell-dependent and -independent components. A selective response to the type II Ag failed to result in allograft rejection. The type II Ag did, however, act as an Ir gene that determined whether responses to type I Ag could occur. Altogether, the results indicate that the trait of tissue rejection associated with H-3 is a consequence of the strongly synergistic effects of Th-CTL collaboration induced by products of type I and type II genes. Moreover, the results suggest a genetic explanation for some of the Ir gene effects associated with H-3.

Published
1993

16. Another view of T cell antigen recognition: cooperative engagement of glycolipid antigens by Va14Ja18 natural T(iNKT) cell receptor [corrected]

Author

Stanic, A, Shashidharamurthy, R, Bezbradica, J, Matsuki, N, Yoshimura, Y, Miyake, S, Choi, E, Schell, T, Van Kaer, L, Tevethia, S, Roopenian, D, Yamamura, T, and Joyce, S

Subjects
Receptors, Antigen, T-Cell, alpha-beta, Galactosylceramides, Mice, Transgenic, Cytotoxicity Tests, Immunologic, Lymphocyte Activation, Sensitivity and Specificity, Cell Line, Clone Cells, Antigens, CD1, Killer Cells, Natural, Mice, Inbred C57BL, Kinetics, Mice, Structure-Activity Relationship, Sphingosine, T-Lymphocyte Subsets, Animals, Antigens, Antigens, CD1d
Abstract

Va14Ja18 natural T (iNKT) cells rapidly elicit a robust effector response to different glycolipid Ags, with distinct functional outcomes. Biochemical parameters controlling iNKT cell function are partly defined. However, the impact of iNKT cell receptor beta-chain repertoire and how alpha-galactosylceramide (alpha-GalCer) analogues induce distinct functional responses have remained elusive. Using altered glycolipid ligands, we discovered that the Vb repertoire of iNKT cells impacts recognition and Ag avidity, and that stimulation with suboptimal avidity Ag results in preferential expansion of high-affinity iNKT cells. iNKT cell proliferation and cytokine secretion, which correlate with iNKT cell receptor down-regulation, are induced within narrow biochemical thresholds. Multimers of CD1d1-alphaGalCer- and alphaGalCer analogue-loaded complexes demonstrate cooperative engagement of the Va14Ja18 iNKT cell receptor whose structure and/or organization appear distinct from conventional alphabeta TCR. Our findings demonstrate that iNKT cell functions are controlled by affinity thresholds for glycolipid Ags and reveal a novel property of their Ag receptor apparatus that may have an important role in iNKT cell activation.

Published
2003

23. Novel HY peptide antigens presented by HLA-B27.

Author

Simmons, W A, primary, Summerfield, S G, additional, Roopenian, D C, additional, Slaughter, C A, additional, Zuberi, A R, additional, Gaskell, S J, additional, Bordoli, R S, additional, Hoyes, J, additional, Moomaw, C R, additional, Colbert, R A, additional, Leong, L Y, additional, Butcher, G W, additional, Hammer, R E, additional, and Taurog, J D, additional

Published
1997
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33. Primary Follicular Dystrophy With Scarring Dermatitis in C57BL/6 Mouse Substrains Resembles Central Centrifugal Cicatricial Alopecia in Humans.

Author

Sundberg, J. P., Taylor, D., Lorch, G., Miller, J., Silva, K. A., Sundberg, B. A., Roopenian, D., Sperling, L., Ong, D., King, L. E., and Everts, H.

Subjects
SKIN diseases, ALCOHOL dehydrogenase, ANIMAL models in research, HAIR follicle diseases, BALDNESS in animals, VETERINARY pathology
Abstract

The article reports on progressive histologic skin disease changes observed in C57BL/6J substrains. According to the authors, several C57BL/6 or B6 substrains are used in basic biomedical research and focal alopecia, which may lead to severe ulcerative dermatitis, is one of the B6 strain-specific background diseases. They report that in the particular substrain observed, lesions were found to have developed due to follicular dystrophy which led to secondary foreign body granulomas in mice affected by B6 substrains.

Published
2011
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34. T-cell contributions to alveolar bone loss in response to oral infection with Porphyromonas gingivalis.

Author

Baker, Pamela J., Garneau, Jessica, Howe, Lisa, Roopenian, Derry C., Baker, P J, Garneau, J, Howe, L, and Roopenian, D C

Subjects
T cells, BONES, PORPHYROMONAS gingivalis
Abstract

We have previously shown that mice lacking CD4+, but not CD8+, T cells lose less alveolar bone loss in response to oral infection with Porphyromonas gingivalis than do immunocompetent mice of the same genetic background, indicating that CD4+ T cells contribute to bone resorption. The CD4+ and CD8+ T-cell knockouts were produced by targeted deletions of, respectively, major histocompatibility complex II (MHCII) or beta2-microglobulin (producing non-expression of MHCI). Because MHC deletions can have other effects in addition to those on T-cell selection, we wanted to confirm that the lessened bone loss was truly an effect of the lack of T cells. Consequently, we repeated our experiments with C57B1 /6J-Tcra mice that have a targeted deletion of the alpha chain of the T-cell receptor (Tcra). Six weeks after oral infection with P. gingivalis ATCC 53977 the total bone loss at buccal maxillary sites was 0.28 mm in infected immunocompetent mice (P=0.002 compared with sham-infected mice), whereas in Tcra knockouts the bone loss was only 0.08 mm (P=0.04 compared with shams). The T-cell-deficient mice thus lost 70% less bone after infection than did genetically matched immunocompetent mice (P =0.003). These experiments confirm that T cells, and their responses to oral infection with P. gingivalis, help to push bone remodeling in the direction of net loss of bone. [ABSTRACT FROM AUTHOR]

Published
2001
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35. A new minor histocompatibility locus linked to H-3

Author

Click, R. E., David Schneider, and Roopenian, D. C.

Subjects
Immunology, Immunology and Allergy
Abstract

B10, BALB.B, and A.BY shared an allele at a new locus not shared by B10.LP-H-3b. This locus is linked to the minor histocompatibility gene, H-3, in the 5th linkage group of chromosome 2 of the mouse. The product of the new gene fits the criteria of a minor histocompatibility antigen, since it induced as well as served as a target for cytotoxic lymphocytes (CTL) and its presence accelerated skin graft rejection when compared with that caused by H-3.1. F1 complementation of skin graft rejection and generation of CTL indicated that A.BY and BALB.B do not share H-3a with B10 as previously reported but possess the c allele of their congenic partners A and BALB/c. Thus, B10.LP-H-3b and B10 differ from one another by at least 2 minor histocompatibility loci. The specificity of CTL developed in B10. LP-H-3b and appropriate F1 hybrids indicate that the lytic activity of CTL specific for H-3.1 was restricted to target cells possessing H-2Kb antigens; this contrasted to the H-2Db-restricted activity of CTL specific for the product of the new gene.

Published
1981

36. Genetic control of susceptibility to Porphyromonas gingivalis-induced alveolar bone loss in mice.

Author

Baker, P J, Dixon, M, and Roopenian, D C

Abstract

Periodontal disease affects a large percentage of the human population. Resorption of the alveolar bone of the jaw is a pivotal sequela of periodontal disease, because this bone is the attachment site for the periodontal ligaments that anchor the teeth. Using a murine model in which alveolar bone loss is induced by oral infection with Porphyromonas gingivalis, a gram-negative bacterium associated with human adult periodontal disease, we provide evidence suggesting that susceptibility to such bone loss is a genetically determined trait. AKR/J, DBA/2J, and BALB/cByJ or BALB/cJ mice were highly susceptible, while A/J, A/HeJ, 129/J, SJL/J, and C57BL/6J mice were much more resistant. When susceptible BALB/cJ and BALB/cByJ mice were crossed to resistant strains, two patterns were observed. (BALBc/ByJ x C57BL/6J)F(1) offspring were susceptible, suggesting C57BL/6J has recessive resistance alleles, while (BALB/cJ x A/J)F(1) mice were all resistant, suggesting that A/J mice have dominant resistance alleles. These results suggest a tractable genetic basis for P. gingivalis-induced alveolar bone loss and open the possibility of exploiting the mouse model to identify loci important for host susceptibility and resistance to periodontal disease.

Published
2000

37. Adhesion molecule deficiencies increase Porphyromonas gingivalis-induced alveolar bone loss in mice.

Author

Baker, P J, DuFour, L, Dixon, M, and Roopenian, D C

Abstract

Alveolar bone resorption can be induced in specific-pathogen-free mice by oral infection with Porphyromonas gingivalis (P. J. Baker, R. T. Evans, and D. C. Roopenian, Arch. Oral Biol. 39:1035-1040, 1994). Here we used a mouse strain, C57BL/6J, which is relatively resistant to P. gingivalis-induced bone loss to examine whether partial or complete deletion of various adhesion molecules would increase susceptibility. Complete deletion of P-selectin or nearly complete lack of expression of intercellular adhesion molecule 1 (ICAM-1) led to increased susceptibility to bone resorption after oral infection, while a hypomorphic defect in beta(2)-integrins did not. Both the total amount of bone lost and the number of sites at which there was significant loss were increased in mice deficient in either ICAM-1 or P-selectin. Each of the three adhesion molecule deficiencies was sufficient to decrease P. gingivalis-specific serum immunoglobulin G responses, but lower antibody titers did not lead to increased bone loss in partially beta(2)-integrin-deficient mice. In conclusion, P-selectin and ICAM-1 deficiencies increase susceptibility to and severity of alveolar bone loss after P. gingivalis infection. This finding underscores the importance of innate immunity in protection against P. gingivalis-induced alveolar bone resorption.

Published
2000

38. CD4(+) T cells and the proinflammatory cytokines gamma interferon and interleukin-6 contribute to alveolar bone loss in mice.

Author

Baker, P J, Dixon, M, Evans, R T, Dufour, L, Johnson, E, and Roopenian, D C

Abstract

In this study, we used a mouse model to examine the role of the adaptive immune response in alveolar bone loss induced by oral infection with the human gram-negative anaerobic bacterium Porphyromonas gingivalis. Severe combined immunodeficient mice, which lack B and T lymphocytes, exhibited considerably less bone loss than did immunocompetent mice after oral infection, suggesting that lymphocytes contribute to this process. Bone loss after oral infection was decreased in mice deficient in major histocompatibility complex (MHC) class II-responsive CD4(+) T cells, but no change in bone loss was observed in mice deficient in MHC class I-responsive CD8(+) T cells or NK1(+) T cells. Mice lacking the cytokine gamma interferon or interleukin-6 also demonstrated decreased bone loss. These results suggest that the adaptive immune response, and in particular CD4(+) T cells and the proinflammatory cytokines that they secrete, are important effectors of bone loss consequent to P. gingivalis oral infection. The studies also reinforce the utility of the mouse oral infection model in dissecting the pathobiology of periodontal disease.

Published
1999

39. Maternal IL-11Ralpha function is required for normal decidua and fetoplacental development in mice.

Author

Bilinski, P, Roopenian, D, and Gossler, A

Abstract

In eutherian mammals, implantation and establishment of the chorioallantoic placenta are essential for embryo development and survival. As a maternal response to implantation, uterine stromal cells proliferate, differentiate, and generate the decidua, which encapsulates the conceptus and forms the maternal part of the placenta. Little is known about decidual functions and the molecular interactions that regulate its development and maintenance. Here we show that the receptor for the cytokine interleukin-11 (IL-11Ralpha) is required specifically for normal establishment of the decidua. Females homozygous for a hypomorphic IL-11Ralpha allele are fertile and their blastocysts implant and elicit the decidual response. Because of reduced cell proliferation, however, only small deciduae form. Mutant deciduae degenerate progressively, and consequently embryo-derived trophoblast cells generate a network of trophoblast giant cells but fail to form a chorioallantoic placenta, indicating that the decidua is essential for normal fetoplacentation. IL-11Ralpha is expressed in the decidua as well as in numerous other tissues and cell types, including the ovary and lymphocytes. The differentiation state and proliferative responses of B and T-lymphocytes in mutant females were normal, and wild-type females carrying IL-11Ralpha mutant ovaries had normal deciduae, suggesting that the decidualization defects do not arise secondarily as a consequence of perturbed IL-11Ralpha signaling defects in lymphoid organs or in the ovary. Therefore, IL-11Ralpha signaling at the implantation site appears to be required for decidua development.

Published
1998

40. Identification of mimotopes for the H4 minor histocompatibility antigen

Author

Roopenian, D., Stefanski, H., Wettstein, P., Strausbauch, M., and Nevala, W.

Abstract

The H4 minor histocompatibility antigen (HA) of mice includes a single immunogenic peptide presented by H-2Kb molecules that stimulates skin allograft rejection and is immunodominant in the stimulation of cytolytic T lymphocytes (CTL) specific for multiple minor HA. We have identified H4 mimotopes that are recognized by the H4-specific Mg CTL clone through the use of a random peptide library comprised of bacterial clones expressing an inducible fusion protein tailed with the octamer sequence SXIXFXXL. Eight discrete mimotopes were identified that sensitized RMA-S cells for lysis by Mg CTL down to concentrations of 10-11 M. Comparable reactivity was observed with a short-term, H4-specific CTL line indicating that the mimotopes were not solely specific for the selecting Mg clone. All mimotopes included Gly at p2 and either Val or lie at p4, suggesting a requirement for a hydrophobic residue with specific conformation. All mimotopes included either Arg or His at p7, implicating a requirement for a specific positively charged amino acid at that position. The sixth position was more variable with four of eight mimotopes having a Val residue with single mimotopes including alternative amino acids, the majority of which were hydrophobic. Analysis of mimotopes for hydrophobicity and charge by reverse-phase HPLC and capillary electrophoresis respectively indicated that (1) mimotopes with Val at both p4 and p6 were hydrophobically similar (but not identical) to the natural H4 peptide, and (ii) a S → E substitution at p1 resulted in a peptide (EGIVFVRL) with charge characteristics equivalent to those of the natural H4 peptide.
Keywords:cytotoxic T lymphocyte, mimotope, minor histocompatibility antigen

Published
1998

41. Identification of mimotopes for the H4 minor histocompatibility antigen.

Author

Strausbauch, M A, Nevala, W K, Roopenian, D C, Stefanski, H E, and Wettstein, P J

Abstract

The H4 minor histocompatibility antigen (HA) of mice includes a single immunogenic peptide presented by H-2Kb molecules that stimulates skin allograft rejection and is immunodominant in the stimulation of cytolytic T lymphocytes (CTL) specific for multiple minor HA. We have identified H4 mimotopes that are recognized by the H4-specific M9 CTL clone through the use of a random peptide library comprised of bacterial clones expressing an inducible fusion protein tailed with the octamer sequence SXIXFXXL. Eight discrete mimotopes were identified that sensitized RMA-S cells for lysis by M9 CTL down to concentrations of 10(-11) M. Comparable reactivity was observed with a short-term, H4-specific CTL line indicating that the mimotopes were not solely specific for the selecting M9 clone. All mimotopes included Gly at p2 and either Val or Ile at p4, suggesting a requirement for a hydrophobic residue with specific conformation. All mimotopes included either Arg or His at p7, implicating a requirement for a specific positively charged amino acid at that position. The sixth position was more variable with four of eight mimotopes having a Val residue with single mimotopes including alternative amino acids, the majority of which were hydrophobic. Analysis of mimotopes for hydrophobicity and charge by reverse-phase HPLC and capillary electrophoresis respectively indicated that (i) mimotopes with Val at both p4 and p6 were hydrophobically similar (but not identical) to the natural H4 peptide, and (ii) a S --> E substitution at p1 resulted in a peptide (EGIVFVRL) with charge characteristics equivalent to those of the natural H4 peptide.

Published
1998
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42. Increased expression of major histocompatibility complex antigens on lymphocytes from aged mice.

Author

Sidman, C L, Luther, E A, Marshall, J D, Nguyen, K A, Roopenian, D C, and Worthen, S M

Abstract

Many studies have reported age-related changes in immune responses that could be due to alterations in lymphoid cell numbers or functions. Here we report the results of studies using immunofluorescent staining and in vitro assays of cellular function to compare the expression of cell surface antigens on lymphocytes from mice up to 2 years of age. No significant changes were observed in the frequencies of spleen cells bearing class I or class II major histocompatibility complex (MHC) antigens, surface immunoglobulin, or Thy-1, Ly-1, Ly-2, or L3T4 antigens. However, the densities (per cell) of both class I and class II MHC antigens were increased significantly on cells from aged as compared to young mice, whereas the densities of the other cell surface antigens studied were unchanged or slightly decreased. The increased levels of MHC antigen expression in old relative to young mice were shown to be functionally significant regarding immunological stimulation. These data suggest that T-cell clones silent in young individuals may be activated in comparable situations in older animals, leading to immunological alterations perhaps including increased autoreactivity.

Published
1987
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44. Biochemical and immunogenetic analysis of an immunodominant peptide (B6(dom1)) encoded by the classical H7 minor histocompatibility locus

Author

Eden, P. A., Gregory Christianson, Fontaine, P., Wettstein, P. J., Perreault, C., and Roopenian, D. C.

Subjects
Immunology, Immunology and Allergy
Abstract

Of the many minor histocompatibility (H) Ags that have been detected in mice, the ability to induce graft vs host disease (GVHD) after bone marrow transplantation is restricted to a limited number of immunodominant Ags. One such murine Ag, B6dom1, is presented by the H2-Db MHC class I molecule. We present biochemical evidence that the natural B6dom1 peptide is indistinguishable from AAPDNRETF, and we show that this peptide can be isolated from a wide array of tissues, with highest levels from the lymphoid organs and lung. Moreover, we employ a novel, somatic cell selection technique involving CTL-mediated immunoselection coupled with classical genetics, to show that B6dom1 is encoded by the H7 minor H locus originally discovered ∼40 years ago. These studies provide a molecular genetic framework for understanding B6dom1, and exemplify the fact that mouse minor H loci that encode immunodominant CTL epitopes can correspond to classical H loci originally identified by their ability to confer strong resistance to tumor transplantation. Additionally, these studies demonstrate the utility of somatic cell selection approaches toward resolving H Ag immunogenetics.

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