White blood cell telomerase activity and incident respiratory illness among community-dwelling elderly vaccinated against seasonal influenza.

Immune cell telomerase activity may impact vaccine response in the elderly. Fifty persons aged 60-100 years were tested for post-influenza vaccination telomerase RNA expression (TERT) in peripheral blood mononuclear cells to assess for an association with influenza antibody levels and influenza-like illness or incident respiratory infection (IRI) in the year following vaccination. High rates of seroprotective influenza antibody (> or = 1:40 titers) were observed post-vaccination (86-92% to vaccine viral strains), with no association to TERT. No IRI occurred among persons in the top quartile of TERT expression, whereas the IRI rate was 33% in the lower three quartiles (Kaplan-Meier P=0.028). TERT expression was also IRI significantly higher in those who did not experience IRI than those who did in the follow-up period (0.845 vs. 0.301, P=0.024). These data suggest that telomerase expression may correlate with immune capacity for vaccine response in the elderly and could represent a target for recognizing risk for vaccine failure.

Innate resistance to Babesia infection is influenced by genetic background and gender.

Infection of severe combined immunodeficient mice with Babesia sp. strain WA1 was studied to assess the contributions of innate and adaptive immunity in resistance to acute babesiosis. The scid mutation showed little effect in genetically susceptible C3H mice and did not decrease the inherent resistance of C57BL/6 mice to the infection, suggesting that innate immunity plays a central role in determining the course of Babesia infection in these strains. In contrast, the scid mutation dramatically impaired resistance in moderately susceptible BALB/c mice, suggesting that acquired immunity may play an important secondary role. In comparison to their female counterparts, male mice of different genetic backgrounds showed increased resistance to the infection, indicating that the gender of the host may influence protection against babesiosis.

TAP-independent presentation of CTL epitopes by Trojan antigens.

The majority of CTL epitopes are derived from intracellular proteins that are degraded in the cytoplasm by proteasomes into peptides that are transported into the endoplasmic reticulum by the TAP complex. These peptides can be further processed into the optimal size (8-10 residues) for binding with nascent MHC class I molecules, generating complexes that are exported to the cell surface. Proteins or peptides containing CTL epitopes can be introduced into the cytoplasm of APCs by linking them to membrane-translocating Trojan carriers allowing their incorporation into the MHC class I Ag-processing pathway. The present findings suggest that these "Trojan" Ags can be transported into the endoplasmic reticulum in a TAP-independent way where they are processed and trimmed into CTL epitopes. Furthermore, processing of Trojan Ags can also occur in the trans-Golgi compartment, with the participation of the endopeptidase furin and possibly with the additional participation of a carboxypeptidase. We believe that these findings will be of value for the design of CTL-inducing vaccines for the treatment or prevention of infectious and malignant diseases.

Optimizing preparation of normal dendritic cells and bcr-abl+ mature dendritic cells derived from immunomagnetically purified CD14+ cells.

The goal of this work was to optimize dendritic cell (DC) preparations obtained from patients suffering from chronic myeloid leukemia (CML) and compare them with DC prepared from normal CD14+ mononuclear cells (MNC). We studied normal DC and bcr-abl+ leukemic DC (CML-DC) yields, expression of membrane molecules, differentiation status, and ability to stimulate T cells. We isolated DC precursors from PBMC by CD14-specific immunoadsorption and cultured them for 7 days in GM-CSF and IL-4, followed by a 3-day incubation to fully differentiate the cells. We evaluated cultures of CML-DC using RPMI 1640 medium supplemented with FBS and X-VIVO 15 medium containing human AB serum. In contrast to cells matured in RPMI 1640, virtually all cells incubated in X-VIVO 15 expressed CD83, a marker of mature DC. CML-DC and normal DC were indistinguishable in expression of CD83, resulting in the highest percentage reported so far. The yields of normal DC and CML-DC from CD14+ cells were indistinguishable. The percentage of bcr-abl+ cells in PBMC varied among patients between 65% and 97% and the final CML-DC preparations were >98% bcr-abl+ the highest purity of bcr-abl+ cells to date. Normal DC and CML-DC were equally effective in stimulating proliferation of allogeneic and autologous T cells. These techniques provide highly enriched, mature, functional CML-DC.

V(beta)8(+) T cells protect from demyelinating disease in a viral model of multiple sclerosis.

Previous studies illustrated the influence of T cell subsets on susceptibility or resistance to demyelination in the Theiler's murine encephalomyelitis virus (TMEV) model of multiple sclerosis. Genetic segregation analysis showed a correlation with disease phenotype in this model with particular V(beta) genes. In this study we investigated the contribution of specific V(beta) TCR to the pathogenesis of virus-induced demyelinating disease. Spectratype analysis of cells infiltrating the CNS early in infection demonstrated an over-representation of V(beta)8(+) T cells in mice expressing a susceptible H-2 haplotype. We infected transgenic mice expressing the V(beta)8.2 TCR directed against a non-TMEV antigen and found an increase in demyelinating disease in mice of either susceptible or resistant background compared with littermate controls. In addition, depletion studies with an anti-V(beta)8-specific antibody in both susceptible (B10.Q) and resistant (C57BL/6) mice resulted in increased demyelination. TCR analysis of VP2-specific cytotoxic T cell clones from mice with a resistant genotype identified only the V(beta)8.1 TCR, suggesting that limited T cell diversity is critical to TMEV clearance. Together, these results support a protective role for V(beta)8(+) T cells in virus-induced demyelinating disease.

Memory of Chirality in Photochemistry.

The helical-chiral character of the diradical intermediate 2, which cyclizes quicker than it equilibrates, explains the memory effect of chirality that occurs during the enantioselective photocyclization of alanine derivative 1 to give the proline derivative 3. Ts=H(3)CC(6)H(4)SO(2).

Biochemical and immunogenetic analysis of an immunodominant peptide (B6dom1) encoded by the classical H7 minor histocompatibility locus.

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 approximately 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.

Temporal sequence of transcription of perforin, Fas ligand, and tumor necrosis factor-alpha genes in rejecting skin allografts.

BACKGROUND: Perforin, Fas ligand (FasL), and tumor necrosis factor-alpha (TNF-alpha) have been implicated in cytolytic T lymphocyte (CTL) effector function. However, the relative roles of these effector molecules in allograft rejection are unclear, and there has been no rigorous quantitation of transcription of the respective genes throughout the period from transplantation to rejection. METHODS: We orthotopically transplanted mouse tail skin allografts and estimated the numbers of transcripts of these genes expressed by graft-infiltrating T cells with rigorous quantitative, competitive reverse transcribed PCR (QC-RT-PCR) that enabled the comparison of transcription of different genes. RESULTS: Perforin and FasL mRNA levels correlated closely with the rejection of allografts by normal hosts over the 4 days preceding rejection. Antibody-mediated depletion of host CD4+ T cells retarded perforin transcription and significantly suppressed FasL transcription, suggesting FasL was not required for allograft rejection. TNF-alpha transcription was the highest of these genes in this time period, but these levels were dwarfed by TNF-alpha transcription at 24 hr posttransplant when transcription in both autografts and allografts was 30-fold higher than in allografts on the day before rejection. Elimination of the function of these single or paired genes through genetic mutation or antibody treatment had no significant effect on the speed of rejection. CONCLUSIONS: The levels of perforin and FasL transcription appeared to be related to the process of allograft rejection in normal hosts. However, TNF-alpha transcription was highest during the posttransplant period suggesting that the principal role of TNF-alpha is in wound-healing rather than the effector phase of rejection.

A Theiler's virus alternatively initiated protein inhibits the generation of H-2K-restricted virus-specific cytotoxicity.

In susceptible mouse strains, the wild-type Daniel's (wt-DA) strain of Theiler's murine encephalomyelitis virus induces a persistent central nervous system (CNS) infection with chronic demyelination. The virus is cleared from resistant mice with no resulting demyelination. We characterized the role of the DA L* protein in late demyelination and persistent infection. The DA genome has two alternative reading frames, encoding the virus polyprotein and L*, respectively. The mutant virus DAL*-1 fails to synthesize L* and does not persist in the CNS of wt-DA-susceptible SJL/J or B10.S mice. Since class I-restricted cytotoxicity has been shown to determine resistance to virus persistence and demyelination in this model, virus-specific cytotoxicity in the CNS of DA-resistant (B6 or B10) and -susceptible (SJL/J and B10.S) mice during the acute stage of DA and DAL*-1 infection was characterized. Following intracerebral inoculation with DAL*-1, virus-specific Db- and Kb-restricted CTLs were demonstrated in the CNS of resistant B10 mice, whereas only Db-restricted CTL were found in wt-DA-inoculated mice. CTLs specific to wt-DA or DAL*-1 recognized class I-presented peptides from either of the viruses. Of particular interest, Ks-restricted virus-specific cytotoxicity-restricted CTLs were identified in the CNS of susceptible SJL/J (H-2s) and B10.S (H-2s) mice inoculated with DAL*-1. In contrast, no virus-specific CTLs were identified in the CNS of SJL/J and B10.S mice inoculated with wt-DA. We propose that L* inhibits the generation of H-2K-restricted virus-specific cytotoxicity in the CNS, permitting a persistent infection in susceptible strains, with subsequent inflammatory demyelination in the CNS similar to that in human multiple sclerosis.

Infrared-mediated thermocycling for ultrafast polymerase chain reaction amplification of DNA.

Interest in improving the speed of DNA analysis via capillary electrophoresis has led to efforts to integrate DNA amplification into microfabricated devices. This has been difficult to achieve since the thermocycling required for effective polymerase chain reaction (PCR) is dependent on an effective contact between the heating source and the PCR mixture vessel. We describe a noncontact method for rapid and effective thermocycling of PCR mixtures in electrophoretic chip-like glass chambers. The thermocycling is mediated through the use of a tungsten lamp as an inexpensive infrared radiation source, with cooling effected with a solenoid-gated compressed air source. With temperature ramping between 94 and 55 degrees C executed in glass microchambers as rapidly as 10 degrees C/s (heating) and 20 degrees C/s (cooling), cycle times as fast as 17 s could be achieved. Successful genomic DNA amplification was carried out with primers specific for the beta-chain of the T-cell receptor, and detectable product could be generated in a fraction of the time required with commercial PCR instrumentation. The noncontact-mediated thermocycling format was not found to be restricted to single DNA fragment amplification. Application of the thermocycling approach to both quantitative competitive PCR (simultaneous amplification of target and competitor DNA) and cycle sequencing reactions (simultaneous amplification of dideoxy terminated fragments) was successful. This sets the stage for implementing DNA thermocycling into a variety of microfabricated formats for rapid PCR fragment identification and DNA sequencing.

Vector-hexamer PCR isolation of all insert ends from a YAC contig of the mouse Igh locus.

We have developed a simple PCR strategy, termed vector-hexamer PCR, that is unique in its ability to easily recover every insert end from large insert clones in YAC and BAC vectors. We used this method to amplify and isolate all insert ends from a YAC contig covering the mouse Igh locus. Seventy-seven ends were amplified and sequenced from 36 YAC clones from four libraries in the pYAC4 vector. Unexpectedly, 40% of the insert ends of these YACs were LINE1 repeats. Nonrepetitive ends were suitable for use as probes on Southern blots of digested YACs to identify overlaps and construct a contig. The same strategy was used successfully to amplify insert ends from YACs in the pRML vector from the Whitehead Institute/MIT-820 mouse YAC library and from BACs in pBeloBAC11. The simplicity of this technique and its ability to isolate every end from large insert clones are of great utility in genomic investigation. [The nucleotide sequence data reported in this paper are accessible in GenBank under accession nos. B07512-B07598.]

Direct quantitation of RNA transcripts by competitive single-tube RT-PCR and capillary electrophoresis.

Attempts are frequently made to semiquantitate mRNA as a means of circumventing the laborious and time-consuming process of quantitation that is inherent in the use of competitor templates. However, semiquantitative approaches present the risk of generating non-reproducible data due to tube-to-tube variability and/or misinterpretation of quantities of product being generated during the plateau phase of PCR. Subsequently, it is difficult to compare semiquantitative data from separate experiments, and comparisons of levels of mRNA transcript from genes that amplify with different primer pairs cannot be made. Thus, reliable methods for mRNA quantitation continue to rely on the use of internal standardization. In this report, we describe a strategy for dependable quantitation of low-abundance mRNA transcripts based on quantitative competitive reverse transcription PCR (QC-RT-PCR) coupled to capillary electrophoresis (CE) for rapid separation and detection of products. Recommendations are included for the design of RNA competitors that can be paired with target RNA for cDNA synthesis primed with a gene-specific primer; these synthesized cDNAs are then co-amplified directly in the same tube using a single primer pair. We describe (i) a protocol for a single-tube RT-PCR that provides for cDNA synthesis and subsequent PCR amplification of target and competitor in identical reaction environments at each critical enzymatic step, (ii) a unique hot-start provision for optimizing precise and consistent PCR amplifications and (iii) a method for rapid PCR product separation, detection and quantitation by CE and laser-induced fluorescence.

Identification of mimotopes for the H4 minor histocompatibility antigen.

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.

Capillary electrophoresis of insulin-like growth factors: enhanced ultraviolet detection using dynamically coated capillaries and on-line solid-phase extraction.

Insulin-like growth factor-I and -II (IGF-I and IGF-II) are difficult to separate and measure as a result of their homology, both structurally and immunologically. A number of binding proteins (BPs) which interact with the IGFs with high affinity complicate the ability to measure the IGFs accurately and reproducibly. Current methodology for measuring IGF is immuno-based and involves dissociation from the IGFs and removal of the binding proteins through sample acidification and removal by solid-phase adsorption. However, the net result is an assay that is time-consuming and, at best, semiquantitative. In an attempt to improve the reproducibility and accuracy of IGF-I and -II measurement, electrophoretic systems employing dynamically coated and bare silica capillaries were evaluated. Separations in bare silica capillaries in the presence or absence of the cationic additive, decamethonium bromide were ineffective for resolving IGF-I and IGF-II. However, when the capillary was coated dynamically with polybrene, IGF-I and -II could be resolved in a BSA sample matrix using a low pH buffer. Despite the fact that the IGFs could be resolved in the presence of an IGF-I analog used as an internal standard, polybrene recoating was required after as few as 12 runs and poor coating-to-coating reproducibility was observed. Use of polydiallyldimethylammonium chloride (PDMAC) as a dynamic cationic coating and a low pH buffer containing 0.5% PDMAC was found to be much more effective, providing reproducible separation of IGF-I and -II. It was found that PDMAC need not be included in the separation buffer to obtain reproducible analyses regarding IGF separation. Subsequently, functionality remained intact for as many as 35-40 consecutive analyses before recoating was required. Without the need for PDMAC in the buffer, on-line solid-phase extraction-capillary electrophoresis could be accomplished for detection of IGF-I and -II at concentrations as low 195 ng/ml.

Spectratyping of TCR expressed by CTL-infiltrating male antigen (HY)-disparate allografts.

Minor histocompatibility Ags (HA) play prominent roles in stimulating allograft rejection and are recognized by CTLs that mediate this process. There is limited information regarding the sequences of minor HA peptides and the diversity of minor HA-specific TCRs. In the case of the male minor HA (HY), a peptide presented by H2Db molecules has been sequenced. We have used spectratyping to study the diversities of Vbeta usage and beta complementarity-determining region 3 (CDR3) lengths of TCRs expressed by CTLs that infiltrate HY-disparate skin allografts during rejection. Spectratyping of RNA from second- and third-set male allografts on CD4-depleted, female recipients showed a reduction in Vbeta usage and beta CDR3 length diversity with prominent representation of Vbeta8 genes. CDR3 sequences, as a group, were characterized by net negative charges resulting from negatively charged residues at positions 5-6 and 10-11. The effects of in vivo anti-Vbeta8 Ab treatment on rejection of second-set male allografts were investigated. This Ab treatment had no effect on allograft rejection time and resulted in increased Vbeta7 usage in recipients with complete Vbeta8 depletion. More interestingly, the net charges of beta CDR3s derived from Vbeta8-depleted recipients were altered by the inclusion of positively charged and polar residues at positions 4-6. These results indicate that Vbeta-specific T cell depletion has no effect on HY-disparate allograft survival, but it alters Vbeta usage and changes the characteristics of beta CDR3s that facilitate class I:peptide recognition.

Immunodominant minor histocompatibility antigen peptides recognized by cytolytic T lymphocytes primed by indirect presentation.

BACKGROUND: Indirect presentation of minor histocompatibility antigens (HA) as revealed by cross-priming of H2 heterozygous recipients effectively primes minor HA-specific cytolytic T lymphocytes (CTLs). However, it is not known if indirect priming generates CTLs specific for the same set of immunodominant minor HA recognized by CTLs primed by direct spleen cell injections. METHODS: In order to indirectly prime minor HA-specific CTLs, we implanted (C57BL/6 x B6.C-H2d)F1 recipients with BALB.B and BALB/c splenocytes loaded into immunoisolation devices that effectively preclude direct donor:host contact. Responder spleen cells from these recipients were stimulated in vitro to expand BALB.B- and BALB/c-specific CTLs to reveal classical cross-priming. RESULTS: Tests of CTL specificity using (1) CXB recombinant inbred strain targets that express different arrays of BALB/c minor HA and (2) high-performance liquid chromatography fractions of peptides from BALB.B Kb and Db molecules revealed that anti-BALB.B CTLs were specific for two previously identified dominant peptides, CTT-2 and CTT-5, presented by Kb molecules. Variation of responders and priming cells resulted in CTL responses to additional dominant peptides that had been identified previously with CTLs generated by direct priming with spleen cell injections. Indirect priming was not limited to this set of peptides recognized by CTLs in vitro because devices loaded with cells devoid of the CTL-detected peptides primed for accelerated skin allograft rejection. CONCLUSIONS: Indirect presentation of minor HA in vivo stimulates the generation of CTLs specific for a subset of dominant minor HA peptides recognized by CTLs primed by direct presentation.

Differential effects of infection with a Babesia-like piroplasm, WA1, in inbred mice.

A newly identified intraerythrocytic Babesia-like organism, WA1, and its relatives were recently shown to be infectious for humans in the western United States. The purpose of the present study was to determine the susceptibilities of selected mouse genotypes to WA1 infection in an attempt to develop a murine model of the human disease. Several mouse strains were inoculated intraperitoneally with various passages of WA1-parasitized erythrocytes. Parasitemia was evaluated by blood smears and by PCR with blood samples collected at various intervals after inoculation. Hematologic parameters were monitored in blood samples at all intervals. C57BL/6 and C57BL/10 mice exhibited mortality rates of <10%. BALB/cJ, CBAJ, and 129/J mice had higher peak parasitemias than did C57BL mice, with mortality rates of 40, 50, and 50%, respectively. A/J, AKR/N, C3H, and DBA/1J mice also had higher peak parasitemia and mortality rates (>95%). An F1 cross of C57BL/6 (resistant) and C3H.RKK (susceptible) mice had a mortality rate similar to that of the resistant parental strain. Histopathology of BALB/cJ and C3H mice at 9 and 14 days after inoculation revealed erythrophagocytosis and deposition of an iron-negative pigment in multiple organs. Morbidly ill C3H mice at 14 days had severe pulmonary edema, hemoglobinuria, and glomerulonephritis.

Immunodominant minor histocompatibility antigen peptides presented by H2Db molecules.

BACKGROUND: C57BL/6 (B6) mice generate cytolytic T lymphocytes (CTLs) to a limited number of immunodominant cytotoxic T cell target (CTT) antigens and associated peptides when primed with H2-matched BALB.B spleen cells, despite multiple minor histocompatibility antigen (HA) differences. We previously showed that these CTLs recognize four Kb-bound minor HA peptides derived from CTT antigens. Here, we describe the identification of Db-bound minor HA peptides recognized by B6 anti-BALB.B CTLs. METHODS: Peptides were extracted from Db molecules immunoprecipitated from lysates of T lymphoblasts from BALB.B mice and mice from the CXB recombinant inbred strains that express H2b and segregate minor HA from BALB/c and B6. Peptides were separated by reverse-phase high-performance liquid chromatography and tested for sensitization of targets for lysis by CTLs specific for BALB.B and the CXB strains. RESULTS: B6 anti-BALB.B CTLs recognized a single Db-bound peptide whose distribution in CXB strains matched that of the previously reported CTT-1 minor HA. An additional Db-bound peptide (CTT-7) was recognized by B6 anti-CXBG CTLs. CTT-1 was expressed by independently derived inbred mouse strains that express H2b. CTT-1 was recognized by B6 CTLs specific for these inbred strains, except for the LP and 129 strains that stimulated CTL specific for the CTT-8 peptide expressed by these two strains. CONCLUSIONS: These results demonstrate that B6 CTLs primed and boosted with multiple minor HA recognize a maximum of two minor HA peptides regardless of the strain of origin of H2b-matched stimulating lymphoid cells.

The immune system preferentially clears Theiler's virus from the gray matter of the central nervous system.

Infection of susceptible strains of mice with Daniel's (DA) strains of Theiler's murine encephalomyelitis virus (DAV) results in virus persistence in the central nervous system (CNS) white matter and chronic demyelination similar to that observed in multiple sclerosis. We investigated whether persistence is due to the immune system more efficiently clearing DAV from gray than from white matter of the CNS. Severe combined immunodeficient (SCID) and immunocompetent C.B-17 mice were infected with DAV to determine the kinetics, temporal distribution, and tropism of the virus in CNS. In early disease (6 h to 7 days postinfection), DAV replicated with similar kinetics in the brains and spinal cords of SCID and immunocompetent mice and in gray and white matter. DAV RNA was localized within 48 h in CNS cells of all phenotypes, including neurons, oligodendrocytes, astrocytes, and macrophages/microglia. In late disease (13 to 17 days postinfection), SCID mice became moribund and permitted higher DAV replication in both gray and white matter. In contrast, immunocompetent mice cleared virus from the gray matter but showed replication in the white matter of their brains and spinal cords. Reconstitution of SCID mice with nonimmune splenocytes or anti-DAV antibodies after establishment of infection demonstrated that both cellular and humoral immune responses decreased virus from the gray matter; however, the cellular responses were more effective. SCID mice reconstituted with splenocytes depleted of CD4+ or CD8+ T lymphocytes cleared virus from the gray matter but allowed replication in the white matter. These studies demonstrate that both neurons and glia are infected early following DAV infection but that virus persistence in the white matter is due to preferential clearance of virus from the gray matter by the immune system.