Long-term effects of idiotype vaccination on the specific T-cell response in peripheral blood and bone marrow of multiple myeloma patients

BackgroundTraditional tumor thermal ablations, such as radiofrequency ablation (RFA) and cryoablation, can result in good local control of tumor, but traditional tumor thermal ablations are limited by poor long-term survival due to the failure of control of distal metastasis. Our previous studies developed a novel cryo-thermal therapy to treat the B16F10 melanoma mouse model. Long-term survival and T-cell-mediated durable antitumor immunity were achieved after cryo-thermal therapy, but whether tumor antigen-specific T-cells were augmented by cryo-thermal therapy was not determined.MethodsThe long-term antitumor therapeutic efficacy of cryo-thermal therapy was performed in B16F10 murine melanoma models. Splenocytes derived from mice treated with RFA or cryo-thermal therapy were coincubated with tumor antigen peptides to detect the frequency of antigen specific CD4+ and CD8+ T-cells by flow cytometry. Splenocytes were then stimulated and expanded by αCD3 or peptides and adoptive T-cell therapy experiments were performed to identify the antitumor efficacy of T-cells induced by RFA and cryo-thermal therapy. Naïve mice and tumor-bearing mice were used as control groups.ResultsLocal cryo-thermal therapy generated a stronger systematic antitumor immune response than RFA and a long-lasting antitumor immunity that protected against tumor rechallenge. In vitro studies showed that the antigen-specific CD8+ T-cell response was induced by both cryo-thermal therapy and RFA, but the strong neoantigen-specific CD4+ T-cell response was only induced by cryo-thermal therapy. Cryo-thermal therapy-induced strong antitumor immune response was mainly mediated by CD4+ T-cells, particularly neoantigen-specific CD4+ T-cells.ConclusionCryo-thermal therapy induced a stronger and broader antigen-specific memory T-cells. Specifically, cryo-thermal therapy, but not RFA, led to a strong neoantigen-specific CD4+ T-cell response that mediated the resistance to tumor challenge.

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ABSENCE OF ALLOGENEIC T CELL RESPONSE TO HUMAN INSULIN-SECRETING CELLS FOLLOWING LONG-TERM CULTURE1

Transplantation Journal ◽

10.1097/00007890-198805000-00023 ◽

1988 ◽

Vol 45 (5) ◽

pp. 953-956 ◽

Cited By ~ 2

Author(s):

A. DEMIDEM ◽

C. H. THIVOLET

Keyword(s):

T Cell ◽

Human Insulin ◽

Cell Response ◽

T Cell Response ◽

Insulin Secreting Cells

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T Cell Recognition of HCMV: Pan-Genome Analysis of Immunogenic Open-Reading Frames.

Blood ◽

10.1182/blood.v104.11.606.606 ◽

2004 ◽

Vol 104 (11) ◽

pp. 606-606 ◽

Cited By ~ 1

Author(s):

Louis J. Picker ◽

Andrew W. Sylwester ◽

Bridget L. Mitchell ◽

Cara Taormina ◽

Christian Pelte ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Cd8 T Cells ◽

Peripheral Blood ◽

Cell Response ◽

Cd8 T Cell ◽

Cross Reactivity ◽

T Cell Response ◽

Cd4 T Cell ◽

Cell Responses

Abstract Human Cytomegalovirus (HCMV) is among the largest and most complex of known viruses with 150–200nm virions enclosing a double stranded 230kb DNA genome capable of coding for >200 proteins. HCMV infection is life-long, and for the vast majority of immune competent individuals clinically benign. Disease occurs almost exclusively in the setting of immune deficiency, suggesting that the stable host-parasite relationship that characterizes these infections is the result of an evolutionarily “negotiated” balance between viral mechanisms of pathogenesis and the host immune response. In keeping with, and perhaps because of this balance, the human CD4+ T cell response to whole HCMV viral lysates is enormous, with median peripheral blood frequencies of HCMV-specific cells ~5–10 fold higher than for analogous preparations of other common viruses. Although certain HCMV ORFs have been identified as targets of either the CD4+ or CD8+ T cell response, the specificities comprising the CD4+ T cell response, and both the total frequencies and component parts of the CD8+ T cell response are unknown. Here, we used cytokine flow cytometry and ~14,000 overlapping 15mer peptides comprising all 213 HCMV ORFs encoding proteins >100 amino acids in length to precisely define the total CD4+ and CD8+ HCMV-specific T cell responses and the HCMV ORFs responsible for these responses in 33 HCMV-seropositive, HLA-disparate donors. An additional 9 HCMV seronegative donors were similarly examined to define the extent to which non-HCMV responses cross-react with HCMV-encoded epitopes. We found that when totaled, the median frequencies of HCMV-specific CD4+ and CD8+ T cells in the peripheral blood of the seropositive subjects were 4.0% and 4.5% for the total CD4+ or CD8+ T cell populations, respectively (which corresponds to 9.1% and 10.5% of the memory populations, respectively). The HCMV-specific CD4+ and CD8+ T cell responses included a median 12 and 7 different ORFs, respectively, and all told, 73 HCMV ORFs were identified as targets for both CD4+ and CD8+ T cells, 26 ORFs as targets for CD8+ T cells alone, and 43 ORFS as targets for CD4+ T cells alone. UL55, UL83, UL86, UL99, and UL122 were the HCMV ORFs most commonly recognized by CD4+ T cells; UL123, UL83, UL48, UL122 and UL28 were the HCMV ORFs most commonly recognized by CD8+ T cells. The relationship between immunogenicity and 1) HLA haplotype and 2) ORF expression and function will be discussed. HCMV-seronegative individuals were non-reactive with the vast majority of HCMV peptides. Only 7 potentially cross-reactive responses were identified (all by CD8+ T cells) to 3 ORFs (US32, US29 and UL116) out of a total of almost 4,000 potential responses, suggesting fortuitous cross-reactivity with HCMV epitopes is uncommon. These data provide the first glimpse of the total human T cell response to a complex infectious agent, and will provide insight into the rules governing immunodominance and cross-reactivity in complex viral infections of humans.

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CD4+ T Cell Response to Factor VIII in Hemophilia A, Acquired Hemophilia, and Healthy Subjects

Thrombosis and Haemostasis ◽

10.1055/s-0037-1615873 ◽

1999 ◽

Vol 82 (08) ◽

pp. 509-515 ◽

Cited By ~ 45

Author(s):

M.T. Reding ◽

H. Wu ◽

M. Krampf ◽

D.K. Okita ◽

B.M. Diethelm-Okita ◽

...

Keyword(s):

T Cell ◽

Factor Viii ◽

Cell Response ◽

Normal Subjects ◽

T Cell Response ◽

Cd4 T Cell ◽

Acquired Hemophilia ◽

Cellular Mechanisms ◽

Inhibitor Development

IntroductionIn spite of the significant advances in the treatment of hemophilia over the last 30 years, the development of antibodies that neutralize the procoagulant activity of factor VIII (factor VIII inhibitors) remains a serious complication of treatment with factor VIII products. Recent prospective studies of previously untreated patients with severe hemophilia have reported the incidence of inhibitor development to be approximately 20% to 25%.1-11 Factor VIII inhibitors may also develop in individuals without congenital factor VIII deficiency. Acquired autoimmune hemophilia occurs with an incidence of 0.2 to 1.0 per 1,000,000 per year in the general population.12,13 In both congenital and acquired hemophilia, anti-factor VIII antibody inhibitors are significant contributors to the morbidity and mortality of those affected. As such, these cases present difficult therapeutic challenges.Much work over the last decade has focused on defining the epitopes on factor VIII to which inhibitor antibodies bind. While this work has clarified some of the mechanisms by which inhibitors neutralize the procoagulant function of factor VIII, our knowledge of the factor VIII-specific CD4+ T helper cells, whose activation is crucial for the synthesis of factor VIII inhibitors, remains quite limited. This review will, first, discuss how a better understanding of the cellular mechanisms involved in the immune response to factor VIII may lead to improved methods of long-term inhibitor suppression and, perhaps, even prevention of inhibitor development. Lastly, this review will describe the work in our laboratory that has begun to characterize the CD4+ T cell response to factor VIII in patients with hemophilia and in normal subjects.

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Adjuvanted H5N1 vaccine induces early CD4+ T cell response that predicts long-term persistence of protective antibody levels

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.0813390106 ◽

2009 ◽

Vol 106 (10) ◽

pp. 3877-3882 ◽

Cited By ~ 193

Author(s):

G. Galli ◽

D. Medini ◽

E. Borgogni ◽

L. Zedda ◽

M. Bardelli ◽

...

Keyword(s):

T Cell ◽

Cell Response ◽

T Cell Response ◽

Cd4 T Cell ◽

Protective Antibody ◽

Antibody Levels ◽

H5n1 Vaccine

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mRNA vaccine-induced SARS-CoV-2-specific T cells recognize B.1.1.7 and B.1.351 variants but differ in longevity and homing properties depending on prior infection status

10.1101/2021.05.12.443888 ◽

2021 ◽

Author(s):

Jason Neidleman ◽

Xiaoyu Luo ◽

Matthew McGregor ◽

Guorui Xie ◽

Victoria Murray ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Cell Response ◽

Vaccine Dose ◽

T Cell Response ◽

Immune Defense ◽

Cell Numbers ◽

Prior Infection

While mRNA vaccines are proving highly efficacious against SARS-CoV-2, it is important to determine how booster doses and prior infection influence the immune defense they elicit, and whether they protect against variants. Focusing on the T cell response, we conducted a longitudinal study of infection-naive and COVID-19 convalescent donors before vaccination and after their first and second vaccine doses, using a high-parameter CyTOF analysis to phenotype their SARS-CoV-2-specific T cells. Vaccine-elicited spike-specific T cells responded similarly to stimulation by spike epitopes from the ancestral, B.1.1.7 and B.1.351 variant strains, both in terms of cell numbers and phenotypes. In infection-naive individuals, the second dose boosted the quantity but not quality of the T cell response, while in convalescents the second dose helped neither. Spike-specific T cells from convalescent vaccinees differed strikingly from those of infection-naive vaccinees, with phenotypic features suggesting superior long-term persistence and ability to home to the respiratory tract including the nasopharynx. These results provide reassurance that vaccine-elicited T cells respond robustly to the B.1.1.7 and B.1.351 variants, confirm that convalescents may not need a second vaccine dose, and suggest that vaccinated convalescents may have more persistent nasopharynx-homing SARS-CoV-2-specific T cells compared to their infection-naive counterparts.

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Assessment of T-cell immunity to SARS-CoV-2 in COVID-19 convalescents and vaccinated subjects, using TigraTest® SARS-CoV-2 ELISPOT kit

BIOpreparations Prevention Diagnosis Treatment ◽

10.30895/2221-996x-2021-21-3-178-192 ◽

2021 ◽

Vol 21 (3) ◽

pp. 178-192

Author(s):

D. A. Poteryaev ◽

S. G. Abbasova ◽

P. E. Ignatyeva ◽

O. M. Strizhakova ◽

S. V. Kolesnik ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Peripheral Blood ◽

Cell Response ◽

Human Peripheral Blood ◽

T Cell Response ◽

T Cell Immunity ◽

Cell Immunity

With the onset of the COVID-19 pandemic, a number of molecular-based tests have been developed to diagnose SARS-CoV-2 infection. However, numerous available serological tests lack sufficient sensitivity or specificity. They do not detect specific antibodies in a significant proportion of patients with PCR-confirmed COVID-19. There is evidence that some convalescents have a relatively short-lived humoral immunity. In contrast, a number of publications have shown that T-cell response to human coronaviruses, including SARS-CoV-1, MERS, and SARS-CoV-2, can be strong and long-term. Assessment of T-cell immunity to SARS-CoV-2 is important not only for stratification of risks and identification of potentially protected populations with immunity acquired as a result of previous infection, but also for determining immunogenicity and potential efficacy of vaccines under development. The existing methods of quantitative or semi-quantitative assessment of specific T-cell response are mainly used in scientific research and are not standardised. The aim of the study was to develop and verify experimentally a test kit to be used in a standardised procedure for in vitro determination of T-cells specific to SARS-CoV-2 antigens, in human peripheral blood. Materials and methods: the TigraTest® SARS-CoV-2 kit developed by GENERIUM, which determines the number of T-cells secreting interferon gamma in vitro, was tested in the study. Samples of venous blood of volunteers from three different groups were analysed in the study: presumably healthy volunteers; COVID-19 convalescents; individuals vaccinated against SARS-CoV-2. Results: the authors developed the TigraTest® SARS-CoV-2 kit for in vitro determination of T-cells specific to SARS-CoV-2 antigens in human peripheral blood, demonstrated its specificity and performed preliminary assessment of its sensitivity. The study analysed the range and magnitude of the T-cell response in convalescent and vaccinated individuals. A pronounced T-cell response was also shown in some individuals with no symptoms or with unconfirmed diagnosis. It was discovered that the mean T-cell response to peptides of the spike protein (S-protein) was higher in the vaccinated individuals than in the convalescent patients. A correlation was determined between the severity of the disease and the level of T-cell response. Specific contributions of various groups of antigens to the T-cell response after COVID-19 infection were also determined. Conclusions: the TigraTest® SARS-CoV-2 kit is a specific and sensitive tool for the assessment of T-cell immunity to the SARS-CoV-2 virus, which can also be used for vaccinated individuals. The kit may be used in clinical practice for comprehensive assessment of immunity to SARS-CoV-2.

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CYTOGENETIC OBSERVATIONS IN CHILDREN WITH NEUROBLASTOMA

PEDIATRICS ◽

10.1542/peds.47.5.839 ◽

1971 ◽

Vol 47 (5) ◽

pp. 839-843

Author(s):

Theresa Wakonig-Vaartaja ◽

Lawrence Helson ◽

Ann Baren ◽

Leopold G. Koss ◽

M. Lois Murphy

Keyword(s):

Bone Marrow ◽

Peripheral Blood ◽

Chromosomal Abnormalities ◽

Peripheral Blood Lymphocytes ◽

Tumor Formation ◽

Long Term Effects ◽

Cytogenetic Studies ◽

Long Term Survivors ◽

Active Disease

Cytogenetic studies were performed on 21 children with neuroblastoma. Increased numbers of abnormal metaphases were observed in pretreatment samples of peripheral blood and bone marrow. Three bone marrows infiltrated with extrinsic cells had heteroploid cell lines with consistent marker chromosomes. Long-term survivors without evidence of active disease had chromosomal abnormalities in peripheral blood lymphocytes. These findings evoke questions concerning prognosis, tumor formation, and long-term effects of radiotherapy.

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