Shahriar Behboudi scite author profile

Marek’s disease (MD), caused by Marek’s disease virus (MDV), is a commercially important neoplastic disease of poultry which is only controlled by mass vaccination. Importantly, vaccines that can provide sterile immunity and inhibit virus transmission are lacking; such that vaccines are only capable of preventing neuropathy, oncogenic disease and immunosuppression, but are unable to prevent MDV transmission or infection, leading to emergence of increasingly virulent pathotypes. Hence, to address these issues, developing more efficacious vaccines that induce sterile immunity have become one of the important research goals for avian immunologists today. MDV shares very close genomic functional and structural characteristics to most mammalian herpes viruses such as herpes simplex virus (HSV). MD also provides an excellent T cell lymphoma model for gaining insights into other herpesvirus-induced oncogenesis in mammals and birds. For these reasons, we need to develop an in-depth knowledge and understanding of the host-viral interaction and host immunity against MD. Similarly, the underlying genetic variation within different chicken lines has a major impact on the outcome of infection. In this review article, we aim to investigate the pathogenesis of MDV infection, host immunity to MD and discuss areas of research that need to be further explored.

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Unmasking of α-Fetoprotein-Specific CD4+ T Cell Responses in Hepatocellular Carcinoma Patients Undergoing Embolization

Ayaru

et al. 2007

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Necrosis of tumor cells can activate both innate and adaptive antitumor immunity. However, there is little information on the effects of necrosis-inducing cancer treatments on tumor-specific T cell immune responses in humans. We studied the effects of a necrosis-inducing treatment (embolization) on anti-α-fetoprotein (AFP)-specific CD4+ T cell responses in hepatocellular carcinoma (HCC) patients and controls using an array of AFP-derived peptides. In this study, we show that AFP-specific CD4+ T cell responses to three immunodominant epitopes in HCC patients were significantly expanded during (p < 0.0001) and after embolization (p < 0.002). The development of higher frequencies of AFP-specific CD4+ T cells after treatment were significantly associated with the induction of >50% necrosis of tumor and an improved clinical outcome (p < 0.007). In addition, we identified two novel HLA-DR-restricted AFP-derived CD4+ T cell epitopes (AFP137–145 and AFP249–258) and showed that the CD4+ T cells recognizing these epitopes produce Th1 (IFN-γ and TNF-α) but not Th2 (IL-5)-type cytokines. AFP137–145-, AFP249–258-, and AFP364–373-specific CD4+ T cells were detected in HCC patients but not in patients with chronic liver diseases or healthy donors. In conclusion; our study shows that induction of tumor necrosis by a conventional cancer treatment can unmask tumor rejection Ag cell-mediated immunity and provides a rationale for combining embolization with immunotherapy in HCC patients.

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Protective Immunity againstMycobacterium tuberculosisInduced by Dendritic Cells Pulsed with both CD8⁺- and CD4⁺-T-Cell Epitopes from Antigen 85A

et al. 2002

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Immunization with DNA followed by modified vaccinia virus Ankara strain, both expressing the antigen 85A, induced both CD4+- and CD8+-T-cell responses in BALB/c mice. Following challenge with Mycobacterium tuberculosis, this prime-boost regimen produced protection equivalent to that conferred by Mycobacterium bovis BCG. Following immunization with dendritic cells pulsed with an antigen 85A CD4+- or CD8+-restricted epitope, alone or in combination, copresentation of both epitopes on the same dendritic cell was required for protection, demonstrating that induced CD8+ T cells can play a protective role against tuberculosis

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α-Fetoprotein Impairs APC Function and Induces Their Apoptosis

Mulhall

Alisa

et al. 2004

104

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α-Fetoprotein (AFP) is a tumor-associated Ag, and its serum level is elevated in patients with hepatocellular carcinoma (HCC). In vitro, AFP induces functional impairment of dendritic cells (DCs). This was demonstrated by the down-regulation of CD40 and CD86 molecules and the impairment of allostimulatory function. Also, AFP was found to induce significant apoptosis of DCs, and AFP-treated DCs produced low levels of IL-12 and TNF-α, a cytokine pattern that could hamper an efficient antitumor immune response. Ex vivo, APCs of patients with HCC and high levels of AFP produced lower levels of TNF-α than that of healthy individuals. In conclusion, these results illustrate that AFP induces dysfunction and apoptosis of APCs, thereby offering a mechanism by which HCC escapes immunological control.

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