Enhancement of Human Melanoma Antigen Expression by IFN-β

Dunn, Ian S.; Haggerty, Timothy J.; Kono, Michihiro; Durda, Paul J.; Butera, David; Macdonald, D. Blair; Benson, Elizabeth M.; Rose, Lenora B.; Kurnick, James T.

doi:10.4049/jimmunol.179.4.2134

Cited by 25 publications

(36 citation statements)

References 51 publications

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“…More recently, these discoveries were characterized by Dunn et al, who showed that IFN-b simultaneously augments TAAs (e.g., Melan-A/MART-1, gp100 and MAGE-A1) and HLA-class-I thus increasing the likelihood of improved immune recognition and cytotoxic killing of tumor targets, respectively. 64 The EMT is a process by which epithelial cells lose their polarization and cell-cell contacts and undergo remarkable morphologic changes switching from an epithelial cobblestone phenotype to an elongated fibroblastic phenotype. 65 The EMT provides for the evolution of cancer cells to the metastatic phenotype and contributes to their invasiveness, stemness and drug resistance.…”

Section: Cancer-intrinsic Effects Of Type-i-ifnsmentioning

confidence: 99%

Type-I-interferons in infection and cancer: Unanticipated dynamics with therapeutic implications

et al. 2017

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If there is a great new hope in the treatment of cancer, the immune system is it. Innate and adaptive immunity either promote or attenuate tumorigenesis and so can have opposing effects on the therapeutic outcome. Originally described as potent antivirals, Type-I interferons (IFNs) were quickly recognized as central coordinators of tumor-immune system interactions. Type-I-IFNs are produced by, and act on, both tumor and immune cells being either host-protecting or tumor-promoting. Here, we discuss Type-I-IFNs in infectious and cancer diseases highlighting their dichotomous role and raising the importance to deeply understand the underlying mechanisms so to reshape the way we can exploit Type-I-IFNs therapeutically.

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Section: Cancer-intrinsic Effects Of Type-i-ifnsmentioning

confidence: 99%

Type-I-interferons in infection and cancer: Unanticipated dynamics with therapeutic implications

et al. 2017

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“…Previous experience has suggested that a 3 day treatment period would be suitable for evaluation of antigen-enhancing effects of either small molecules or protein mediators, [25][26][27] and this time frame was also validated with the IL-2 assay coculture assay. 27 We chose to use a concentration of 10 mM for library screening.…”

Section: Assay Implementationmentioning

confidence: 99%

“…26 Since the transduced TCR used in the responding J-TCR-M1 cells is restricted by HLA-A2, the tumor cells were of necessity HLA-A2+ . We evaluated several candidate melanoma cell lines for the ability to stimulate the J-TCR-M1 cell line.…”

Section: Melanoma Stimulator Cell Linementioning

confidence: 99%

“…Also, previous experience has shown that promoter enhancement is indeed a common feature of known antigen upregulators, from small molecules to proteins. [25][26][27] The seven hits (excluding PMA) from the primary screen were evaluated over a dose range as shown in Figure 7. Again, the hits separated into three groups based on these results.…”

Section: ‰ Enhancing T Cell Recognition Of Melanomamentioning

confidence: 99%

“…18,19 Such changes leave the relevant coding sequences intact and are, in principle, reversible. We, and others, have identified small molecules (such as MEK and B-raf inhibitors 25 ) and cytokines (such as interferon-beta [IFN-beta] 26 )…”

Section: Introductionmentioning

confidence: 99%

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A Screening Assay to Identify Agents That Enhance T-Cell Recognition of Human Melanomas

Haggerty

Dunn

Rose

et al. 2012

ASSAY and Drug Development Technologies

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Although a series of melanoma differentiation antigens for immunotherapeutic targeting has been described, heterogeneous expression of antigens such as Melan-A/MART-1 and gp100 results from a loss of antigenic expression in many late stage tumors. Antigen loss can represent a means for tumor escape from immune recognition, and a barrier to immunotherapy. However, since antigen-negative tumor phenotypes frequently result from reversible gene regulatory events, antigen enhancement represents a potential therapeutic opportunity. Accordingly, we have developed a cell-based assay to screen for compounds with the ability to enhance T-cell recognition of melanoma cells. This assay is dependent on augmentation of MelanA/MART-1 antigen presentation by a melanoma cell line (MU89). T-cell recognition is detected as interleukin-2 production by a Jurkat T cell transduced to express a T-cell receptor specific for an HLA-A2 restricted epitope of the Melan-A/MART-1 protein. This cellular assay was used to perform a pilot screen by using 480 compounds of known biological activity. From the initial proof-ofprinciple primary screen, eight compounds were identified as positive hits. A panel of secondary screens, including orthogonal assays, was used to validate the primary hits and eliminate false positives, and also to measure the comparative efficacy of the identified compounds. This cell-based assay, thus, yields consistent results applicable to the screening of larger libraries of compounds that can potentially reveal novel molecules which allow better recognition of treated tumors by T cells.

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A Dual Role of Type I Interferons in Antitumor Immunity

et al. 2020

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activation, cell growth, and apoptosis. [2] IFNs can be classified into type I, type II, and type III IFNs according to their chromosomal localization and receptor specificity. IFN-Is include 17 different proteins composed of IFN-β, IFNε, IFNκ, IFNω, and 13 subtypes of IFNα. These genes are all located on the short arm of chromosome 9, of which IFNα and IFN-β play a crucial role in innate and adaptive immunity against viruses. [3] Type II IFN family has a sole member IFN-γ, and locates on chromosome 12. [4] It is mainly produced by T cells and has a key role in adaptive immunity. [4] Type III IFNs is a new family of IFNs, consisting of four members, IFN-λ1,-λ2,-λ3, and-λ4. All these genes are closely positioned on chromosome 19. [5] IFN-λs also have antiviral activity and they are key determinants of innate immunity at mucosal sites. [5] Although initially described for their antiviral functions, all types of IFNs have been shown considerable potency in promoting antitumor functions in vivo. [5,6] In 1967 Gresser et al. first reported that the repeated administration of interferon preparations delayed the evolution of friend leukemia in mice; [7] and in the next year he got the similar results in Rauscher leukemia. [8] Later on, they found murine interferon preparations significant prolonged the survival of the mice implanted with viral particles-presented tumor cells. [9] IFN-Is were then purified and used in clinical trials and the subsequent results further confirmed their sustained antitumor effects in a diversity of hematological malignancies and metastatic solid tumors. [10] Moreover, recombinant IFNα2 became the first human immunotherapeutic approved by the US Food and Drug Administration (FDA) for cancer. [11] However, recent findings suggested that IFN-Is also played a negative role in antitumor immunity. Prolonged IFN-I signaling could lead to immune dysfunction and cause adaptive resistance. [6] Therefore, it is important to know the appropriate conditions that IFN-Is could be used in clinical to avoid unwanted consequences. In this review, we focus on the dual functions of IFN-Is on antitumor immune responses and discuss in detail the underlying mechanisms. 2. IFN-Is Production and Transduction IFN-Is are induced following activation of pattern recognition receptors (PRRs), including retinoic-acid-inducible Type I interferons (IFN-Is) are a family of cytokines that exert direct antiviral effects and regulate innate and adaptive immune responses through direct and indirect mechanisms. It is generally believed that IFN-Is repress tumor development via restricting tumor proliferation and inducing antitumor immune responses. However, recent emerging evidence suggests that IFN-Is play a dual role in antitumor immunity. That is, in the early stage of tumorigenesis, IFN-Is promote the antitumor immune response by enhancing antigen presentation in antigen-presenting cells and activating CD8 + T cells. However, in the late stage of tumor progression, persistent expression of IFN-Is induces the expression of im...

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Enhancement of Human Melanoma Antigen Expression by IFN-β

Cited by 25 publications

References 51 publications

Type-I-interferons in infection and cancer: Unanticipated dynamics with therapeutic implications

Type-I-interferons in infection and cancer: Unanticipated dynamics with therapeutic implications

A Screening Assay to Identify Agents That Enhance T-Cell Recognition of Human Melanomas

A Dual Role of Type I Interferons in Antitumor Immunity

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