L'expression de la protéine de l'hémochromatose HFE est modulée par les lymphocytes T activés et inhibe la présentation antigénique par MHC I

La présentation antigénique par le complexe majeur d’histocompatibilité (MHC) I est un processus ubiquitaire permettant la présentation de protéines endogènes qui reflètent l'état de la cellule à la surface cellulaire aux lymphocytes T CD8+ dans le contexte de la surveillance et la réponse immunitaires. Ainsi, l'expression des molécules du MHC I classiques est induite en réponse aux stimuli inflammatoires afin de favoriser la reconnaissance immunitaire et l'élimination des pathogènes. HFE est une molécule du MHC Ib non-classique qui sert de régulateur négatif de l'absorption du fer. HFE est associé au développement de l'hémochromatose héréditaire (HH), maladie associée au métabolisme du fer mais souvent accompagnée de défauts immunitaires. Ainsi, nous avons en premier lieu étudié l'impact de HFE sur la présentation antigénique par MHC I, afin d'expliquer en partie les défauts immunitaires liés à l'HH associée à HFEC282Y. Puis, compte tenu de l'impact de l'inflammation sur l'expression des molécules du MHC I classiques, nous avons étudié la régulation de l'expression de HFE en réponse aux stimuli inflammatoires induits par les cellules du sang périphérique mononucléées (PBMC). Nous avons mis au point un système d’expression antigénique dans lequel nous contrôlons l’expression de MHC I, de HFE et d’un antigène pour lequel nous avons généré des lymphocytes T CD8+ spécifiques. Nos résultats démontrent que la forme sauvage de HFE (HFEWT), contrairement à sa forme mutée (HFEC282Y), inhibe la reconnaissance de complexes MHC I/peptide (pMHC). Nous avons également démontré que l'inhibition de la reconnaissance est maintenue, indépendamment des niveaux d'expression de MHC I à la surface, d'une compétition pour la β2-microglobuline, de la capacité de HFE d'interagir avec le récepteur de la transferrine, de l'origine de l'antigène ou de l'affinité de celui-ci. Par ailleurs, nous avons identifié les domaines α1-2 de HFEWT comme étant responsables de l'inhibition de la reconnaissance antigénique. Par contre, la reconnaissance de peptides chargés de manière externe sur les molécules du MHC I présentes à la surface n'a démontré aucune inhibition en présence de HFEWT, suggérant que HFEWT pourrait affecter la reconnaissance en interférant avec le processus d'apprêtement antigénique intracellulaire. À l’inverse, nous avons souhaité déterminer si les lymphocytes T activés pouvaient influencer les niveaux d'expression de HFE. En termes de régulation de l'expression de HFE, nous avons établi que HFE est exprimé dans les tissus sains chez l'humain et induit chez les lignées de cancers du colon, du sein, du poumon, du rein et du mélanome. Par ailleurs, en co-cultivant des lymphocytes T activés avec ces lignées tumorales, nous avons démontré que l'expression de HFE est fortement inhibée dans toutes ces lignées tumorales lorsqu'exposées à des lymphocytes T activés. Finalement, la modulation de l'expression de HFE est indépendante du contact cellulaire et semble médiée en partie par le GM-CSF, l'IFN-γ et le TNF. En somme, ces résultats suggèrent que les lymphocytes T de l'hôte modulent l'expression de HFE dans le microenvironnement inflammatoire, ce qui pourrait promouvoir la reconnaissance des antigènes présentés sur les molécules du MHC I présentées aux lymphocytes T CD8+ antigène-spécifiques. De plus, ces études soulèvent la possibilité d'un nouveau rôle physiologique de HFEWT dans la voie de présentation antigénique par MHC I, qui pourrait moduler l'immunogénicité des antigènes et la réponse immunitaire cellulaire chez l'hôte.MHC class I antigen presentation is an ubiquitous process by which cells present endogenous proteins to CD8+ T lymphocytes during immune surveillance and response. Accordingly, classical MHC I molecules are up-regulated in response to inflammatory stimuli to favor immune recognition and pathogen clearance. HFE is a non-classical, MHC Ib molecule which acts as a negative regulator of iron absorption. HFE has been linked to the development of hereditary hemochromatosis (HH), an iron overload disease often associated to immune defects. Firstly, we studied the impact of HFE expression on MHC I antigen presentation, as a hypothesis for HH-associated immunological defects observed in HFEC282Y-mutated HH patients. Secondly, we evaluated whether, like its classical MHC I counterparts, HFE expression could be modulated in response to peripheral blood mononuclear cell (PBMC) inflammation. We developed an antigen presentation system in which we control MHC I expression, HFE expression, and expression of a model antigen for which we have generated antigen-specific CD8+ T lymphocytes. Our results demonstrate that wild-type HFE (HFEWT), but not C282Y-mutated HFE (HFEC282Y), inhibits recognition of MHC I antigens. We further demonstrate that inhibition of antigen recognition is maintained regardless of MHC I surface levels, β2-microglobulin competition, HFE ability to interact with transferrin receptor, antigen origin, or epitope affinity. We identified the α1-2 domains of HFEWT as being responsible for inhibiting antigen recognition. However, recognition of externally peptide-pulsed 293-A2 remained uninhibited in presence of HFEWT, indicating that HFE may affect T cell recognition by interfering with intracellular antigen processing. We also questioned whether activated T lymphocytes may influence HFE expression. We established that HFE is widely expressed in healthy human tissues and induced in colon cancer, breast cancer, lung cancer, kidney cancer and melanoma cell lines. Furthermore, HFE mRNA expression was drastically inhibited in all tumor cell lines when exposed to activated T lymphocytes. Down-regulation of HFE mRNA expression was independent of cell contact and appears to be partially mediated by GM-CSF, IFN-γ, and TNF. Overall, these data suggest that host T lymphocytes may alter HFE expression levels in the inflammatory microenvironment, which could, in turn, promote recognition of MHC I antigens presented to antigen-specific CD8+ T lymphocytes. Accordingly, this could suggest a new physiological role for HFEWT in the MHC I antigen presentation pathway, which could modulate antigen immunogenicity and the cellular immune response

Achieving Universal Access for Human Immunodeficiency Virus and Tuberculosis: Potential Prevention Impact of an Integrated Multi-Disease Prevention Campaign in Kenya

In 2009, Government of Kenya with key stakeholders implemented an integrated multi-disease prevention campaign for water-borne diseases, malaria and HIV in Kisii District, Nyanza Province. The three day campaign, targeting 5000 people, included testing and counseling (HTC), condoms, long-lasting insecticide-treated bednets, and water filters. People with HIV were offered on-site CD4 cell counts, condoms, co-trimoxazole, and HIV clinic referral. We analysed the CD4 distributions from a district hospital cohort, campaign participants and from the 2007 Kenya Aids Indicator Survey (KAIS). Of the 5198 individuals participating in the campaign, all received HTC, 329 (6.3%) tested positive, and 255 (5%) were newly diagnosed (median CD4 cell count 536 cells/μL). The hospital cohort and KAIS results included 1,284 initial CD4 counts (median 348/L) and 306 initial CD4 counts (median 550/μL), respectively (campaign and KAIS CD4 distributions P = 0.346; hospital cohort distribution was lower P < 0.001 and P < 0.001). A Nyanza Province campaign strategy including ART <350 CD4 cell count could avert approximately 35,000 HIV infections and 1,240 TB cases annually. Community-based integrated public health campaigns could be a potential solution to reach universal access and Millennium Development Goals

Combining targeted therapy and immune checkpoint inhibitors in the treatment of metastatic melanoma

Melanoma is the deadliest form of skin cancer and has an incidence that is rising faster than any other solid tumor. Metastatic melanoma treatment has considerably progressed in the past five years with the introduction of targeted therapy (BRAF and MEK inhibitors) and immune checkpoint blockade (anti-CTLA4, anti-PD-1, and anti-PD-L1). However, each treatment modality has limitations. Treatment with targeted therapy has been associated with a high response rate, but with short-term responses. Conversely, treatment with immune checkpoint blockade has a lower response rate, but with long-term responses. Targeted therapy affects antitumor immunity, and synergy may exist when targeted therapy is combined with immunotherapy. This article presents a brief review of the rationale and evidence for the potential synergy between targeted therapy and immune checkpoint blockade. Challenges and directions for future studies are also proposed

T cell receptor engineering targeting FOXM1 for the treatment of lung cancer

https://openworks.mdanderson.org/sumexp23/1069/thumbnail.jp

Novel initiator caspase reporters uncover previously unknown features of caspase-activating cells

This work was supported by Cancer Research UK (C49979/A17516) and the John Fell Fund, University of Oxford (162/001). L.A.B.-L. is a CRUK Career Development Fellow (C49979/A17516) and an Oriel College, University of Oxford, Hayward Fellow. L.A. is a PhD student supported by the Edward Penley Abraham Research Fund. M.B. is supported by Biotechnology and Biological Sciences Research Council (BB/M021084/1). J-P.V. and C.A. are supported by a European Research Council grant (WNTEXPORT; 294523) and the Medical Research Council (MRC U117584268).The caspase-mediated regulation of many cellular processes, including apoptosis, justifies the substantial interest in understanding all of the biological features of these enzymes. To complement functional assays, it is crucial to identify caspase-activating cells in live tissues. Our work describes novel initiator caspase reporters that, for the first time, provide direct information concerning the initial steps of the caspase activation cascade in Drosophila tissues. One of our caspase sensors capitalises on the rapid subcellular localisation change of a fluorescent marker to uncover novel cellular apoptotic events relating to the actin-mediated positioning of the nucleus before cell delamination. The other construct benefits from caspase-induced nuclear translocation of a QF transcription factor. This feature enables the genetic manipulation of caspase-activating cells and reveals the spatiotemporal patterns of initiator caspase activity. Collectively, our sensors offer experimental opportunities not available by using previous reporters and have proven useful to illuminate previously unknown aspects of caspase-dependent processes in apoptotic and non-apoptotic cellular scenarios.Publisher PDFPeer reviewe

Network analysis identifies proinflammatory plasma cell polarization for secretion of ISG15 in human autoimmunity

Plasma cells (PCs) as effectors of humoral immunity produce Igs to match pathogenic insult. Emerging data suggest more diverse roles exist for PCs as regulators of immune and inflammatory responses via secretion of factors other than Igs. The extent to which such responses are preprogrammed in B-lineage cells or can be induced in PCs by the microenvironment is unknown. In this study, we dissect the impact of IFNs on the regulatory networks of human PCs. We show that core PC programs are unaffected, whereas PCs respond to IFNs with distinctive transcriptional responses. The IFN-stimulated gene 15 (ISG15) system emerges as a major transcriptional output induced in a sustained fashion by IFN-α in PCs and linked both to intracellular conjugation and ISG15 secretion. This leads to the identification of ISG15-secreting plasmablasts/PCs in patients with active systemic lupus erythematosus. Thus, ISG15-secreting PCs represent a distinct proinflammatory PC subset providing an Ig-independent mechanism of PC action in human autoimmunity

Evolution of DNA methylome from precancerous lesions to invasive lung adenocarcinomas

The evolution of DNA methylome and methylation intra-tumor heterogeneity (ITH) during early carcinogenesis of lung adenocarcinoma has not been systematically studied. We perform reduced representation bisulfite sequencing of invasive lung adenocarcinoma and its precursors, atypical adenomatous hyperplasia, adenocarcinoma in situ and minimally invasive adenocarcinoma. We observe gradual increase of methylation aberrations and significantly higher level of methylation ITH in later-stage lesions. The phylogenetic patterns inferred from methylation aberrations resemble those based on somatic mutations suggesting parallel methylation and genetic evolution. De-convolution reveal higher ratio of T regulatory cells (Tregs) versus CD8 + T cells in later-stage diseases, implying progressive immunosuppression with neoplastic progression. Furthermore, increased global hypomethylation is associated with higher mutation burden, copy number variation burden and AI burden as well as higher Treg/CD8 ratio, highlighting the potential impact of methylation on chromosomal instability, mutagenesis and tumor immune microenvironment during early carcinogenesis of lung adenocarcinomas

Shared Nearest Neighbors Approach and Interactive Browser for Network Analysis of a Comprehensive Non-Small-Cell Lung Cancer Data Set

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Short-term treatment with multi-drug regimens combining BRAF/MEK-targeted therapy and immunotherapy results in durable responses in Braf-mutated melanoma

Targeted and immunotherapy regimens have revolutionized the treatment of advanced melanoma patients. Despite this, only a subset of patients respond durably. Recently, combination strategies of BRAF/MEK inhibitors with immune checkpoint inhibitor monotherapy (α-CTLA-4 or α-PD-1) have increased the rate of durable responses. Based on evidence from our group and others, these therapies appear synergistic, but at the cost of significant toxicity. We know from other treatment paradigms (e.g. hematologic malignancies) that combination strategies with multi-drug regimens (\u3e4 drugs) are associated with more durable disease control. To better understand the mechanism of these improved outcomes, and to identify and prioritize new strategies for testing, we studied several multi-drug regimens combining BRAF/MEK targeted therapy and immunotherapy combinations in a Braf-mutant murine melanoma model (BrafV600E/Pten−/−). Short-term treatment with α-PD-1 and α-CTLA-4 monotherapies were relatively ineffective, while treatment with α-OX40 demonstrated some efficacy [17% of mice with no evidence of disease, (NED), at 60-days]. Outcomes were improved in the combined α-OX40/α-PD-1 group (42% NED). Short-term treatment with quadruplet therapy of immunotherapy doublets in combination with targeted therapy [dabrafenib and trametinib (DT)] was associated with excellent tumor control, with 100% of mice having NED after combined DT/α-CTLA-4/α-PD-1 or DT/α-OX40/α-PD-1. Notably, tumors from mice in these groups demonstrated a high proportion of effector memory T cells, and immunologic memory was maintained with tumor re-challenge. Together, these data provide important evidence regarding the potential utility of multi-drug therapy in treating advanced melanoma and suggest these models can be used to guide and prioritize combinatorial treatment strategies

Immune evolution from preneoplasia to invasive lung adenocarcinomas and underlying molecular features

The mechanism by which anti-cancer immunity shapes early carcinogenesis of lung adenocarcinoma (ADC) is unknown. In this study, we characterize the immune contexture of invasive lung ADC and its precursors by transcriptomic immune profiling, T cell receptor (TCR) sequencing and multiplex immunofluorescence (mIF). Our results demonstrate that anti-tumor immunity evolved as a continuum from lung preneoplasia, to preinvasive ADC, minimally-invasive ADC and frankly invasive lung ADC with a gradually less effective and more intensively regulated immune response including down-regulation of immune-activation pathways, up-regulation of immunosuppressive pathways, lower infiltration of cytotoxic T cells (CTLs) and anti-tumor helper T cells (Th), higher infiltration of regulatory T cells (Tregs), decreased T cell clonality, and lower frequencies of top T cell clones in later-stages. Driver mutations, chromosomal copy number aberrations (CNAs) and aberrant DNA methylation may collectively impinge host immune responses and facilitate immune evasion, promoting the outgrowth of fit subclones in preneoplasia into dominant clones in invasive ADC