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  • 1.
    Backman, Max
    et al.
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    La Fleur, Linnea
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Kurppa, Pinja
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Djureinovic, Dijana
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Elfving, Hedvig
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Brunnström, Hans
    Division of Pathology, Lund University, Skåne University Hospital, Lund, Sweden.
    Mattsson, Johanna Sofia Margareta
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Pontén, Victor
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Eltahir, Mohamed
    Department of Pharmaceutical Bioscience, Uppsala University, Uppsala, Sweden.
    Mangsbo, Sara
    Department of Pharmaceutical Bioscience, Uppsala University, Uppsala, Sweden.
    Isaksson, Johan
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden; Dept. of Respiratory Medicine, Gävle Hospital, Gävle, Sweden..
    Jirström, Karin
    Division of Pathology, Lund University, Skåne University Hospital, Lund, Sweden.
    Kärre, Klas
    Department of Microbiology, Cell and Tumor Biology (MTC), Karolinska Institutet, Stockholm, Sweden..
    Carbone, Ennio
    Department of Microbiology, Cell and Tumor Biology (MTC), Karolinska Institutet, Stockholm, Sweden; Tumor Immunology and Immunopathology Laboratory, Dept. of Experimental and Clinical Medicine, University Magna Graecia of Catanzaro, Catanzaro, Italy..
    Leandersson, Karin
    Cancer Immunology, Dept. of Translational Medicine, Lund University, Skånes University Hospital, Malmö, Sweden.
    Mezheyeuski, Artur
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Pontén, Fredrik
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Lindskog, Cecilia
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Botling, Johan
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Micke, Patrick
    Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
    Extending the immune phenotypes of lung cancer: Oasis in the desertManuskript (preprint) (Annet vitenskapelig)
    Abstract [en]

    Introduction: Tumor infiltrating immune cells are key elements of the tumor microenvironment and mediate the anti-tumor effects of immunotherapy. The aim of the study was to characterize patterns of immune cell infiltration in non-small cell lung cancer (NSCLC) in relation to tumor mutations and clinicopathological parameters. 

    Methods: Lymphocytes (CD4+, CD8+, CD20+, FOXP3+, CD45RO+), macrophages (CD163+), plasma cells (CD138+), NK cells (NKp46+) and PD-L1+ were annotated on a tissue microarray including 357 operated NSCLC cases. Somatic mutations and tumor mutational burden were analyzed by targeted sequencing for 82 genes, and transcriptomic immune patterns were established in 197 patients based on RNAseq data. 

    Results: We identified somatic mutations (TP53, NF1, KEAP1, CSMD3, LRP1B) that correlated with specific immune cell infiltrates. Hierarchical clustering revealed four immune classes: with (1) high immune cell infiltration (“inflamed”), (2) low immune cell infiltration (“desert”), (3) a mixed phenotype, and (4) a new phenotype with an overall muted inflammatory cell pattern but with an imprint of NK and plasma cells. This latter class exhibited low expression of immune response-related genes (e.g. CXCL9, GZMB, INFG, TGFB1), but was linked to better survival and therefore designated “oasis”. Otherwise, the four immune classes were not related to the presence of specific mutations (EGFR, KRAS, TP53) or histologic subtypes. 

    Conclusion: We present a compartment-specific immune cell analysis in the context of the molecular and clinical background of NSCLC and identified the novel immune class “oasis”. The immune classification helps to better define the immunogenic potency of NSCLC in the era of immunotherapy. 

  • 2.
    Elfving, Hedvig
    et al.
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Mattsson, Johanna Sofia Margareta
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Lindskog, Cecilia
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Backman, Max
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Menzel, Uwe
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Micke, Patrick
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Programmed Cell Death Ligand 1 Immunohistochemistry: A Concordance Study Between Surgical Specimen, Biopsy, and Tissue Microarray2019Inngår i: Clinical Lung Cancer, ISSN 1525-7304, E-ISSN 1938-0690, Vol. 20, nr 4, s. 258-262.e1Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Programmed cell death ligand 1 (PD-L1) expression within the same lung cancer tissue is variable. In this study we evaluated if the PD-L1 expression on small biopsy specimens represent the PD-L1 status of the corresponding resection specimen. Our results indicate a relative good agreement between biopsy and surgical specimens, with a discordance in approximately 10% of the cases. Background: The immunohistochemical analysis of programmed cell death ligand 1 (PD-L1) expression in tumor tissue of non-small-cell lung cancer patients has now been integrated in the diagnostic workup. Analysis is commonly done on small tissue biopsy samples representing a minimal fraction of the whole tumor. The aim of the study was to evaluate the correlation of PD-L1 expression on biopsy specimens with corresponding resection specimens. Materials and Methods: In total, 58 consecutive cases with preoperative biopsy and resected tumor specimens were selected. From each resection specimen 2 tumor cores were compiled into a tissue microarray (TMA). Immunohistochemical staining with the antibody SP263 was performed on biopsy specimens, resection specimens (whole sections), as well as on the TMA. Results: The proportion of PD-L1-positive stainings were comparable between the resection specimens (48% and 19%), the biopsies (43% and 17%), and the TMAs (47% and 14%), using cutoffs of 1% and 50%, respectively (P > .39 all comparisons). When the resection specimens were considered as reference, PD-L1 status differed in 16%/5% for biopsies and in 9%/9% for TMAs (1%/50% cutoff). The sensitivity of the biopsy analysis was 79%/82% and the specificity was 90%/98% at the 1%/50% cutoff. The Cohens kappa value for the agreement between biopsy and tumor. was 0.70 at the 1% cutoff and 0.83 at the 50% cutoff. Conclusion: The results indicate a moderate concordance between the analysis of biopsy and whole tumor tissue, resulting in misclassification of samples in particular when the lower 1% cutoff was used. Clinicians should be aware of this uncertainty when interpreting PD-L1 reports for treatment decisions.

  • 3.
    Miyashita, Naoya
    et al.
    Univ Tokyo, Grad Sch Med, Dept Resp Med, Tokyo, Japan.
    Horie, Masafumi
    Univ Tokyo, Grad Sch Med, Dept Resp Med, Tokyo, Japan;Univ Southern Calif, Hastings Ctr Pulm Res, Div Pulm Crit Care & Sleep Med, Dept Med,Keck Sch Med, Los Angeles, CA USA;RIKEN Ctr Life Sci Technol, Div Genom Technol, Yokohama, Kanagawa, Japan.
    Suzuki, Hiroshi I.
    MIT, David H Koch Inst Integrat Canc Res, 77 Massachusetts Ave, Cambridge, MA 02139 USA.
    Yoshihara, Masahito
    RIKEN Ctr Life Sci Technol, Div Genom Technol, Yokohama, Kanagawa, Japan.
    Djureinovic, Dijana
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Persson, Johan
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi.
    Brunnstrom, Hans
    Lund Univ, Lab Med Reg Skane, Dept Clin Sci Lund, Pathol, Lund, Sweden.
    Lindskog, Cecilia
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Elfving, Hedvig
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Micke, Patrick
    Uppsala universitet, Medicinska och farmaceutiska vetenskapsområdet, Medicinska fakulteten, Institutionen för immunologi, genetik och patologi, Klinisk och experimentell patologi.
    Saito, Akira
    Univ Tokyo, Grad Sch Med, Dept Resp Med, Tokyo, Japan;Univ Tokyo, Div Hlth Serv Promot, Tokyo, Japan.
    Nagase, Takahide
    Univ Tokyo, Grad Sch Med, Dept Resp Med, Tokyo, Japan.
    An Integrative Analysis of Transcriptome and Epigenome Features of ASCL1-Positive Lung Adenocarcinomas2018Inngår i: Journal of Thoracic Oncology, ISSN 1556-0864, E-ISSN 1556-1380, Vol. 13, nr 11, s. 1676-1691Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Introduction: A subgroup of lung adenocarcinoma shows neuroendocrine differentiation and expression of achaete-scute family bHLH transcription factor 1 (ASCL1), common to high-grade neuroendocrine tumors, small-cell lung cancer and large cell neuroendocrine carcinoma. Methods: The aim of this study was to characterize clinical and molecular features of ASCL1-positive lung adenocarcinoma by using recent transcriptome profiling in multiple patient cohorts and genome-wide epigenetic profiling including data from The Cancer Genome Atlas. Results: The ASCL1-positive subtype of lung adenocarcinoma developed preferentially in current or former smokers and usually did not harbor EGFR mutations. In transcriptome profiling, this subtype overlapped with the recently proposed proximal-proliferative molecular subtype. Gene expression profiling of ASCL1-positive cases suggested generally poor immune cell infiltration and none of the tumors were positive for programmed cell death ligand 1 protein expression. Genome-wide methylation analysis showed global DNA hypomethylation in ASCL1-positive cases. ASCL1 was associated with super-enhancers in ASCL1-positive lung adenocarcinoma cells, and ASCL1 silencing suppressed other super-enhancer-associated genes, suggesting thatASCL1 acts as a master transcriptional regulator. This was further reinforced by the essential roles of ASCL1 in cell proliferation, survival, and cell cycle control. Conclusions: These results suggest that ASCL1 defines a subgroup of lung adenocarcinoma with distinct molecular features by driving super-enhancer-mediated transcriptional programs.

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