Your search keyword '"KIRSTEN NOWLAN"' showing total 7 results

1. Mucosal-Associated Invariant T Cells are not susceptible in vitro to SARS-CoV-2 infection but accumulate into the lungs of COVID-19 patients

Author

Xiaobo Huang, Jonas Kantonen, Kirsten Nowlan, Ngoc Anh Nguyen, Suvi T. Jokiranta, Suvi Kuivanen, Nelli Heikkilä, Shamita Mahzabin, Anu Kantele, Olli Vapalahti, Liisa Myllykangas, Santtu Heinonen, Mikko I. Mäyränpää, Tomas Strandin, and Eliisa Kekäläinen

Subjects

Mucosal Associated Invariant T cells, SARS-CoV-2, Lymphopenia, COVID-19, Viral challenge, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Prolonged T cell lymphopenia is common in COVID-19, caused by SARS-CoV-2. While the mechanisms of lymphopenia during COVID-19 remain elusive, it is especially pronounced in a specialized innate-like T cell population called Mucosal Associated Invariant T cells (MAITs). MAITs has been suggested to express Angiotensin-Converting Enzyme 2 (ACE2), which is the well-known cellular receptor for SARS-CoV-2. However, it is still unclear if SARS-CoV-2 can infect or affect MAIT cells directly. In this study, we performed multicolor flow cytometry on peripheral blood mononuclear cells obtained from COVID-19 patients to assess the frequencies of CD8+Vα7.2+CD161+ MAIT subsets at acute and convalescent disease phases. The susceptibility of MAITs and T cells to direct exposure by SARS-CoV-2 was analysed using cells isolated from healthy donor buffy coats by viability assays, virus-specific RT-PCR, and flow cytometry. In situ lung immunofluorescence was used to evaluate retention of T cells, especially MAIT cells, in lung tissues during acute COVID-19. Our study confirms previous reports indicating that circulating MAITs are activated, and their frequency is declined in patients with acute SARS-CoV-2 infection, whereas an accumulation of MAITs and T cells was seen in the lung tissue of individuals with fatal COVID-19. However, despite a fraction of MAITs found to express ACE2, no evidence for the susceptibility of MAITs for direct infection or activation by SARS-CoV-2 particles was observed. Thus, their activation and decline in the circulation is most likely explained by indirect mechanisms involving other immune cells and cytokine-induced pro-inflammatory environment but not by direct exposure to viral particles at the infection site.

Published

2024

2. Systems-Level Immunomonitoring from Acute to Recovery Phase of Severe COVID-19

Author

Lucie Rodriguez, Pirkka T. Pekkarinen, Tadepally Lakshmikanth, Ziyang Tan, Camila Rosat Consiglio, Christian Pou, Yang Chen, Constantin Habimana Mugabo, Ngoc Anh Nguyen, Kirsten Nowlan, Tomas Strandin, Lev Levanov, Jaromir Mikes, Jun Wang, Anu Kantele, Jussi Hepojoki, Olli Vapalahti, Santtu Heinonen, Eliisa Kekäläinen, and Petter Brodin

Subjects

human immunology, systems immunology, COVID-19, SARS-CoV-2, mass cytometry, plasma proteins, Medicine (General), R5-920

Abstract

Summary: Severe disease of SARS-CoV-2 is characterized by vigorous inflammatory responses in the lung, often with a sudden onset after 5–7 days of stable disease. Efforts to modulate this hyperinflammation and the associated acute respiratory distress syndrome rely on the unraveling of the immune cell interactions and cytokines that drive such responses. Given that every patient is captured at different stages of infection, longitudinal monitoring of the immune response is critical and systems-level analyses are required to capture cellular interactions. Here, we report on a systems-level blood immunomonitoring study of 37 adult patients diagnosed with COVID-19 and followed with up to 14 blood samples from acute to recovery phases of the disease. We describe an IFNγ-eosinophil axis activated before lung hyperinflammation and changes in cell-cell co-regulation during different stages of the disease. We also map an immune trajectory during recovery that is shared among patients with severe COVID-19.

Published

2020

3. A comprehensive assessment of four whole blood stabilizers for flow-cytometric analysis of leukocyte populations

Author

Ngoc Anh Nguyen, Xiaobo Huang, Luz E. Cabrera, Pirkka T. Pekkarinen, Kirsten Nowlan, Tomas Strandin, Anu Kantele, Olli Vapalahti, Santtu Heinonen, Eliisa Kekäläinen, TRIMM - Translational Immunology Research Program, Department of Bacteriology and Immunology, Viral Zoonosis Research Unit, University of Helsinki, Department of Virology, Research Programs Unit, Anestesiologian yksikkö, HUS Perioperative, Intensive Care and Pain Medicine, Department of Medicine, HUS Inflammation Center, Clinicum, HUMI - Human Microbiome Research, Infektiosairauksien yksikkö, Helsinki One Health (HOH), HUSLAB, Veterinary Microbiology and Epidemiology, Veterinary Biosciences, Olli Pekka Vapalahti / Principal Investigator, HUS Diagnostic Center, Children's Hospital, Faculty of Medicine, Helsinki University Hospital Area, HUS Children and Adolescents, and Medicum

Subjects

MONONUCLEAR-CELLS, Histology, flow cytometry, whole blood, whole blood stabilizer, COVID-19, Cell Biology, CRYOPRESERVATION, Pathology and Forensic Medicine, ACTIVATION, immunophenotyping, method, VISUALIZATION, 1182 Biochemistry, cell and molecular biology, FIXATION, INACTIVATION, FORMALDEHYDE, 3111 Biomedicine, GRANULOCYTE, RESPONSES

Abstract

Though cryopreservation of cell fractions is widely used in flow cytometry studies, whole blood cryopreservation is more challenging due to the presence of erythrocytes and effects of fixatives commonly used for preservation. Here, we evaluated and compared head-to-head the performance of four commercial whole blood cryopreservation kits; (1) Cytodelics, (2) Stable-Lyse V2 and Stable-Store V2 (SLSS-V2), (3) Proteomic stabilizer (PROT-1), and (4) Transfix. We found that PROT-1, Transfix, and Cytodelics maintained the distribution of major leukocyte subsets-granulocytes, T cells, natural killer cells, and B cells, on a comparable level to unpreserved samples, despite the attenuation of fluorescence intensities in flow cytometric assays. Moreover, these three stabilizers also maintained the activated phenotypes of neutrophils upon stimulation with N-formylmethionyl-leucyl-phenylalanine and lipopolysaccharides. The upregulation of adhesion molecules (CD11b), Fc receptors (CD16), and granule proteins (CD66b), as well as the shedding of surface L-selectin (CD62L), was conserved most efficiently in PROT-1 and Cytodelics when compared to samples only treated with erythrocyte lysing. However, none of the stabilizers provided a reliable detection of CCR7 for accurate quantification of T cell maturation stages. We also evaluated the performance of Cytodelics in longitudinal clinical samples obtained from acute COVID-19 patients, where it allowed reliable detection of lymphopenia and granulocyte expansion. These results support the feasibility of whole blood cryopreservation for immunophenotyping by flow cytometry, particularly in longitudinal studies. In conclusion, the performance of different stabilizers is variable and therefore the choice of stabilizers should depend on cell type of interest, as well as antibody clones and experimental design of each study.

Published

2023

4. Optimising protein detection with fixable custom oligo-labelled antibodies for single-cell multi-omics approaches

Author

Eliisa Kekäläinen, Juha Kotimaa, KIRSTEN NOWLAN, Iivari Kleino, TRIMM - Translational Immunology Research Program, Medicum, Department of Bacteriology and Immunology, and HUSLAB

Subjects

Proteomics, single-cell RNA-seq, Sequence Analysis, RNA, Gene Expression Profiling, Oligonucleotides, antibody conjugation, General Medicine, Applied Microbiology and Biotechnology, Antibodies, ACTIVATION, CITE-seq, Molecular Medicine, 1182 Biochemistry, cell and molecular biology, 3111 Biomedicine, Single-Cell Analysis, Transcriptome, CD38

Abstract

Background and Aim Single-cell RNA sequencing (scRNA-seq) is a powerful method utilising transcriptomic data for detailed characterisation of heterogeneous cell populations. The use of oligonucleotide-labelled antibodies for targeted proteomics addresses the shortcomings of the scRNA-seq-only based approach by improving detection of low expressing targets. However, optimisation of large antibody panels is challenging and depends on the availability of co-functioning oligonucleotide-labelled antibodies. Main Methods and Results We present here a simple adjustable oligonucleotide-antibody conjugation method which enables a desired level of oligo-conjugation per antibody. The mean labelling in the produced antibody batches varied from 1 to 6 oligos per antibody. In the scRNA-seq multimodal experiment, the highest sensitivity was seen with moderate antibody labelling as the high activation and/or labelling was detrimental to antibody performance. The conjugates were also tested for compatibility with the fixation and freeze storage protocols. The oligo-antibody signal was stable in fixed cells indicating the feasibility of a stain, fix, store, and analyse later type of workflow for multimodal scRNA-seq. Conclusions and Implications Optimised oligo-labelling will improve detection of weak protein targets in scRNA-seq multimodal experiments and reduce sequencing costs due to a more balanced amplification of different antibody signals in CITE-seq libraries. Furthermore, the use of a pre-stain, fix, run later protocol will allow for flexibility, facilitate sample pooling, and ease logistics in scRNA-seq multimodal experiments.

Published

2022

5. Significance of Mait Cells in Sars-Cov-2 Infection

Author

Xiaobo Huang, Jonas Kantonen, Kirsten Nowlan, Ngoc Anh Nguyen, Suvi T. Jokiranta, Suvi Kuivanen, Nelli Heikkilä, Shamita Mahzabin, Anu Kantele, Olli Vapalahti, Liisa Myllykangas, Santtu Heinonen, Mikko I. Mäyränpää, Tomas Strandin, and Eliisa Kekäläinen

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

6. Loss-of-function mutation in

Author

Iivo, Hetemäki, Meri, Kaustio, Matias, Kinnunen, Nelli, Heikkilä, Salla, Keskitalo, Kirsten, Nowlan, Simo, Miettinen, Joona, Sarkkinen, Virpi, Glumoff, Noora, Andersson, Kaisa, Kettunen, Reetta, Vanhanen, Katariina, Nurmi, Kari K, Eklund, Johannes, Dunkel, Mikko I, Mäyränpää, Heinrich, Schlums, T Petteri, Arstila, Kai, Kisand, Yenan T, Bryceson, Pärt, Peterson, Ulla, Otava, Jaana, Syrjänen, Janna, Saarela, Markku, Varjosalo, and Eliisa, Kekäläinen

Subjects

Adult, Male, Ikaros Transcription Factor, Young Adult, Humans, Female, Middle Aged, Germinal Center, Mucosal-Associated Invariant T Cells, Aged

Abstract

The Ikaros family transcription factors regulate lymphocyte development. Loss-of-function variants in

Published

2021

7. Systems-Level Immunomonitoring from Acute to Recovery Phase of Severe COVID-19

Author

Ziyang Tan, Lev Levanov, Tomas Strandin, Kirsten Nowlan, Jussi Hepojoki, Olli Vapalahti, Anu Kantele, Tadepally Lakshmikanth, Constantin Habimana Mugabo, Santtu Heinonen, Petter Brodin, Jaromír Mikeš, Ju Wang, Ngoc Anh Nguyen, Christian Pou, Lucie Rodriguez, Yang Chen, Eliisa Kekäläinen, Camilla Rosat Consiglio, Pirkka T. Pekkarinen, University of Zurich, Rodriguez, Lucie, Brodin, Petter, Anestesiologian yksikkö, Department of Diagnostics and Therapeutics, HUS Perioperative, Intensive Care and Pain Medicine, University of Helsinki, Helsinki University Hospital Area, TRIMM - Translational Immunology Research Program, Research Programs Unit, Doctoral Programme in Biomedicine, Medicum, Department of Virology, Viral Zoonosis Research Unit, Department of Medicine, HUS Inflammation Center, Clinicum, Infektiosairauksien yksikkö, HUSLAB, Children's Hospital, and HUS Children and Adolescents

Subjects

Male, Disease, Cell Communication, 2700 General Medicine, Adaptive Immunity, Severity of Illness Index, 0302 clinical medicine, Stable Disease, Medicine, Longitudinal Studies, 11832 Microbiology and virology, Systems immunology, lcsh:R5-920, 0303 health sciences, Blood proteins, 3. Good health, Basophils, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, lcsh:Medicine (General), Recovery phase, mass cytometry, Adult, Coronavirus disease 2019 (COVID-19), education, Severe disease, 10184 Institute of Veterinary Pathology, systems immunology, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Interferon-gamma, Immune system, 1300 General Biochemistry, Genetics and Molecular Biology, Humans, Mass cytometry, 030304 developmental biology, Inflammation, human immunology, Lung, business.industry, Interleukin-6, SARS-CoV-2, COVID-19, Convalescence, Eosinophils, Immunology, 570 Life sciences, biology, 3111 Biomedicine, business, plasma proteins, Sudden onset

Abstract

Summary Severe disease of SARS-CoV2 is characterized by vigorous inflammatory responses in the lung, often with a sudden onset after 5-7 days of stable disease. Efforts to modulate this hyperinflammation and the associated acute respiratory distress syndrome, rely on the unraveling of the immune cell interactions and cytokines that drive such responses. Given that every patient is captured at different stages of infection, longitudinal monitoring of the immune response is critical and systems-level analyses required to capture cellular interactions. Here we report on a systems-level blood immunomonitoring study of 37 adult patients diagnosed with COVID-19 and followed with up to 14 blood samples from acute to recovery phases of the disease. We describe an IFNγ – Eosinophil axis activated prior to lung hyperinflammation and changes in cell-cell coregulation during different stages of the disease. We also map an immune trajectory during recovery that is shared among patients with severe COVID-19., Graphical Abstract, Highlights Immunomonitoring from acute to recovery phase COVID-19 An IFNg - Eosinophil axis precede lung hyperinflammation Basophils modulate SARS-CoV2 IgG responses A shared trajectory of immunological recovery in COVID-19, Immune dysregulation plays a pivotal role during severe COVID-19. Rodriguez et al present a systems-level, longitudinal study of 37 COVID-19 patients monitored from acute to recovery phases of disease. This study reveals cell-protein dependencies and co-regulated features, as well as a shared immunological trajectory during recovery.

Published

2020