Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

January 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model

Role of Ly49 Receptors on Natural Killer Cells During Influenza Virus Infection

Mahmoud, Ahmad

January 2012

Natural killer (NK) cells are lymphocytes of the innate immune system that play a major role in the destruction of both tumours and virally-infected cells. The cytotoxicity of NK cells is tightly controlled by signals received through activating and inhibitory receptors. NK cells express a variety of inhibitory receptors such as Ly49 receptors. Ly49 receptors bind to class I MHC molecules that expressed on normal cells. Using Ly49-deficient (NKCKD) mice we show that Ly49-KD NK cells successfully recognize and kill influenza virus-infected cells and that NKCKD mice exhibit better survival than wild-type mice. Moreover, influenza virus infection has a propensity to upregulate cell surface expression of MHC-I on murine lung epithelial cells in vivo. Significantly, we demonstrate increased lung damage of WT-mice versus NKCKD mice after influenza virus infection as determined by histological analyses. This data indicated that absence of Ly49 inhibitory NK receptors greatly enhances survival of infected mice.

Influenza Virus

MHC-I

Natural Killer cells

NK cells

Killer immunoglobulin-like receptor genotype did not correlate with response to anti-PD-1 antibody treatment in a Japanese cohort / 日本人コホートにおいてKIR遺伝子は抗PD-1治療の反応と相関しない

Ishida, Yoshihiro

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22371号 / 医博第4612号 / 新制||医||1043(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 河本 宏, 教授 松田 文彦, 教授 濵﨑 洋子 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Cancer Immune Therapy

Natural Killer Cells

HLA

KIR

490

Understanding metformin mediated natural killer cell activation in head and neck squamous cell carcinoma

Crist, McKenzie

25 May 2023

No description available.

Oncology

Immunology

Natural Killer Cells

Head and Neck Cancer

Metformin

The Characterization of Zebrafish Natural Killer Cells and Their Role in Immunological Memory

Muire, Preeti Judith

08 December 2017

Rag1-/- mutant zebrafish lack lymphocytes and were used to study the basis of acquired protective immunity in the absence of lymphocytes to the intracellular bacterium Edwardsiella ictaluri. This study morphologically identified and quantified lymphocyte like cells (LLCs) present in the liver, kidney and spleen of these fish. LLCs included Natural Killer (NK) cells and non-specific cytotoxic cells (NCCs) and were discriminated by size, and by the presence of cytoplasmic granules. The antibodies anti-NITR9, anti-NCCRP-1 (5C6) and anti-MPEG-1 were used to evaluate these cell populations by flow cytometry. Gene expression profiles in these tissues were evaluated after the Rag1-/- mutants were intra coelomically injected with the toll like receptor (TLR)-2 ligand, β glucan, TLR3 ligand, Poly I:C, or TLR 7/8 ligand, R848. The genes interferon y (infγ), expressed by activated NK cells and macrophages, tumor necrosis factor α (tnfα), expressed by activated macrophages, myxovirus resistance (mx) expressed by cells induced by IFNα, T-cell transcription factor (t-bet) expressed by NK cells and novel immune type-receptor 9 (nitr-9) expressed by NK cells were evaluated. The TLR ligands induced different patterns of expression and stimulated both macrophages and NK cells. Then fish were vaccinated with an attenuated mutant of E. ictaluri (RE33®) with or without the TLR ligands then challenged with WT E. ictaluri to evaluate protection. RE33® alone and each TLR ligand alone provided protection. Coministration of β glucan and RE33® or R848 and RE33® resulted in survival higher than RE33® alone showing an adjuvant effect. Tissue specific gene expression of ifnγ, t-bet, nitr9, NK cell lysin a (nkla), nklb, nklc and nkld were correlated to protection. The final component of this study was the development of tools to discriminate NK cell populations and evaluate the contribution of macrophages. Rag1-/- zebrafish were modified to express cherry red in lymphocyte like cells using the Lymphocyte specific tyrosine kinase (lck) promotor. Also, rag1-/- zebrafish were modified so that the gene encoding the proto-oncogene serine/threonine-protein kinase that is involved in macrophage training (raf1) is disrupted. This study indicated that the acquired protection in the absence of lymphocytes likely involves NK cells with possible contribution by macrophages.

rag1-/- mutant zebrafish

immunological memory

Natural killer cells

Mechanisms of Transformation in T-Cell Lymphomas: Identification of Therapeutic Targets

Shih, Bobby Ben

January 2024

T-cell lymphomas (TCLs) are a highly aggressive and heterogeneous group of non-Hodgkin lymphomas derived from post-thymic mature T- and NK-cells broadly classified peripheral (PTCL) or cutaneous (CTCL), indicating either a nodal or skin-homing disease, respectively. One of the main clinical challenges contributing to dismal outcomes for TCL patients is both the lack of curative treatment strategies and the high rate of relapse for currently approved therapies, underscoring the need for identification of novel targeted therapies for the treatment of TCL. While combination therapeutic strategies have been proposed and show great promise in pre-clinical and clinical trials for PTCL and CTCL, none are yet approved. Additional contributing factors toward the difficulty in studying TCL and the high rate of therapeutic failure is the highly heterogeneous genetic and molecular mechanisms driving TCL as well as the poorly understood role of non-tumor microenvironment cells in the pathogenesis of TCL. Indeed, while several studies have suggested that tumor associated macrophages play both a significant functional role in supporting tumor maintenance and are therapeutically targetable, less is known about potential tumor supporting roles of other cell microenvironment populations. Here, I used an unbiased and high-throughput approach to discover novel drug combinations in CTCL and to characterize at the single-cell level relevant molecular mechanisms driving T-cell lymphomagenesis. First, I demonstrate that the combination of romidepsin, a selective class I HDAC inhibitor, with afatinib, an inhibitor of the epidermal growth factor receptor (EGFR) family, produces strongly synergistic antitumor effects in CTCL models, both in vitro and in vivo, using mechanisms of action that involve down-regulation of the JAK-STAT signaling pathway. This result suggests a potential therapeutic role for the combination of HDAC inhibitors with afatinib in the treatment of CTCL that had not been previously recognized. Second, we developed single-nuclei analysis on a cohort of 30 TCL (PTCL-NOS, AITL, epstein barr virus positive PTCL) and 6 normal patient samples to identify and deconvolute genomic and functional mechanisms contributing to T-cell lymphomagenesis. Here, I implemented a comprehensive bioinformatics pipeline for the analysis of sparse single-nuclei transcriptomic data and characterized heterogeneous molecular mechanisms driving T-cell lymphomagenesis, such as the upregulation of the PI3K-AKT-mTOR and WNT signaling pathways in a subset of 5/9 PTCL-NOS and 7/19 AITL samples, respectively. Additionally, I identified the enrichment of both the macrophage compartment in PTCL-NOS and AITL, and the specific enrichment of CD8+ T cells in AITL. These results suggest a correlation between patient-specific characteristics, such as mutational status, and possibly therapeutically targetable molecular mechanisms driving neoplastic cell growth that warrants further investigation.

Biology

Oncology

Lymphomas--Treatment

T cells

Macrophages--Research

Killer cells

Replication stress in activated human NK cells induces sensitivity to apoptosis

Guilz, Nicole

January 2024

Natural killer cells are innate immune effectors that kill virally infected or malignant cells. Natural killer cell deficiency (NKD) occurs when NK cell development or function are impaired, and individuals with NKD are susceptible to severe and recurrent viral infections. Several gene deficiencies result in NKD, including variants in MCM4, GINS1, MCM10 and GINS4, which are components of the CDC45-MCM-GINS (CMG) helicase. The CMG helicase unwinds DNA during replication and is expressed in any actively proliferating cell. NK cells are more strongly impacted by mutational deficiencies in helicase proteins than other lymphocytes, though the mechanisms underlying this susceptibility are not completely understood. NK cells from individuals with NKD as a result of helicase deficiency have increased DNA damage, cell cycle arrest, and replication stress. We found that activated NK cells undergo apoptosis and autophagy in response to this stress, unlike activated T cells. We also identified a patient with a damaging variant in CDC45 to further support these findings of the effects of replication stress on NK cells. This individual, due to broader involvement of the immune system, requires a wider definition of natural killer cell disease, termed NK IEI. However, this CDC45-deficient individual’s cells display disrupted cell cycle, increased DNA damage and replication stress, with upregulation of apoptosis genes in NK cells. These findings show that sensitivity to replication stress affects human NK cell survival and function and can contribute to NK cell deficiency and human disease.

Biology

Immunology

Killer cells

Apoptosis

Diseases

DNA helicases

The Function and Homeostasis of Natural Killer Cells in Aging

Shehata, Hesham M., Ph.D.

January 2015

No description available.

Immunology

Natural Killer Cells

Aging

Maturation

Aged Environment

Development

Moving in for the Kill: Natural Killer Cell Localization in Regulation of Humoral Immunity

Moran, Michael

28 June 2016

No description available.

Immunology

Natural killer cells

localization

viral infection

LCMV

humoral immunity

The role of natural killer cells in the response to anti-tumor antibodies

Roda, Julie M.

26 February 2007

No description available.

Health Sciences, Immunology

Breast cancer

HER2

Trastuzumab

Natural Killer Cells