Marcus Lettau scite author profile

The interaction of the MHC class I-related chain molecules A and B (MICA and MICB) with the corresponding natural killer group 2, member D (NKG2D) receptor triggers cytotoxic effector activity of natural killer cells and certain T-cell subsets and provides a costimulatory signal for cytokine production. Thus, the presence of MICA=B on transformed cells contributes to tumor immunosurveillance. Consequently, the proteolytic cleavage of MICA=B is regarded as an important immune escape mechanism of various cancer cells. To investigate the molecular machinery responsible for the shedding of endogenous MICA=B, we analyzed different human tumor entities including mammary, pancreatic and prostate carcinomas. Flow cytometry and enzyme-linked immunosorbent assay (ELISA) revealed that all tested tumor cells constitutively expressed MICA and MICB on the cell surface and also released NKG2D ligands into the supernatant. We demonstrate that the "a disintegrin and metalloproteases" (ADAMs) 10 and 17 are largely responsible for the generation of soluble MICA=B. Pharmacological inhibition of metalloproteases reduced the level of released MICA=B and increased cell surface expression. Studies using RNA interference not only revealed a prominent role of ADAM10 and ADAM17 in NKG2D ligand shedding but also a tumor cell-specific role of ADAM10 and=or ADAM17 in shedding of MICA or MICB. Moreover, we report that in the prostate carcinoma cell line PC-3, MICA was not shed at all but rather was secreted in exosomes. These data indicate that the release of NKG2D ligands from individual tumor entities is by far more complex than suggested in previously reported MICA=B transfection systems.The activating natural killer group 2, member D (NKG2D) receptor is expressed on NK cells, NKT cells, gd T cells, CD8 1 T cells and a minor immunoregulatory subset of CD4 1 T cells. 1,2 The ligation of NKG2D costimulates T cells but also directly triggers cell-mediated cytotoxicity and cytokine release in NK cells. [3][4][5][6] Thus, despite some exceptions including gastrointestinal epithelium 7 and placenta, 8 the ligands for NKG2D are not expressed on healthy tissues to avoid inadvertent damage. However, NKG2D ligand (NKG2DL) expression can be induced in response to a variety of stimuli related to cellular stress such as heat shock, viral infection, DNA damage, oxidative stress and certain proinflammatory signals. 9,10 Of note, many tumors and precancerous lesions express NKG2D ligands presumably as a bystander effect of the oncogenic process itself. 11 As NKG2DL expression renders tumors susceptible to NKG2D 1 lymphocytes, the NKG2D system plays a pivotal role in immunosurveillance. 12 On the other hand, the sustained exposure to tumor cell-bound NKG2D ligands might also result in surface modulation and functional impairment of the NKG2D receptor and induce cross-tolerance of additional NK cell activation pathways. 13,14 A hallmark of the NKG2D system is the multitude of ligands identified so far. In humans, these include the MHC class I-related chain ...

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Generation of Soluble NKG2D Ligands: Proteolytic Cleavage, Exosome Secretion and Functional Implications

Chitadze

et al. 2013

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The activating natural killer group 2 member D (NKG2D) receptor is expressed on NK cells, cytotoxic T cells and additional T cell subsets. Ligands for human NKG2D comprise two groups of MHC class I-related molecules, the MHC class I chain-related proteins A and B (MICA/B) and 6 UL16-binding proteins (ULBP1-6). While NKG2D ligands are absent from most normal cells, expression is induced upon stress and malignant transformation. In fact, most solid tumours and leukaemia/lymphomas constitutively express at least one NKG2D ligand and thereby are susceptible to NKG2D-dependent immunosurveillance. However, soluble NKG2D ligands are released from tumour cells and can down-modulate NKG2D activation as a means of tumour immune escape. In some tumour entities, levels of soluble NKG2D ligands in the serum correlate with tumour progression. NKG2D ligands can be proteolytically shed from the cell surface or liberated from the membrane by phospholipase C in the case of glycosylphosphatidylinositol (GPI)-anchored molecules. Moreover, NKG2D ligands can be secreted in exosomal microvesicles together with other tumour-derived molecules. Depending on the specific tumour/immune cell setting, these various forms of soluble and/or exosome-bound NKG2D ligands can exert multiple effects on NKG2D/NKG2D ligand interactions. In this review, we focus on the role of various proteases in the shedding of human NKG2D ligands from tumour cells and discuss the not completely unanimous reported functional implications of soluble and exosome-secreted NKG2D ligands for immunosurveillance.

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ADAM10 regulates FasL cell surface expression and modulates FasL-induced cytotoxicity and activation-induced cell death

et al. 2007

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The apoptosis-inducing Fas ligand (FasL) is a type II transmembrane protein that is involved in the downregulation of immune reactions by activation-induced cell death (AICD) as well as in T cell-mediated cytotoxicity. Proteolytic cleavage leads to the generation of membrane-bound N-terminal fragments and a soluble FasL (sFasL) ectodomain. sFasL can be detected in the serum of patients with dysregulated inflammatory diseases and is discussed to affect Fas-FasL-mediated apoptosis. Using pharmacological approaches in 293T cells, in vitro cleavage assays as well as loss and gain of function studies in murine embryonic fibroblasts (MEFs), we demonstrate that the disintegrin and metalloprotease ADAM10 is critically involved in the shedding of FasL. In primary human T cells, FasL shedding is significantly reduced after inhibition of ADAM10. The resulting elevated FasL surface expression is associated with increased killing capacity and an increase of T cells undergoing AICD. Overall, our findings suggest that ADAM10 represents an important molecular modulator of FasL-mediated cell death.

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Nck adapter proteins: functional versatility in T cells

2009

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Nck is a ubiquitously expressed adapter protein that is almost exclusively built of one SH2 domain and three SH3 domains. The two isoproteins of Nck are functionally redundant in many aspects and differ in only few amino acids that are mostly located in the linker regions between the interaction modules. Nck proteins connect receptor and non-receptor tyrosine kinases to the machinery of actin reorganisation. Thereby, Nck regulates activation-dependent processes during cell polarisation and migration and plays a crucial role in the signal transduction of a variety of receptors including for instance PDGF-, HGF-, VEGF-and Ephrin receptors. In most cases, the SH2 domain mediates binding to the phosphorylated receptor or associated phosphoproteins, while SH3 domain interactions lead to the formation of larger protein complexes. In T lymphocytes, Nck plays a pivotal role in the T cell receptor (TCR)-induced reorganisation of the actin cytoskeleton and the formation of the immunological synapse. However, in this context, two different mechanisms and adapter complexes are discussed. In the first scenario, dependent on an activationinduced conformational change in the CD3ε subunits, a direct binding of Nck to components of the TCR/CD3 complex was shown. In the second scenario, Nck is recruited to the TCR complex via phosphorylated Slp76, another central constituent of the membrane proximal activation complex. Over the past years, a large number of putative Nck interactors have been identified in different cellular systems that point to diverse additional functions of the adapter protein, e.g. in the control of gene expression and proliferation.

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Secretory lysosomes and their cargo in T and NK cells

Lettau¹,

Schmidt²,

Kabelitz³

et al. 2007

Immunology Letters

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Marcus Lettau

Shedding of endogenous MHC class I‐related chain molecules A and B from different human tumor entities: Heterogeneous involvement of the “a disintegrin and metalloproteases” 10 and 17

Generation of Soluble NKG2D Ligands: Proteolytic Cleavage, Exosome Secretion and Functional Implications

ADAM10 regulates FasL cell surface expression and modulates FasL-induced cytotoxicity and activation-induced cell death

Nck adapter proteins: functional versatility in T cells

Secretory lysosomes and their cargo in T and NK cells

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