Abstract
Cathepsin X is a lysosomal peptidase that is involved in tumour progression and represents a potential target for therapeutic interventions. In addition, it regulates important functions of immune cells and is implicated in the modulation of tumour cell–immune cell crosstalk. Selective cathepsin X inhibitors have been proposed as prospective antitumour agents to prevent cancer progression; however, their impact on the antitumour immune response has been overlooked. Previous studies indicate that the migration and adhesion of T cells and dendritic cells are affected by diminished cathepsin X activity. Meanwhile, the influence of cathepsin X inhibition on natural killer (NK) cell function has not yet been explored. Here, we examined the localization patterns of cathepsin X and the role of its inhibitors on the cytotoxicity of cell line NK-92, which is used for adoptive cellular immunotherapy in cancer patients. NK-92 cells depend on lymphocyte function-associated antigen 1 (LFA-1) to form stable immunoconjugates with target cells, providing, in this way, optimal cytotoxicity. Since LFA-1 is a substrate for cathepsin X activity in other types of cells, we hypothesized that cathepsin X could disturb the formation of NK-92 immunoconjugates. Thus, we employed cathepsin X reversible and irreversible inhibitors and evaluated their effects on the NK-92 cell interactions with target cells and on the NK-92 cell cytotoxicity. We show that cathepsin X inhibition does not impair stable conjugate formation or the lytic activity of NK-92 cells. Similarly, the conjugate formation between Jurkat T cells and target cells was not affected by cathepsin X activity. Unlike in previous migration and adhesion studies on T cells, in NK-92 cells cathepsin X was not co-localized with LFA-1 at the plasma membrane but was, rather, redistributed to the cytotoxic granules and secreted during degranulation.
Highlights
Since their discovery in the 1950s, lysosomes have been associated with key cellular homeostatic mechanisms, including, but not limited to, the degradation and recycling of extracellular and intracellular material
Our goal was to explore the impact of cathepsin X activity on lymphocyte functionassociated antigen 1 (LFA-1) mediated functions of natural killer (NK) cell immune synapse
Cysteine cathepsins are considered as important targets in anti-cancer therapy, since their increased activity drives pathologic processes that are associated with tumour growth, invasion and immune cell dysfunction
Summary
Since their discovery in the 1950s, lysosomes have been associated with key cellular homeostatic mechanisms, including, but not limited to, the degradation and recycling of extracellular and intracellular material. Perturbations in lysosomal function are, reflected in altered signalling pathways that support the development and progression of many diseases, including neurodegeneration, autoimmune disorders and cancer [1,2]. Numerous genetic and pharmacological studies have observed that inhibition of cathepsin activity could decrease cancer progression, establishing cysteine cathepsins as promising therapeutic targets [10,11]. Preclinical data support the use of cathepsin inhibitors to combat cancer, few reports indicate that inhibition of cysteine cathepsins would affect their tumour-promoting functions, but could elicit alterations in the antitumour immune response
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