a) We maintain a web site (
https://supramolecular-attack-particles.eu(öffnet in neuem Fenster)) to communicate discoveries to the public.
b) We have collaborated on publications explaining the functional role of SMAPs in the context of the CTL lytic arsenal to the scientific community, published methods to enable the work of other scientists in this area and have published original research on SMAPs (PMID:37325629; 35514977; 35592329; 37106198; 37106201; 34446922; 33782566; 36593148). Others have positively reviewed work from ATTACK (e.g. PMID:36737375; 35927511).
c) We identified the storage sites for the spray-like and bomb-like release of cells destroying molecules. These storage sites are referred to as “granules” and differ in diameter, shape and composition, but also in the type with which their cytotoxic contents are released (PMID:35210420).
d) Cancer cells respond to killer T cell attack within seconds and create a defensive line that protects the core of solid tumors, a challenge facing immunotherapy approaches (PMID:35171665).
e) Initiated during the Covid-19 pandemic, we contributed to our fundamental understanding of SARS-Cov2 mediated immune evasion by demonstrating that the spike protein inhibits immunological synapse formation (PMID:36378226).
f) ATTACK has published initial guidelines on how to identify SMAPs in images and how to prepare SMAPs from human T cells, setting the stage for diagnostics and large-scale manufacturing. This was published as part of the release of our patent-pending computational strategy for image analysis pipelines that are fully explainable (PMID:37932311; International patent application PCT/EP2024/053346).
g) We gained new insights into the interplay of two components in SMAP's "bomb-shell", SMAP-mediated killing and cancer cell defense tactic through suppression of bomb-shell protein expression in immune cells (PMID:39903110).
h) We have shared findings on a novel granzyme-independent target cell pyroptotic cell death pathway triggered by perforin-mediated pore formation at the lytic synapse (doi.org/10.1101/2024.05.24.595698).
i) We have shared findings on a new T cell killing mechanism based on lytic IFN that is released in spray and bomb modes, and contributes to immune cell mediated killing of targets (doi:10.1101/2025.01.29.635520).
l) We have applied SMAP imaging in the assessment of immune cell attack on malaria parasites inside red blood cells, an unexpected application beyond cancer (PMID: 40500441).