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employing protein aggregation as an antibacterial design strategy

Periodic Reporting for period 1 - PeptIn (employing protein aggregation as an antibacterial design strategy)

Okres sprawozdawczy: 2017-07-01 do 2018-12-31

Antibiotic resistance is increasing globally at such a pace that many experts fear the dawn of the post-antibiotic era if we fail to meet the urgent need for novel therapeutics. We evaluated if the working hypothesis of the MANGO ERC project that protein aggregation is driven by sequence specific interactions can be exploited to generate aggregates that are specifically toxic to bacteria without affecting mammalian cells. In particular we examined if peptides encoding aggregation-prone sequence segments of bacterial proteins can display antimicrobial activity by initiating aggregation in bacteria but not in mammalian cells. Unbiased in vitro screening of aggregating peptides lead to the identification of several hits that are strongly bactericidal against drug resistant gram+ S aureus strains, and others against pathogenic gram- E coli strains. The peptides cured mice from bacterial sepsis without apparent toxic side effects. The peptides enter and accumulate in the bacterial cytosol where they cause aggregation of bacterial polypeptides and the formation of inclusion bodies. Although the precise chain of events that leads to cell death remains to be elucidated, the ability to tap into aggregation-prone sequences of bacterial proteomes to elicit antimicrobial activity represents a rich and unexplored chemical space to be mined in search of novel therapeutic strategies to fight infectious diseases that are increasingly threatening global healthcare. However, given the novelty of this concept, the viability of aggregating peptides as antimicrobial therapeutics needed to be further advanced in order to consolidate the already significant interest from the pharmaceutical industry. In the current project we outlined a series of experiments designed to increase the attractiveness of this novel technology platform to potential partners and investors.
These ranged from characterization of the properties of some of the known molecules as well as testing possible structural variants and testing the impact of formulation. Moreover, we also wanted to screen for novel molecules, broaden the IP platform and, last but not least, create a new spinoff company.
In general, the project has been a success and it contributed towards the creation of Aelin Therapeutics, backed by investments from reputable venture capital firms, such as Boehringer Ingelheim Venture Fund, Novartis Venture Fund, Fund+, Life Science Partners and PMV.