• SyncroPatch 384/768i

    APC with highest throughput on the market
  • SyncroPatch 384/768i

    384 cells in parallel => upgradable to 768
  • SyncroPatch 384/768i

    True HTS AND Gigaohm seals
  • SyncroPatch 384/768i

    Analysis Software even more powerful than before
  • SyncroPatch 384/768i

    Assay flexibility via high tech

2018 - Towards Novel Bioactive Antiperspirants for Cosmetic Applications

icon sp96   SyncroPatch 384PE (a predecessor model of SyncroPatch 384i) publication in IFSCC (2018)

Ertongur-Fauth T., Fischer S., Hartmann D., Brüggemann A., Seeger V., Kleber A., Krohn M.

International Federation of Societies of Cosmetic Chemists Magazine (2018) 21(3): 75-79


Sweating is a fundamental process required for human thermoregulation. In today’s modern society, however, extensive sweating is rather considered unpleasant or embarrassing, or can even cause severe psychosocial pressure. Sweat reduction by antiperspirants is therefore of huge cosmetic interest. Currently, the global use of aluminum salts as antiperspirants is controversial, but no alternatives exist so far. We developed a new concept for sweat reduction which is based on directly targeting primary fluid secretion in human sweat glands. We identified a long searched for key player in human sweat glands - the ion channel TMEM16A, also known as ANO1. We extensively characterized TMEM16A and its function in native human sweat glands and sweat gland tissue culture cells by using a wide variety of different techniques such as immunohistological staining, chloride flux assays, automated patch clamping as well as state-of-the-art CRISPR/ Cas9 genome editing technology. We generated a proprietary cell-based assay to emulate TMEM16A function in a cellular sweat gland environment. We combined this cell-based assay with our cherry-picked compound libraries and performed high-throughput screening campaigns which uncovered smallmolecule modulators of TMEM16A. In silico and in vitro toxicological assessments as well as stability and formulation tests were performed and yielded compounds that are currently being tested for their sweat reduction efficacy in vivo.

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