Antibiotics (Jan 2022)

Optimization of Propidium Monoazide qPCR (Viability-qPCR) to Quantify the Killing by the <i>Gardnerella</i>-Specific Endolysin PM-477, Directly in Vaginal Samples from Women with Bacterial Vaginosis

  • Agnieszka Latka,
  • Leen Van Simaey,
  • Marijke Reynders,
  • Piet Cools,
  • Tess Rogier,
  • Barbara Lebbe,
  • Lorenzo Corsini,
  • Christine Landlinger,
  • Mario Vaneechoutte

DOI
https://doi.org/10.3390/antibiotics11010111
Journal volume & issue
Vol. 11, no. 1
p. 111

Abstract

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Quantification of the number of living cells in biofilm or after eradication treatments of biofilm, is problematic for different reasons. We assessed the performance of pre-treatment of DNA, planktonic cells and ex vivo vaginal biofilms of Gardnerella with propidium monoazide (PMAxx) to prevent qPCR-based amplification of DNA from killed cells (viability-qPCR). Standard PMAxx treatment did not completely inactivate free DNA and did not affect living cells. While culture indicated that killing of planktonic cells by heat or by endolysin was complete, viability-qPCR assessed only log reductions of 1.73 and 0.32, respectively. Therefore, we improved the standard protocol by comparing different (combinations of) parameters, such as concentration of PMAxx, and repetition, duration and incubation conditions of treatment. The optimized PMAxx treatment condition for further experiments consisted of three cycles, each of: 15 min incubation on ice with 50 µM PMAxx, followed by 15 min-long light exposure. This protocol was validated for use in vaginal samples from women with bacterial vaginosis. Up to log2.2 reduction of Gardnerella cells after treatment with PM-477 was documented, despite the complex composition of the samples, which might have hampered the activity of PM-477 as well as the quantification of low loads by viability-qPCR.

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