Different susceptibility of B19 virus and mice minute virus to low pH treatment

  1. Nicola Boschetti*,
  2. Isabel Niederhauser,
  3. Christoph Kempf,
  4. Albert Stühler,
  5. Johannes Löwer,
  6. Johannes Blümel

Article first published online: 28 JUN 2004

DOI: 10.1111/j.1537-2995.2004.03420.x

Issue

Transfusion

Transfusion

Volume 44, Issue 7, pages 1079–1086, July 2004

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How to Cite

Boschetti, N., Niederhauser, I., Kempf, C., Stühler, A., Löwer, J. and Blümel, J. (2004), Different susceptibility of B19 virus and mice minute virus to low pH treatment. Transfusion, 44: 1079–1086. doi: 10.1111/j.1537-2995.2004.03420.x

Author Information

  1. 1From the ZLB Bioplasma AG, Bern, Switzerland; Department of Chemistry and Biochemistry, University of Bern, Bern, Switzerland; and the Paul-Ehrlich-Institute, Langen, Germany.

*Nicola Boschetti, ZLB Bioplasma AG, Wankdorfstrasse 10, CH-3000 Bern, Switzerland; e-mail: nicola.boschetti@zlb.com.

Publication History

  1. Issue published online: 28 JUN 2004
  2. Article first published online: 28 JUN 2004
  3. Received for publication December 16, 2003; revision received March 1, 2004, and accepted March 6, 2004.

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BACKGROUND: Parvoviridae are small nonenveloped viruses that are known to be highly resistant to physico-chemical treatments. Because low pH is frequently applied to process intermediates or final products, the impact of such conditions on the human erythrovirus B19 (B19V) and the mouse parvovirus (mice minute virus, MMV) was assessed, which is often used as a model for B19V. Owing to the lack of a suitable cultivation and/or detection system for B19V no such data exist so far.

STUDY DESIGN AND METHODS:  Virus inactivation was monitored by decrease of infectivity and loss of capsid integrity. Infectious B19V was quantified by dete-ction of virus-specific messenger RNA from Ku812Ep6 cells. To measure capsid integrity, endonucleases were added after exposure to low pH and the encapsidated (endonuclease-protected) virus DNA was quantified by real-time PCR.

RESULTS:  B19V was inactivated greater than 5 log after 2 hours at pH 4, whereas MMV was resistant over 9 hours. Infectivity data strongly correlated with data obtained by the endonuclease assay. Capsid disintegra-tion was observed in immunoglobulin G as well as in different albumin solutions. Temperature and pH showed concerted impact on B19V capsid disintegration.

CONCLUSION:  Our data show that B19V is much more vulnerable toward low pH conditions than MMV. Together with the previously reported susceptibility of B19V toward wet heat conditions, low pH is the second treatment where erythrovirus B19V is less resistant than viruses from the parvovirus genus.

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