Ca2+-dependent activity of human DNase I and its hyperactive variants

CLARK Q. PAN; ROBERT A. LAZARUS

doi:10.1110/ps.8.9.1780

Abstract

We have recently constructed hyperactive human deoxyribonuclease I (DNase I) variants that digest double-stranded DNA more efficiently under physiological saline conditions by introducing positively charged amino acids at eight positions that can interact favorably with the negatively charged DNA phosphates. In this study, we present data from supercoiled DNA nicking, linear DNA digestion, and hyperchromicity assays that distinguish two classes of DNase I hyperactive variants based upon their activity dependence on Ca2+. Class A variants are highly dependent upon Ca2+, having up to 300-fold lower activity in the presence of Mg2+ alone compared to that in the presence of Mg2+ and Ca2+, and include Q9R, H44K, and T205K, in addition to wild-type DNase I. In contrast, the catalytic activity of Class B variants, which comprise the E13R, T14K, N74K, S75K, and N110R hyperactive variants, is relatively Ca2+ independent. A significant proportion of this difference in Ca2+-dependent activity can be attributed to one of the two structural calcium binding sites in DNase I. Compared to wild-type, the removal of Ca2+ binding site 2 by alanine replacements at Asp99, Asp107, and Glu112 decreased activity up to 26-fold in the presence of Mg2+ and Ca2+, but had no effect in the presence of Mg2+ alone. We propose that the rate-enhancing effect of Ca2+ binding at site 2 can be replaced by favorable electrostatic interactions created by proximal positively charged amino acid substitutions such as those found in the Class B variants, thus reducing the dependence on Ca2+.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Chen, Ching‐Ying Lu, Shao‐Chun and Liao, Ta‐Hsiu 2002. The distinctive functions of the two structural calcium atoms in bovine pancreatic deoxyribonuclease. Protein Science, Vol. 11, Issue. 3, p. 659.

Lazarus, Robert A. 2002. Wiley Encyclopedia of Molecular Medicine.

Guéroult, Marc Picot, Daniel Abi-Ghanem, Joséphine Hartmann, Brigitte Baaden, Marc and Levitt, Michael 2010. How Cations Can Assist DNase I in DNA Binding and Hydrolysis. PLoS Computational Biology, Vol. 6, Issue. 11, p. e1001000.

Yang, Wei 2011. Nucleases: diversity of structure, function and mechanism. Quarterly Reviews of Biophysics, Vol. 44, Issue. 1, p. 1.

Osman, Rihab Kan, Pei Lee Awad, Gehanne Mortada, Nahed EL-Shamy, Abd-Elhameed and Alpar, Oya 2011. Enhanced properties of discrete pulmonary deoxyribonuclease I (DNaseI) loaded PLGA nanoparticles during encapsulation and activity determination. International Journal of Pharmaceutics, Vol. 408, Issue. 1-2, p. 257.

Parsiegla, Goetz Noguere, Christophe Santell, Lydia Lazarus, Robert A. and Bourne, Yves 2012. The Structure of Human DNase I Bound to Magnesium and Phosphate Ions Points to a Catalytic Mechanism Common to Members of the DNase I-like Superfamily. Biochemistry, Vol. 51, Issue. 51, p. 10250.

Palmer, L. J. Chapple, I. L. C. Wright, H. J. Roberts, A. and Cooper, P. R. 2012. Extracellular deoxyribonuclease production by periodontal bacteria. Journal of Periodontal Research, Vol. 47, Issue. 4, p. 439.

Lazarus, Robert A. and Wagener, Jeffrey S. 2013. Pharmaceutical Biotechnology. p. 321.

Sun, Shao-Kai Wang, Bei-Bei and Yan, Xiu-Ping 2013. A label-free near-infrared fluorescent assay for the determination of deoxyribonuclease I activity based on malachite green/G-quadruplexes. The Analyst, Vol. 138, Issue. 9, p. 2592.

LaCava, John Molloy, Kelly R. Taylor, Martin S. Domanski, Michal Chait, Brian T. and Rout, Michael P. 2015. Affinity Proteomics to Study Endogenous Protein Complexes: Pointers, Pitfalls, Preferences and Perspectives. BioTechniques, Vol. 58, Issue. 3, p. 103.

Mamet, Julien Harris, Scott Klukinov, Michael Yeomans, David C Donahue, Renee R Taylor, Brad K Eddinger, Kelly Yaksh, Tony and Manning, Donald C 2017. Pharmacology, pharmacokinetics, and metabolism of the DNA-decoy AYX1 for the prevention of acute and chronic post-surgical pain. Molecular Pain, Vol. 13, Issue. ,

Kingston, Anthony W. Ponkratz, Christine Raleigh, Elisabeth A. and Gourse, Richard L. 2017. Rpn (YhgA-Like) Proteins of Escherichia coli K-12 and Their Contribution to RecA-Independent Horizontal Transfer. Journal of Bacteriology, Vol. 199, Issue. 7,

Guichard, Marie-Julie Kinoo, David Aubriot, Anne-Sophie Bauwens, Nathalie Gougué, Jordane Vermeulen, François Lebecque, Patrick Leal, Teresinha and Vanbever, Rita 2018. Impact of PEGylation on the mucolytic activity of recombinant human deoxyribonuclease I in cystic fibrosis sputum. Clinical Science, Vol. 132, Issue. 13, p. 1439.

Lazarus, Robert A. and Wagener†, Jeffrey S. 2019. Pharmaceutical Biotechnology. p. 471.

Schiltz, Carl J Lee, April Partlow, Edward A Hosford, Christopher J and Chappie, Joshua S 2019. Structural characterization of Class 2 OLD family nucleases supports a two-metal catalysis mechanism for cleavage. Nucleic Acids Research, Vol. 47, Issue. 17, p. 9448.

Krishnamoorthy, Kurinji Kewalramani, Sumit Ehlen, Ali Moreau, Liane M. Mirkin, Chad A. Olvera de la Cruz, Monica and Bedzyk, Michael J. 2019. Enzymatic Degradation of DNA Probed by In Situ X-ray Scattering. ACS Nano, Vol. 13, Issue. 10, p. 11382.

Grünberg, Sebastian Coxam, Baptiste Chen, Tien-Hao Dai, Nan Saleh, Lana Corrêa, Ivan R Nichols, Nicole M and Yigit, Erbay 2021. E. coli RNase I exhibits a strong Ca2+-dependent inherent double-stranded RNase activity. Nucleic Acids Research, Vol. 49, Issue. 9, p. 5265.

Delfino, Danila Mori, Giulia Rivetti, Claudio Grigoletto, Antonella Bizzotto, Gloria Cavozzi, Cristian Malatesta, Marco Cavazzini, Davide Pasut, Gianfranco and Percudani, Riccardo 2021. Actin-Resistant DNase1L2 as a Potential Therapeutics for CF Lung Disease. Biomolecules, Vol. 11, Issue. 3, p. 410.

Kyriazi, Maria-Eleni El-Sagheer, Afaf H. Medintz, Igor L. Brown, Tom and Kanaras, Antonios G. 2022. An Investigation into the Resistance of Spherical Nucleic Acids against DNA Enzymatic Degradation. Bioconjugate Chemistry, Vol. 33, Issue. 1, p. 219.

Song, Xingrui Song, Xinyue Lai, Weiyi and Wang, Hailin 2022. Hyperactive DNA Cutting for Unbiased UHPLC–MS/MS Quantification of Epigenetic DNA Marks by Engineering DNase I Mutants. Analytical Chemistry, Vol. 94, Issue. 50, p. 17670.

Download full list

Article contents

Ca2+-dependent activity of human DNase I and its hyperactive variants

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Ca2+-dependent activity of human DNase I and its hyperactive variants

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests