A Robust, Safe, and Scalable Magnetic Nanoparticle Workflow for RNA Extraction of Pathogens from Clinical and Wastewater Samples

Gerardo Ramos-Mandujano; Rahul Salunke; Sara Mfarrej; Andri Taruna Rachmadi; Sharif Hala; Jinna Xu; Fadwa S Alofi; Asim Khogeer; Anwar M Hashem; Naif A M Almontashiri; Afrah Alsomali; Digambar B Shinde; Samir Hamdan; Pei-Ying Hong; Arnab Pain; Mo Li

doi:10.1002/gch2.202000068

A Robust, Safe, and Scalable Magnetic Nanoparticle Workflow for RNA Extraction of Pathogens from Clinical and Wastewater Samples

Glob Chall. 2021 Feb 22;5(4):2000068. doi: 10.1002/gch2.202000068. eCollection 2021 Apr.

Authors

Gerardo Ramos-Mandujano¹, Rahul Salunke¹, Sara Mfarrej¹, Andri Taruna Rachmadi¹, Sharif Hala^{1

2}, Jinna Xu¹, Fadwa S Alofi³, Asim Khogeer⁴, Anwar M Hashem^{5

6}, Naif A M Almontashiri^{7

8}, Afrah Alsomali⁹, Digambar B Shinde¹⁰, Samir Hamdan¹, Pei-Ying Hong¹, Arnab Pain¹, Mo Li¹

Affiliations

¹ Biological and Environmental Sciences and Engineering Division (BESE) King Abdullah University of Science and Technology (KAUST) Thuwal 23955-6900 Kingdom of Saudi Arabia.
² King Abdullah International Medical Research Centre King Saud University for Health Sciences Ministry of National Guard Health Affairs Jeddah 21859 Saudi Arabia.
³ Infectious Diseases Department King Fahad Hospital Almadinah Almunwarah 11525 Saudi Arabia.
⁴ Plan and Research Department General Directorate of Health Affairs Makkah Region Ministry of Health Mecca 11176 Saudi Arabia.
⁵ Vaccines and Immunotherapy Unit King Fahd Medical Research Center King Abdulaziz University Jeddah 21859 Saudi Arabia.
⁶ Department of Medical Microbiology and Parasitology Faculty of Medicine King Abdulaziz University Jeddah 21859 Saudi Arabia.
⁷ College of Applied Medical Sciences Taibah University Almadinah Almunwarah 71491 Saudi Arabia.
⁸ Center for Genetics and Inherited Diseases Taibah University Almadinah Almunwarah 71491 Saudi Arabia.
⁹ Infectious Diseases Department King Abdullah Medical Complex Jeddah 24246 Saudi Arabia.
¹⁰ Division of Physical Science and Engineering King Abdullah University of Science and Technology (KAUST) Thuwal 23955-6900 Kingdom of Saudi Arabia.

Abstract

Molecular diagnosis and surveillance of pathogens such as SARS-CoV-2 depend on nucleic acid isolation. Pandemics at the scale of COVID-19 can cause a global shortage of proprietary commercial reagents and BSL-2 laboratories to safely perform testing. Therefore, alternative solutions are urgently needed to address these challenges. An open-source method, magnetic-nanoparticle-aided viral RNA isolation from contagious samples (MAVRICS), built upon readily available reagents, and easily assembled in any basically equipped laboratory, is thus developed. The performance of MAVRICS is evaluated using validated pathogen detection assays and real-world and contrived samples. Unlike conventional methods, MAVRICS works directly in samples inactivated in phenol-chloroform (e.g., TRIzol), thus allowing infectious samples to be handled safely without biocontainment facilities. MAVRICS allows wastewater biomass immobilized on membranes to be directly inactivated and lysed in TRIzol followed by RNA extraction by magnetic nanoparticles, thereby greatly reducing biohazard risk and simplifying processing procedures. Using 39 COVID-19 patient samples and two wastewater samples, it is shown that MAVRICS rivals commercial kits in detection of SARS-CoV-2, influenza viruses, and respiratory syncytial virus. Therefore, MAVRICS is safe, fast, and scalable. It is field-deployable with minimal equipment requirements and could become an enabling technology for widespread testing and wastewater monitoring of diverse pathogens.

Keywords: SARS‐CoV‐2; influenza; magnetic nanoparticles; nucleic acid purification; wastewater surveillance.