Principal Investigator

Changchun
Liu
Awardee Organization

University Of Connecticut Sch Of Med/Dnt
United States

Fiscal Year
2023
Activity Code
U01
Early Stage Investigator Grants (ESI)
Not Applicable
Project End Date

Low-Cost CRISPR-on-Paper for Cervical Cancer Screening at the Point of Care

Cervical cancer is among the leading causes of cancer death in women worldwide, especially in low- and middleincome countries (LMICs). High-risk human papillomaviruses (HPV) are the main causative agents of cervical cancer and its precursor lesions; therefore, the World Health Organization (WHO) has recommended HPV DNA testing for cervical cancer screening in LMICs. Although polymerase chain reaction (PCR) methods have been widely used for HPV DNA detection, they are restricted to centralized clinical laboratories due to the need for labor-intensive procedures and expensive equipment. Here, we propose to develop a simple, rapid, highly sensitive, and specific CRISPR-on-paper diagnostic platform to simultaneously detect multiple high-risk HPV genotypes for cervical cancer screening at the point of care. This innovative diagnostic system is based on our recently developed all-in-one dual CRISPR-Cas12a (AIOD-CRISPR) assay, which combines the simplicity and high sensitivity of isothermal nucleic acid amplification with the high specificity of CRISPR detection. To develop a low-cost, multiplexed molecular detection technology, we will incorporate the AIOD-CRISPR assay into a paper-based microfluidics platform. To eliminate the need for complex electronic instruments, we will take advantage of an exothermic reaction to generate chemical heat for the CRISPR-on-paper system by using a disposable hand warmer, thus enabling instrument-free cervical cancer screening. The detection results can be read by the naked eye or reported by a programmed smartphone without the need for an expensive optical detector. We will rigorously evaluate and validate the clinical applications of our CRISPR-on-paper diagnostic system by testing clinical samples in collaboration with clinicians and healthcare workers in UConn Health and Zambia. If successful, the proposed project has an important impact on global health by providing a simple, affordable, and sensitive method for rapid screening of cervical cancer in resource-poor settings. As a platform technology, the proposed CRISPR-on-paper diagnostic system can be easily adapted to detect other emerging pathogens.

Publications

  • Moon J, Liu C. Asymmetric CRISPR enabling cascade signal amplification for nucleic acid detection by competitive crRNA. Nature communications. 2023 Nov 18;14(1):7504. PMID: 37980404