AI Article Synopsis
- Ovarian cancer is one of the deadliest gynecological cancers, often diagnosed late, which leads to a high mortality rate among women.
- The existing biomarkers CA125 and HE4 have limitations in sensitivity and specificity, though HE4 shows over 90% specificity for diagnosing ovarian cancer.
- A new ultrasensitive all-graphene quantum dot Förster resonance energy transfer (FRET) probe has been developed for the ratiometric detection of the HE4 biomarker, capable of detecting concentrations as low as 4.8 pM, with a broad dynamic detection range and promising selectivity against various proteins.
Article Abstract
Ovarian cancer (OVC), the most lethal form of all gynecological cancers, is a big threat to women's health. Late diagnosis at the advanced stages is one of the major reasons for the ovarian cancer-related deaths. Conventionally, the up-regulated proteins CA125 (cancer antigen 125) and HE4 (human epididymis protein 4) are used as biomarkers to diagnose the OVC malignancies. The lack of sensitivity/specificity and the false-positive results create complexity in the diagnostic process. With specificity over 90 %, HE4 is suitable for diagnosing ovarian cancer. Herein, we have developed an ultrasensitive all-graphene quantum dot (GQD) Förster resonance energy transfer (FRET) probe for the ratiometric detection of HE4 biomarker. A set of two GQD samples were solvothermally prepared and then analyzed by the morphological, structural, and photophysical characterization. One GQD sample exhibited a strong green emission, peaked at around 515 nm, while the other GQD sample displayed a strong red emission with maximum at around 615 nm. The good spectral overlap between the emission and excitation spectra of the green and red GQDs, respectively, all allowed us to consider them for the design of FRET-based probe. The green and red-emitting GQDs were conjugated with HE4 antibody and used as donor and acceptor, respectively for the ratiometric sensing of HE4 ovarian cancer biomarker. The all GQD FRET probe was able to detect as low as 4.8 pM, along with a large dynamic detection range up to 300 nM. The selectivity and interference effect of the developed FRET probe was also investigated against different protein combinations.
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| http://dx.doi.org/10.1016/j.colsurfb.2020.111458 | DOI Listing |
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