BACKGROUND: Timely detection of graft rejection is an important issue in the follow-up care after solid organ transplantation. Until now, biopsy has been considered the "gold standard" in the diagnosis of graft rejection. However, non-invasive tests such as monitoring the levels of cell-free DNA (cfDNA) as a sensitive biomarker for graft integrity have attracted increasing interest. The rationale of this approach is that a rejected organ will lead to a significant release of donor-derived cfDNA, which can be detected in the serum of the transplant recipient. METHODS: We have developed a novel quantitative real-time PCR (qPCR) approach for detecting an increase of donor-derived cfDNA in the recipient's serum. Common insertion/deletion (InDel) genetic polymorphisms, which differ between donor and recipient, are targeted in our qPCR assay. In contrast to some other strategies, no specific donor/recipient constellations such as certain gender combinations or human leukocyte antigen (HLA) discrepancies are required for the application of our test. RESULTS: The method was first validated with serial dilutions of serum mixtures obtained from healthy blood donors and then used to determine donor-derived cfDNA levels in patients' sera within the first 3 days after their kidney transplantation had been performed. CONCLUSIONS: Our method represents a universally applicable, simple and cost-effective tool which can potentially be used to detect graft dysfunction in transplant recipients.
BACKGROUND: Timely detection of graft rejection is an important issue in the follow-up care after solid organ transplantation. Until now, biopsy has been considered the "gold standard" in the diagnosis of graft rejection. However, non-invasive tests such as monitoring the levels of cell-free DNA (cfDNA) as a sensitive biomarker for graft integrity have attracted increasing interest. The rationale of this approach is that a rejected organ will lead to a significant release of donor-derived cfDNA, which can be detected in the serum of the transplant recipient. METHODS: We have developed a novel quantitative real-time PCR (qPCR) approach for detecting an increase of donor-derived cfDNA in the recipient's serum. Common insertion/deletion (InDel) genetic polymorphisms, which differ between donor and recipient, are targeted in our qPCR assay. In contrast to some other strategies, no specific donor/recipient constellations such as certain gender combinations or human leukocyte antigen (HLA) discrepancies are required for the application of our test. RESULTS: The method was first validated with serial dilutions of serum mixtures obtained from healthy blood donors and then used to determine donor-derived cfDNA levels in patients' sera within the first 3 days after their kidney transplantation had been performed. CONCLUSIONS: Our method represents a universally applicable, simple and cost-effective tool which can potentially be used to detect graft dysfunction in transplant recipients.
Authors: Paul M K Gordon; Aneal Khan; Umair Sajid; Nicholas Chang; Varun Suresh; Leo Dimnik; Ryan E Lamont; Jillian S Parboosingh; Steven R Martin; Richard T Pon; Jene Weatherhead; Shelly Wegener; Debra Isaac; Steven C Greenway Journal: Front Cardiovasc Med Date: 2016-09-22
Authors: Su Kah Goh; Hongdo Do; Adam Testro; Julie Pavlovic; Angela Vago; Julie Lokan; Robert M Jones; Christopher Christophi; Alexander Dobrovic; Vijayaragavan Muralidharan Journal: Transplant Direct Date: 2019-06-21
Authors: Mahmoud Aljurf; Hala Abalkhail; Amal Alseraihy; Said Y Mohamed; Mouhab Ayas; Fahad Alsharif; Hazza Alzahrani; Abdullah Al-Jefri; Ghuzayel Aldawsari; Ali Al-Ahmari; Asim F Belgaumi; Claudia Ulrike Walter; Hassan El-Solh; Walid Rasheed; Maher Albitar Journal: Biotechnol Res Int Date: 2016-02-23
Authors: Arya Zarinsefat; Jose M Arreola Guerra; Tara Sigdel; Izabella Damm; Reuben Sarwal; Chitranon Chan-On; Gyula Szabo; Jorge L Aguilar-Frasco; Xicohtencatl Ixtlapale-Carmona; Carlos Salinas-Ramos; Leonardo Ramirez-Martinez; Claudio Ramirez; Mario Vilatoba; Luis E Morales Buenrostro; Josefina M Alberu; Minnie M Sarwal Journal: Front Immunol Date: 2021-02-03 Impact factor: 7.561