TY - JOUR
T1 - Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma
AU - Shanmugam, Ashwini
AU - Hariharan, Arun K.
AU - Hasina, Rifat
AU - Nair, Jayalakshmi R.
AU - Katragadda, Shanmukh
AU - Irusappan, Sivaraj
AU - Ravichandran, Aarthi
AU - Veeramachaneni, Vamsi
AU - Bettadapura, Radhakrishna
AU - Bhati, Muddasir
AU - Ramaswamy, Veena
AU - Rao, Vishal U.S.
AU - Bagadia, Ritvi K.
AU - Manjunath, Ashwini
AU - Manjunath, N. M.L.
AU - Solomon, Monica Charlotte
AU - Maji, Shiuli
AU - Bahadur, Urvashi
AU - Bettegowda, Chetan
AU - Papadopoulos, Nickolas
AU - Lingen, Mark W.
AU - Hariharan, Ramesh
AU - Gupta, Vaijayanti
AU - Agrawal, Nishant
AU - Izumchenko, Evgeny
N1 - Funding Information:
This work was supported by Tata Trusts through the Tata Center for Development at the University of Chicago Award to Nishant Agrawal and Rifat Hasina; by grants from the National Institutes of Health (grant R01DE028674 to Nishant Agrawal and Mark W. Lingen; grant R01DE027809 to Evgeny Izumchenko; and grant U01CA230691 to Nishant Agrawal, Chetan Bettegowda and Nickolas Papadopoulos); and by the philanthropic support of Jill and Ozzie Giglio.
Publisher Copyright:
© 2021 American Cancer Society
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2021/5/15
Y1 - 2021/5/15
N2 - Background: Oral cavity squamous cell carcinoma (OCSCC) is the most common head and neck malignancy. Although the survival rate of patients with advanced-stage disease remains approximately 20% to 60%, when detected at an early stage, the survival rate approaches 80%, posing a pressing need for a well validated profiling method to assess patients who have a high risk of developing OCSCC. Tumor DNA detection in saliva may provide a robust biomarker platform that overcomes the limitations of current diagnostic tests. However, there is no routine saliva-based screening method for patients with OCSCC. Methods: The authors designed a custom next-generation sequencing panel with unique molecular identifiers that covers coding regions of 7 frequently mutated genes in OCSCC and applied it on DNA extracted from 121 treatment-naive OCSCC tumors and matched preoperative saliva specimens. Results: By using stringent variant-calling criteria, mutations were detected in 106 tumors, consistent with a predicted detection rate ≥88%. Moreover, mutations identified in primary malignancies were also detected in 93% of saliva samples. To ensure that variants are not errors resulting in false-positive calls, a multistep analytical validation of this approach was performed: 1) re-sequencing of 46 saliva samples confirmed 88% of somatic variants; 2) no functionally relevant mutations were detected in saliva samples from 11 healthy individuals without a history of tobacco or alcohol; and 3) using a panel of 7 synthetic loci across 8 sequencing runs, it was confirmed that the platform developed is reproducible and provides sensitivity on par with droplet digital polymerase chain reaction. Conclusions: The current data highlight the feasibility of somatic mutation identification in driver genes in saliva collected at the time of OCSCC diagnosis.
AB - Background: Oral cavity squamous cell carcinoma (OCSCC) is the most common head and neck malignancy. Although the survival rate of patients with advanced-stage disease remains approximately 20% to 60%, when detected at an early stage, the survival rate approaches 80%, posing a pressing need for a well validated profiling method to assess patients who have a high risk of developing OCSCC. Tumor DNA detection in saliva may provide a robust biomarker platform that overcomes the limitations of current diagnostic tests. However, there is no routine saliva-based screening method for patients with OCSCC. Methods: The authors designed a custom next-generation sequencing panel with unique molecular identifiers that covers coding regions of 7 frequently mutated genes in OCSCC and applied it on DNA extracted from 121 treatment-naive OCSCC tumors and matched preoperative saliva specimens. Results: By using stringent variant-calling criteria, mutations were detected in 106 tumors, consistent with a predicted detection rate ≥88%. Moreover, mutations identified in primary malignancies were also detected in 93% of saliva samples. To ensure that variants are not errors resulting in false-positive calls, a multistep analytical validation of this approach was performed: 1) re-sequencing of 46 saliva samples confirmed 88% of somatic variants; 2) no functionally relevant mutations were detected in saliva samples from 11 healthy individuals without a history of tobacco or alcohol; and 3) using a panel of 7 synthetic loci across 8 sequencing runs, it was confirmed that the platform developed is reproducible and provides sensitivity on par with droplet digital polymerase chain reaction. Conclusions: The current data highlight the feasibility of somatic mutation identification in driver genes in saliva collected at the time of OCSCC diagnosis.
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U2 - 10.1002/cncr.33393
DO - 10.1002/cncr.33393
M3 - Article
AN - SCOPUS:85099068363
SN - 0008-543X
VL - 127
SP - 1576
EP - 1589
JO - Cancer
JF - Cancer
IS - 10
ER -