Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma

Ashwini Shanmugam; Arun K. Hariharan; Rifat Hasina; Jayalakshmi R. Nair; Shanmukh Katragadda; Sivaraj Irusappan; Aarthi Ravichandran; Vamsi Veeramachaneni; Radhakrishna Bettadapura; Muddasir Bhati; Veena Ramaswamy; Vishal U.S. Rao; Ritvi K. Bagadia; Ashwini Manjunath; N. M.L. Manjunath; Monica Charlotte Solomon; Shiuli Maji; Urvashi Bahadur; Chetan Bettegowda; Nickolas Papadopoulos; Mark W. Lingen; Ramesh Hariharan; Vaijayanti Gupta; Nishant Agrawal; Evgeny Izumchenko

doi:10.1002/cncr.33393

Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma

Ashwini Shanmugam
, Arun K. Hariharan
, Rifat Hasina
, Jayalakshmi R. Nair
, Shanmukh Katragadda
, Sivaraj Irusappan
, Aarthi Ravichandran
, Vamsi Veeramachaneni
, Radhakrishna Bettadapura
, Muddasir Bhati
, Veena Ramaswamy
, Vishal U.S. Rao
, Ritvi K. Bagadia
, Ashwini Manjunath
, N. M.L. Manjunath
, Monica Charlotte Solomon
, Shiuli Maji
, Urvashi Bahadur
, Chetan Bettegowda
, Nickolas Papadopoulos

Mark W. Lingen, Ramesh Hariharan, Vaijayanti Gupta^*, Nishant Agrawal, Evgeny Izumchenko

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

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.

Original language	English
Pages (from-to)	1576 - 1589
Number of pages	14
Journal	Cancer
Volume	127
Issue number	10
DOIs	https://doi.org/10.1002/cncr.33393
Publication status	Published - 15-05-2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

All Science Journal Classification (ASJC) codes

Oncology
Cancer Research

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10.1002/cncr.33393

Cite this

Shanmugam, A., Hariharan, A. K., Hasina, R., Nair, J. R., Katragadda, S., Irusappan, S., Ravichandran, A., Veeramachaneni, V., Bettadapura, R., Bhati, M., Ramaswamy, V., Rao, V. U. S., Bagadia, R. K., Manjunath, A., Manjunath, N. M. L., Solomon, M. C., Maji, S., Bahadur, U., Bettegowda, C., ... Izumchenko, E. (2021). Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma. Cancer, 127(10), 1576 - 1589. https://doi.org/10.1002/cncr.33393

@article{a4d2d377c86c413b83d4645524ceb008,

title = "Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma",

abstract = "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.",

author = "Ashwini Shanmugam and Hariharan, \{Arun K.\} and Rifat Hasina and Nair, \{Jayalakshmi R.\} and Shanmukh Katragadda and Sivaraj Irusappan and Aarthi Ravichandran and Vamsi Veeramachaneni and Radhakrishna Bettadapura and Muddasir Bhati and Veena Ramaswamy and Rao, \{Vishal U.S.\} and Bagadia, \{Ritvi K.\} and Ashwini Manjunath and Manjunath, \{N. M.L.\} and Solomon, \{Monica Charlotte\} and Shiuli Maji and Urvashi Bahadur and Chetan Bettegowda and Nickolas Papadopoulos and Lingen, \{Mark W.\} and Ramesh Hariharan and Vaijayanti Gupta and Nishant Agrawal and Evgeny Izumchenko",

note = "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: {\textcopyright} 2021 American Cancer Society Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = may,

day = "15",

doi = "10.1002/cncr.33393",

language = "English",

volume = "127",

pages = "1576 -- 1589",

journal = "Cancer",

issn = "0008-543X",

publisher = "John Wiley and Sons Inc.",

number = "10",

}

Shanmugam, A, Hariharan, AK, Hasina, R, Nair, JR, Katragadda, S, Irusappan, S, Ravichandran, A, Veeramachaneni, V, Bettadapura, R, Bhati, M, Ramaswamy, V, Rao, VUS, Bagadia, RK, Manjunath, A, Manjunath, NML, Solomon, MC, Maji, S, Bahadur, U, Bettegowda, C, Papadopoulos, N, Lingen, MW, Hariharan, R, Gupta, V, Agrawal, N & Izumchenko, E 2021, 'Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma', Cancer, vol. 127, no. 10, pp. 1576 - 1589. https://doi.org/10.1002/cncr.33393

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.

UR - https://www.scopus.com/pages/publications/85099068363

UR - https://www.scopus.com/pages/publications/85099068363#tab=citedBy

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 -

Ultrasensitive detection of tumor-specific mutations in saliva of patients with oral cavity squamous cell carcinoma

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