A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch®® NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps

Ewan Hunter; Heba Alshaker; Cicely Weston; Mutaz Issa; Shekinah Bautista; Abel Gebregzabhar; Anya Virdi; Ann Dring; Ryan Powell; Jayne Green; Roshan Lal; Vamsi Velchuru; Kamal Aryal; Muhammad Radzi Bin Abu Hassan; Goh Tiong Meng; Janisha Suriakant Patel; Shameera Pharveen Mohamed Gani; Chun Ren Lim; Thomas Guiel; Alexandre Akoulitchev; Dmitri Pchejetski

doi:10.3390/cancers17030521

A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch^®® NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps

Ewan Hunter, Heba Alshaker, Cicely Weston, Mutaz Issa, Shekinah Bautista, Abel Gebregzabhar, Anya Virdi, Ann Dring, Ryan Powell, Jayne Green, Roshan Lal, Vamsi Velchuru, Kamal Aryal, Muhammad Radzi Bin Abu Hassan, Goh Tiong Meng, Janisha Suriakant Patel, Shameera Pharveen Mohamed Gani, Chun Ren Lim, Thomas Guiel, Alexandre AkoulitchevDmitri Pchejetski

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Abstract

Background/Objectives: Colorectal cancer (CRC) arises from the epithelial lining of the colon or rectum, often following a progression from benign adenomatous polyps to malignant carcinoma. Screening modalities such as colonoscopy, faecal immunochemical tests (FIT), and FIT-DNA are critical for early detection and prevention, but non-invasive methods lack sensitivity to polyps and early CRC. Chromosome conformations (CCs) are potent epigenetic regulators of gene expression. We have previously developed an epigenetic assay, EpiSwitch^®®, that employs an algorithmic-based CCs analysis. Using EpiSwitch^®® technology, we have shown the presence of cancer-specific CCs in peripheral blood mononuclear cells (PBMCs) and primary tumours of patients with melanoma and prostate cancer. EpiSwitch^®®-based commercial tests are now available to diagnose prostate cancer with 94% accuracy (PSE test) and response to immune checkpoint inhibitors across 14 cancers with 85% accuracy (CiRT test). Methods/Results/Conclusions: Using blood samples collected from n = 171 patients with CRC, n = 44 patients with colorectal polyps and n = 110 patients with a ‘clear’ colonoscopy we performed whole Genome DNA screening for CCs correlating to CRC diagnosis. Our findings suggest the presence of two eight-marker CC signatures (EpiSwitch^®® NST) in whole blood that allow diagnosis of CRC and precancerous polyps, respectively. Independent validation cohort testing demonstrated high accuracy in identifying colorectal polyps and early versus late stages of CRC with an exceptionally high sensitivity of 79–90% and a high positive prediction value of 60–84%. Linking the top diagnostic CCs to nearby genes, we have built pathways maps that likely underline processes contributing to the pathology of polyp and CRC progression, including TGFβ, cMYC, Rho GTPase, ROS, TNFa/NFκB, and APC.

Original language	English
Article number	521
Journal	Cancers
Volume	17
Issue number	3
DOIs	https://doi.org/10.3390/cancers17030521
Publication status	Published - 4 Feb 2025

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

3D-genomic profiling
blood-based biomarkers
cancer diagnosis
chromosome conformations
colonic polyp
colorectal cancer
epigenetics

Access to Document

10.3390/cancers17030521Licence: CC BY

cancers-17-00521Final published version, 1.59 MBLicence: CC BY

Cite this

Hunter, E., Alshaker, H., Weston, C., Issa, M., Bautista, S., Gebregzabhar, A., Virdi, A., Dring, A., Powell, R., Green, J., Lal, R., Velchuru, V., Aryal, K., Bin Abu Hassan, M. R., Meng, G. T., Patel, J. S., Mohamed Gani, S. P., Lim, C. R., Guiel, T., ... Pchejetski, D. (2025). A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch^®® NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps. Cancers, 17(3), Article 521. https://doi.org/10.3390/cancers17030521

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title = "A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch{\textregistered}{\textregistered} NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps",

abstract = "Background/Objectives: Colorectal cancer (CRC) arises from the epithelial lining of the colon or rectum, often following a progression from benign adenomatous polyps to malignant carcinoma. Screening modalities such as colonoscopy, faecal immunochemical tests (FIT), and FIT-DNA are critical for early detection and prevention, but non-invasive methods lack sensitivity to polyps and early CRC. Chromosome conformations (CCs) are potent epigenetic regulators of gene expression. We have previously developed an epigenetic assay, EpiSwitch{\textregistered}{\textregistered}, that employs an algorithmic-based CCs analysis. Using EpiSwitch{\textregistered}{\textregistered} technology, we have shown the presence of cancer-specific CCs in peripheral blood mononuclear cells (PBMCs) and primary tumours of patients with melanoma and prostate cancer. EpiSwitch{\textregistered}{\textregistered}-based commercial tests are now available to diagnose prostate cancer with 94% accuracy (PSE test) and response to immune checkpoint inhibitors across 14 cancers with 85% accuracy (CiRT test). Methods/Results/Conclusions: Using blood samples collected from n = 171 patients with CRC, n = 44 patients with colorectal polyps and n = 110 patients with a {\textquoteleft}clear{\textquoteright} colonoscopy we performed whole Genome DNA screening for CCs correlating to CRC diagnosis. Our findings suggest the presence of two eight-marker CC signatures (EpiSwitch{\textregistered}{\textregistered} NST) in whole blood that allow diagnosis of CRC and precancerous polyps, respectively. Independent validation cohort testing demonstrated high accuracy in identifying colorectal polyps and early versus late stages of CRC with an exceptionally high sensitivity of 79–90% and a high positive prediction value of 60–84%. Linking the top diagnostic CCs to nearby genes, we have built pathways maps that likely underline processes contributing to the pathology of polyp and CRC progression, including TGFβ, cMYC, Rho GTPase, ROS, TNFa/NFκB, and APC.",

keywords = "3D-genomic profiling, blood-based biomarkers, cancer diagnosis, chromosome conformations, colonic polyp, colorectal cancer, epigenetics",

author = "Ewan Hunter and Heba Alshaker and Cicely Weston and Mutaz Issa and Shekinah Bautista and Abel Gebregzabhar and Anya Virdi and Ann Dring and Ryan Powell and Jayne Green and Roshan Lal and Vamsi Velchuru and Kamal Aryal and {Bin Abu Hassan}, {Muhammad Radzi} and Meng, {Goh Tiong} and Patel, {Janisha Suriakant} and {Mohamed Gani}, {Shameera Pharveen} and Lim, {Chun Ren} and Thomas Guiel and Alexandre Akoulitchev and Dmitri Pchejetski",

note = "Data Availability Statement: The data presented in this study are available on request from the corresponding author. Funding Information: This work was funded by Oxford BioDynamics Plc.",

year = "2025",

month = feb,

day = "4",

doi = "10.3390/cancers17030521",

language = "English",

volume = "17",

journal = "Cancers",

issn = "2072-6694",

publisher = "MDPI AG",

number = "3",

}

Hunter, E, Alshaker, H, Weston, C, Issa, M, Bautista, S, Gebregzabhar, A, Virdi, A, Dring, A, Powell, R, Green, J, Lal, R, Velchuru, V, Aryal, K, Bin Abu Hassan, MR, Meng, GT, Patel, JS, Mohamed Gani, SP, Lim, CR, Guiel, T, Akoulitchev, A & Pchejetski, D 2025, 'A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch^®® NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps', Cancers, vol. 17, no. 3, 521. https://doi.org/10.3390/cancers17030521

TY - JOUR

T1 - A new blood-bBased epigenetic diagnostic biomarker test (EpiSwitch®® NST) with high sensitivity and positive predictive value for colorectal cancer and precancerous polyps

AU - Hunter, Ewan

AU - Alshaker, Heba

AU - Weston, Cicely

AU - Issa, Mutaz

AU - Bautista, Shekinah

AU - Gebregzabhar, Abel

AU - Virdi, Anya

AU - Dring, Ann

AU - Powell, Ryan

AU - Green, Jayne

AU - Lal, Roshan

AU - Velchuru, Vamsi

AU - Aryal, Kamal

AU - Bin Abu Hassan, Muhammad Radzi

AU - Meng, Goh Tiong

AU - Patel, Janisha Suriakant

AU - Mohamed Gani, Shameera Pharveen

AU - Lim, Chun Ren

AU - Guiel, Thomas

AU - Akoulitchev, Alexandre

AU - Pchejetski, Dmitri

N1 - Data Availability Statement: The data presented in this study are available on request from the corresponding author. Funding Information: This work was funded by Oxford BioDynamics Plc.

PY - 2025/2/4

Y1 - 2025/2/4

N2 - Background/Objectives: Colorectal cancer (CRC) arises from the epithelial lining of the colon or rectum, often following a progression from benign adenomatous polyps to malignant carcinoma. Screening modalities such as colonoscopy, faecal immunochemical tests (FIT), and FIT-DNA are critical for early detection and prevention, but non-invasive methods lack sensitivity to polyps and early CRC. Chromosome conformations (CCs) are potent epigenetic regulators of gene expression. We have previously developed an epigenetic assay, EpiSwitch®®, that employs an algorithmic-based CCs analysis. Using EpiSwitch®® technology, we have shown the presence of cancer-specific CCs in peripheral blood mononuclear cells (PBMCs) and primary tumours of patients with melanoma and prostate cancer. EpiSwitch®®-based commercial tests are now available to diagnose prostate cancer with 94% accuracy (PSE test) and response to immune checkpoint inhibitors across 14 cancers with 85% accuracy (CiRT test). Methods/Results/Conclusions: Using blood samples collected from n = 171 patients with CRC, n = 44 patients with colorectal polyps and n = 110 patients with a ‘clear’ colonoscopy we performed whole Genome DNA screening for CCs correlating to CRC diagnosis. Our findings suggest the presence of two eight-marker CC signatures (EpiSwitch®® NST) in whole blood that allow diagnosis of CRC and precancerous polyps, respectively. Independent validation cohort testing demonstrated high accuracy in identifying colorectal polyps and early versus late stages of CRC with an exceptionally high sensitivity of 79–90% and a high positive prediction value of 60–84%. Linking the top diagnostic CCs to nearby genes, we have built pathways maps that likely underline processes contributing to the pathology of polyp and CRC progression, including TGFβ, cMYC, Rho GTPase, ROS, TNFa/NFκB, and APC.

AB - Background/Objectives: Colorectal cancer (CRC) arises from the epithelial lining of the colon or rectum, often following a progression from benign adenomatous polyps to malignant carcinoma. Screening modalities such as colonoscopy, faecal immunochemical tests (FIT), and FIT-DNA are critical for early detection and prevention, but non-invasive methods lack sensitivity to polyps and early CRC. Chromosome conformations (CCs) are potent epigenetic regulators of gene expression. We have previously developed an epigenetic assay, EpiSwitch®®, that employs an algorithmic-based CCs analysis. Using EpiSwitch®® technology, we have shown the presence of cancer-specific CCs in peripheral blood mononuclear cells (PBMCs) and primary tumours of patients with melanoma and prostate cancer. EpiSwitch®®-based commercial tests are now available to diagnose prostate cancer with 94% accuracy (PSE test) and response to immune checkpoint inhibitors across 14 cancers with 85% accuracy (CiRT test). Methods/Results/Conclusions: Using blood samples collected from n = 171 patients with CRC, n = 44 patients with colorectal polyps and n = 110 patients with a ‘clear’ colonoscopy we performed whole Genome DNA screening for CCs correlating to CRC diagnosis. Our findings suggest the presence of two eight-marker CC signatures (EpiSwitch®® NST) in whole blood that allow diagnosis of CRC and precancerous polyps, respectively. Independent validation cohort testing demonstrated high accuracy in identifying colorectal polyps and early versus late stages of CRC with an exceptionally high sensitivity of 79–90% and a high positive prediction value of 60–84%. Linking the top diagnostic CCs to nearby genes, we have built pathways maps that likely underline processes contributing to the pathology of polyp and CRC progression, including TGFβ, cMYC, Rho GTPase, ROS, TNFa/NFκB, and APC.

KW - 3D-genomic profiling

KW - blood-based biomarkers

KW - cancer diagnosis

KW - chromosome conformations

KW - colonic polyp

KW - colorectal cancer

KW - epigenetics

UR - http://www.scopus.com/inward/record.url?scp=85217766613&partnerID=8YFLogxK

U2 - 10.3390/cancers17030521

DO - 10.3390/cancers17030521

M3 - Article

AN - SCOPUS:85217766613

SN - 2072-6694

VL - 17

JO - Cancers

JF - Cancers

IS - 3

M1 - 521

ER -