Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer

Brandon Mistretta; Sakuni Rankothgedera; Micah Castillo; Mitchell Rao; Kimberly Holloway; Anjana Bhardwaj; Maha El Noafal; Constance Albarracin; Randa El-Zein; Hengameh Rezaei; Xiaoping Su; Rehan Akbani; Xiaoshan M. Shao; Brian J. Czerniecki; Rachel Karchin; Isabelle Bedrosian; Preethi H. Gunaratne

doi:10.3389/fimmu.2023.1188831

Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer

Brandon Mistretta, Sakuni Rankothgedera, Micah Castillo, Mitchell Rao, Kimberly Holloway, Anjana Bhardwaj, Maha El Noafal, Constance Albarracin, Randa El-Zein, Hengameh Rezaei, Xiaoping Su, Rehan Akbani, Xiaoshan M. Shao, Brian J. Czerniecki, Rachel Karchin, Isabelle Bedrosian, Preethi H. Gunaratne

Pathology, Anatomical

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

Abstract

Introduction: We present here a strategy to identify immunogenic neoantigen candidates from unique amino acid sequences at the junctions of fusion proteins which can serve as targets in the development of tumor vaccines for the treatment of breastcancer. Method: We mined the sequence reads of breast tumor tissue that are usually discarded as discordant paired-end reads and discovered cancer specific fusion transcripts using tissue from cancer free controls as reference. Binding affinity predictions of novel peptide sequences crossing the fusion junction were analyzed by the MHC Class I binding predictor, MHCnuggets. CD8+ T cell responses against the 15 peptides were assessed through in vitro Enzyme Linked Immunospot (ELISpot). Results: We uncovered 20 novel fusion transcripts from 75 breast tumors of 3 subtypes: TNBC, HER2+, and HR+. Of these, the NSFP1-LRRC37A2 fusion transcript was selected for further study. The 3833 bp chimeric RNA predicted by the consensus fusion junction sequence is consistent with a read-through transcription of the 5’-gene NSFP1-Pseudo gene NSFP1 (NSFtruncation at exon 12/13) followed by trans-splicing to connect withLRRC37A2 located immediately 3’ through exon 1/2. A total of 15 different 8-mer neoantigen peptides discovered from the NSFP1 and LRRC37A2 truncations were predicted to bind to a total of 35 unique MHC class I alleles with a binding affinity of IC50<500nM.); 1 of which elicited a robust immune response. Conclusion: Our data provides a framework to identify immunogenic neoantigen candidates from fusion transcripts and suggests a potential vaccine strategy to target the immunogenic neopeptides in patients with tumors carrying the NSFP1-LRRC37A2 fusion.

Original language	English (US)
Article number	1188831
Journal	Frontiers in immunology
Volume	14
DOIs	https://doi.org/10.3389/fimmu.2023.1188831
State	Published - 2023

Keywords

chimeric RNAs
immunopeptides
neoantigens
RNA fusions
tumor peptide vaccines

ASJC Scopus subject areas

Immunology and Allergy
Immunology

MD Anderson CCSG core facilities

Bioinformatics Shared Resource

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10.3389/fimmu.2023.1188831

Cite this

Mistretta, B., Rankothgedera, S., Castillo, M., Rao, M., Holloway, K., Bhardwaj, A., El Noafal, M., Albarracin, C., El-Zein, R., Rezaei, H., Su, X., Akbani, R., Shao, X. M., Czerniecki, B. J., Karchin, R., Bedrosian, I., & Gunaratne, P. H. (2023). Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer. Frontiers in immunology, 14, Article 1188831. https://doi.org/10.3389/fimmu.2023.1188831

Mistretta, B, Rankothgedera, S, Castillo, M, Rao, M, Holloway, K, Bhardwaj, A, El Noafal, M, Albarracin, C, El-Zein, R, Rezaei, H, Su, X , Akbani, R, Shao, XM, Czerniecki, BJ, Karchin, R, Bedrosian, I & Gunaratne, PH 2023, 'Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer', Frontiers in immunology, vol. 14, 1188831. https://doi.org/10.3389/fimmu.2023.1188831

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title = "Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer",

abstract = "Introduction: We present here a strategy to identify immunogenic neoantigen candidates from unique amino acid sequences at the junctions of fusion proteins which can serve as targets in the development of tumor vaccines for the treatment of breastcancer. Method: We mined the sequence reads of breast tumor tissue that are usually discarded as discordant paired-end reads and discovered cancer specific fusion transcripts using tissue from cancer free controls as reference. Binding affinity predictions of novel peptide sequences crossing the fusion junction were analyzed by the MHC Class I binding predictor, MHCnuggets. CD8+ T cell responses against the 15 peptides were assessed through in vitro Enzyme Linked Immunospot (ELISpot). Results: We uncovered 20 novel fusion transcripts from 75 breast tumors of 3 subtypes: TNBC, HER2+, and HR+. Of these, the NSFP1-LRRC37A2 fusion transcript was selected for further study. The 3833 bp chimeric RNA predicted by the consensus fusion junction sequence is consistent with a read-through transcription of the 5{\textquoteright}-gene NSFP1-Pseudo gene NSFP1 (NSFtruncation at exon 12/13) followed by trans-splicing to connect withLRRC37A2 located immediately 3{\textquoteright} through exon 1/2. A total of 15 different 8-mer neoantigen peptides discovered from the NSFP1 and LRRC37A2 truncations were predicted to bind to a total of 35 unique MHC class I alleles with a binding affinity of IC50<500nM.); 1 of which elicited a robust immune response. Conclusion: Our data provides a framework to identify immunogenic neoantigen candidates from fusion transcripts and suggests a potential vaccine strategy to target the immunogenic neopeptides in patients with tumors carrying the NSFP1-LRRC37A2 fusion.",

keywords = "chimeric RNAs, immunopeptides, neoantigens, RNA fusions, tumor peptide vaccines",

author = "Brandon Mistretta and Sakuni Rankothgedera and Micah Castillo and Mitchell Rao and Kimberly Holloway and Anjana Bhardwaj and {El Noafal}, Maha and Constance Albarracin and Randa El-Zein and Hengameh Rezaei and Xiaoping Su and Rehan Akbani and Shao, {Xiaoshan M.} and Czerniecki, {Brian J.} and Rachel Karchin and Isabelle Bedrosian and Gunaratne, {Preethi H.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 Mistretta, Rankothgedera, Castillo, Rao, Holloway, Bhardwaj, El Noafal, Albarracin, El-Zein, Rezaei, Su, Akbani, Shao, Czerniecki, Karchin, Bedrosian and Gunaratne.",

year = "2023",

doi = "10.3389/fimmu.2023.1188831",

language = "English (US)",

volume = "14",

journal = "Frontiers in immunology",

issn = "1664-3224",

publisher = "Frontiers Media S. A.",

}

TY - JOUR

T1 - Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer

AU - Mistretta, Brandon

AU - Rankothgedera, Sakuni

AU - Castillo, Micah

AU - Rao, Mitchell

AU - Holloway, Kimberly

AU - Bhardwaj, Anjana

AU - El Noafal, Maha

AU - Albarracin, Constance

AU - El-Zein, Randa

AU - Rezaei, Hengameh

AU - Su, Xiaoping

AU - Akbani, Rehan

AU - Shao, Xiaoshan M.

AU - Czerniecki, Brian J.

AU - Karchin, Rachel

AU - Bedrosian, Isabelle

AU - Gunaratne, Preethi H.

N1 - Publisher Copyright: Copyright © 2023 Mistretta, Rankothgedera, Castillo, Rao, Holloway, Bhardwaj, El Noafal, Albarracin, El-Zein, Rezaei, Su, Akbani, Shao, Czerniecki, Karchin, Bedrosian and Gunaratne.

PY - 2023

Y1 - 2023

N2 - Introduction: We present here a strategy to identify immunogenic neoantigen candidates from unique amino acid sequences at the junctions of fusion proteins which can serve as targets in the development of tumor vaccines for the treatment of breastcancer. Method: We mined the sequence reads of breast tumor tissue that are usually discarded as discordant paired-end reads and discovered cancer specific fusion transcripts using tissue from cancer free controls as reference. Binding affinity predictions of novel peptide sequences crossing the fusion junction were analyzed by the MHC Class I binding predictor, MHCnuggets. CD8+ T cell responses against the 15 peptides were assessed through in vitro Enzyme Linked Immunospot (ELISpot). Results: We uncovered 20 novel fusion transcripts from 75 breast tumors of 3 subtypes: TNBC, HER2+, and HR+. Of these, the NSFP1-LRRC37A2 fusion transcript was selected for further study. The 3833 bp chimeric RNA predicted by the consensus fusion junction sequence is consistent with a read-through transcription of the 5’-gene NSFP1-Pseudo gene NSFP1 (NSFtruncation at exon 12/13) followed by trans-splicing to connect withLRRC37A2 located immediately 3’ through exon 1/2. A total of 15 different 8-mer neoantigen peptides discovered from the NSFP1 and LRRC37A2 truncations were predicted to bind to a total of 35 unique MHC class I alleles with a binding affinity of IC50<500nM.); 1 of which elicited a robust immune response. Conclusion: Our data provides a framework to identify immunogenic neoantigen candidates from fusion transcripts and suggests a potential vaccine strategy to target the immunogenic neopeptides in patients with tumors carrying the NSFP1-LRRC37A2 fusion.

AB - Introduction: We present here a strategy to identify immunogenic neoantigen candidates from unique amino acid sequences at the junctions of fusion proteins which can serve as targets in the development of tumor vaccines for the treatment of breastcancer. Method: We mined the sequence reads of breast tumor tissue that are usually discarded as discordant paired-end reads and discovered cancer specific fusion transcripts using tissue from cancer free controls as reference. Binding affinity predictions of novel peptide sequences crossing the fusion junction were analyzed by the MHC Class I binding predictor, MHCnuggets. CD8+ T cell responses against the 15 peptides were assessed through in vitro Enzyme Linked Immunospot (ELISpot). Results: We uncovered 20 novel fusion transcripts from 75 breast tumors of 3 subtypes: TNBC, HER2+, and HR+. Of these, the NSFP1-LRRC37A2 fusion transcript was selected for further study. The 3833 bp chimeric RNA predicted by the consensus fusion junction sequence is consistent with a read-through transcription of the 5’-gene NSFP1-Pseudo gene NSFP1 (NSFtruncation at exon 12/13) followed by trans-splicing to connect withLRRC37A2 located immediately 3’ through exon 1/2. A total of 15 different 8-mer neoantigen peptides discovered from the NSFP1 and LRRC37A2 truncations were predicted to bind to a total of 35 unique MHC class I alleles with a binding affinity of IC50<500nM.); 1 of which elicited a robust immune response. Conclusion: Our data provides a framework to identify immunogenic neoantigen candidates from fusion transcripts and suggests a potential vaccine strategy to target the immunogenic neopeptides in patients with tumors carrying the NSFP1-LRRC37A2 fusion.

KW - chimeric RNAs

KW - immunopeptides

KW - neoantigens

KW - RNA fusions

KW - tumor peptide vaccines

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Chimeric RNAs reveal putative neoantigen peptides for developing tumor vaccines for breast cancer

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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