Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma

Cody A. Ramirez; Michelle Becker-Hapak; Kartik Singhal; David A. Russler-Germain; Felix Frenkel; Erica K. Barnell; Ethan D. McClain; Sweta Desai; Timothy Schappe; Onyinyechi C. Onyeador; Olga Kudryashova; Vladislav Belousov; Alexander Bagaev; Elena Ocheredko; Susanna Kiwala; Jasreet Hundal; Zachary L. Skidmore; Marcus P. Watkins; Thomas B. Mooney; Jason R. Walker; Kilannin Krysiak; Felicia Gomez; Catrina C. Fronick; Robert S. Fulton; Robert D. Schreiber; Neha Mehta-Shah; Amanda F. Cashen; Brad S. Kahl; Ravshan Ataullakhanov; Nancy L. Bartlett; Malachi Griffith; Obi L. Griffith; Todd A. Fehniger

doi:10.1182/bloodadvances.2022007792

Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma

Cody A. Ramirez, Michelle Becker-Hapak, Kartik Singhal, David A. Russler-Germain, Felix Frenkel, Erica K. Barnell, Ethan D. McClain, Sweta Desai, Timothy Schappe, Onyinyechi C. Onyeador, Olga Kudryashova, Vladislav Belousov, Alexander Bagaev, Elena Ocheredko, Susanna Kiwala, Jasreet Hundal, Zachary L. Skidmore, Marcus P. Watkins, Thomas B. Mooney, Jason R. WalkerKilannin Krysiak, Felicia Gomez, Catrina C. Fronick, Robert S. Fulton, Robert D. Schreiber, Neha Mehta-Shah, Amanda F. Cashen, Brad S. Kahl, Ravshan Ataullakhanov, Nancy L. Bartlett, Malachi Griffith, Obi L. Griffith, Todd A. Fehniger

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Abstract

Personalized cancer vaccines designed to target neoantigens represent a promising new treatment paradigm in oncology. In contrast to classical idiotype vaccines, we hypothesized that “polyvalent” vaccines could be engineered for the personalized treatment of follicular lymphoma (FL) using neoantigen discovery by combined whole-exome sequencing (WES) and RNA sequencing (RNA-seq). Fifty-eight tumor samples from 57 patients with FL underwent WES and RNA-seq. Somatic and B-cell clonotype neoantigens were predicted and filtered to identify high-quality neoantigens. B-cell clonality was determined by the alignment of B-cell receptor (BCR) CDR3 regions from RNA-seq data, grouping at the protein level, and comparison with the BCR repertoire from healthy individuals using RNA-seq data. An average of 52 somatic mutations per patient (range, 2-172) were identified, and ≥2 (median, 15) high-quality neoantigens were predicted for 56 of 58 FL samples. The predicted neoantigen peptides were composed of missense mutations (77%), indels (9%), gene fusions (3%), and BCR sequences (11%). Building off of these preclinical analyses, we initiated a pilot clinical trial using personalized neoantigen vaccination combined with PD-1 blockade in patients with relapsed or refractory FL (#NCT03121677). Synthetic long peptide vaccines targeting predicted high-quality neoantigens were successfully synthesized for and administered to all 4 patients enrolled. Initial results demonstrate feasibility, safety, and potential immunologic and clinical responses. Our study suggests that a genomics-driven personalized cancer vaccine strategy is feasible for patients with FL, and this may overcome prior challenges in the field. This trial was registered at www.ClinicalTrials.gov as #NCT03121677.

Original language	English
Pages (from-to)	4035-4049
Number of pages	15
Journal	Blood Advances
Volume	8
Issue number	15
DOIs	https://doi.org/10.1182/bloodadvances.2022007792
State	Published - Aug 13 2024

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Ramirez, C. A., Becker-Hapak, M., Singhal, K., Russler-Germain, D. A., Frenkel, F., Barnell, E. K., McClain, E. D., Desai, S., Schappe, T., Onyeador, O. C., Kudryashova, O., Belousov, V., Bagaev, A., Ocheredko, E., Kiwala, S., Hundal, J., Skidmore, Z. L., Watkins, M. P., Mooney, T. B., ... Fehniger, T. A. (2024). Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma. Blood Advances, 8(15), 4035-4049. https://doi.org/10.1182/bloodadvances.2022007792

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title = "Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma",

abstract = "Personalized cancer vaccines designed to target neoantigens represent a promising new treatment paradigm in oncology. In contrast to classical idiotype vaccines, we hypothesized that “polyvalent” vaccines could be engineered for the personalized treatment of follicular lymphoma (FL) using neoantigen discovery by combined whole-exome sequencing (WES) and RNA sequencing (RNA-seq). Fifty-eight tumor samples from 57 patients with FL underwent WES and RNA-seq. Somatic and B-cell clonotype neoantigens were predicted and filtered to identify high-quality neoantigens. B-cell clonality was determined by the alignment of B-cell receptor (BCR) CDR3 regions from RNA-seq data, grouping at the protein level, and comparison with the BCR repertoire from healthy individuals using RNA-seq data. An average of 52 somatic mutations per patient (range, 2-172) were identified, and ≥2 (median, 15) high-quality neoantigens were predicted for 56 of 58 FL samples. The predicted neoantigen peptides were composed of missense mutations (77%), indels (9%), gene fusions (3%), and BCR sequences (11%). Building off of these preclinical analyses, we initiated a pilot clinical trial using personalized neoantigen vaccination combined with PD-1 blockade in patients with relapsed or refractory FL (#NCT03121677). Synthetic long peptide vaccines targeting predicted high-quality neoantigens were successfully synthesized for and administered to all 4 patients enrolled. Initial results demonstrate feasibility, safety, and potential immunologic and clinical responses. Our study suggests that a genomics-driven personalized cancer vaccine strategy is feasible for patients with FL, and this may overcome prior challenges in the field. This trial was registered at www.ClinicalTrials.gov as #NCT03121677.",

author = "Ramirez, {Cody A.} and Michelle Becker-Hapak and Kartik Singhal and Russler-Germain, {David A.} and Felix Frenkel and Barnell, {Erica K.} and McClain, {Ethan D.} and Sweta Desai and Timothy Schappe and Onyeador, {Onyinyechi C.} and Olga Kudryashova and Vladislav Belousov and Alexander Bagaev and Elena Ocheredko and Susanna Kiwala and Jasreet Hundal and Skidmore, {Zachary L.} and Watkins, {Marcus P.} and Mooney, {Thomas B.} and Walker, {Jason R.} and Kilannin Krysiak and Felicia Gomez and Fronick, {Catrina C.} and Fulton, {Robert S.} and Schreiber, {Robert D.} and Neha Mehta-Shah and Cashen, {Amanda F.} and Kahl, {Brad S.} and Ravshan Ataullakhanov and Bartlett, {Nancy L.} and Malachi Griffith and Griffith, {Obi L.} and Fehniger, {Todd A.}",

note = "Publisher Copyright: {\textcopyright} 2024 by The American Society of Hematology.",

year = "2024",

month = aug,

day = "13",

doi = "10.1182/bloodadvances.2022007792",

language = "English",

volume = "8",

pages = "4035--4049",

journal = "Blood Advances",

issn = "2473-9529",

number = "15",

}

Ramirez, CA, Becker-Hapak, M, Singhal, K, Russler-Germain, DA, Frenkel, F, Barnell, EK, McClain, ED, Desai, S, Schappe, T, Onyeador, OC, Kudryashova, O, Belousov, V, Bagaev, A, Ocheredko, E, Kiwala, S, Hundal, J, Skidmore, ZL, Watkins, MP, Mooney, TB, Walker, JR, Krysiak, K , Gomez, F, Fronick, CC, Fulton, RS, Schreiber, RD, Mehta-Shah, N , Cashen, AF , Kahl, BS, Ataullakhanov, R, Bartlett, NL , Griffith, M , Griffith, OL & Fehniger, TA 2024, 'Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma', Blood Advances, vol. 8, no. 15, pp. 4035-4049. https://doi.org/10.1182/bloodadvances.2022007792

TY - JOUR

T1 - Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma

AU - Ramirez, Cody A.

AU - Becker-Hapak, Michelle

AU - Singhal, Kartik

AU - Russler-Germain, David A.

AU - Frenkel, Felix

AU - Barnell, Erica K.

AU - McClain, Ethan D.

AU - Desai, Sweta

AU - Schappe, Timothy

AU - Onyeador, Onyinyechi C.

AU - Kudryashova, Olga

AU - Belousov, Vladislav

AU - Bagaev, Alexander

AU - Ocheredko, Elena

AU - Kiwala, Susanna

AU - Hundal, Jasreet

AU - Skidmore, Zachary L.

AU - Watkins, Marcus P.

AU - Mooney, Thomas B.

AU - Walker, Jason R.

AU - Krysiak, Kilannin

AU - Gomez, Felicia

AU - Fronick, Catrina C.

AU - Fulton, Robert S.

AU - Schreiber, Robert D.

AU - Mehta-Shah, Neha

AU - Cashen, Amanda F.

AU - Kahl, Brad S.

AU - Ataullakhanov, Ravshan

AU - Bartlett, Nancy L.

AU - Griffith, Malachi

AU - Griffith, Obi L.

AU - Fehniger, Todd A.

PY - 2024/8/13

Y1 - 2024/8/13

N2 - Personalized cancer vaccines designed to target neoantigens represent a promising new treatment paradigm in oncology. In contrast to classical idiotype vaccines, we hypothesized that “polyvalent” vaccines could be engineered for the personalized treatment of follicular lymphoma (FL) using neoantigen discovery by combined whole-exome sequencing (WES) and RNA sequencing (RNA-seq). Fifty-eight tumor samples from 57 patients with FL underwent WES and RNA-seq. Somatic and B-cell clonotype neoantigens were predicted and filtered to identify high-quality neoantigens. B-cell clonality was determined by the alignment of B-cell receptor (BCR) CDR3 regions from RNA-seq data, grouping at the protein level, and comparison with the BCR repertoire from healthy individuals using RNA-seq data. An average of 52 somatic mutations per patient (range, 2-172) were identified, and ≥2 (median, 15) high-quality neoantigens were predicted for 56 of 58 FL samples. The predicted neoantigen peptides were composed of missense mutations (77%), indels (9%), gene fusions (3%), and BCR sequences (11%). Building off of these preclinical analyses, we initiated a pilot clinical trial using personalized neoantigen vaccination combined with PD-1 blockade in patients with relapsed or refractory FL (#NCT03121677). Synthetic long peptide vaccines targeting predicted high-quality neoantigens were successfully synthesized for and administered to all 4 patients enrolled. Initial results demonstrate feasibility, safety, and potential immunologic and clinical responses. Our study suggests that a genomics-driven personalized cancer vaccine strategy is feasible for patients with FL, and this may overcome prior challenges in the field. This trial was registered at www.ClinicalTrials.gov as #NCT03121677.

AB - Personalized cancer vaccines designed to target neoantigens represent a promising new treatment paradigm in oncology. In contrast to classical idiotype vaccines, we hypothesized that “polyvalent” vaccines could be engineered for the personalized treatment of follicular lymphoma (FL) using neoantigen discovery by combined whole-exome sequencing (WES) and RNA sequencing (RNA-seq). Fifty-eight tumor samples from 57 patients with FL underwent WES and RNA-seq. Somatic and B-cell clonotype neoantigens were predicted and filtered to identify high-quality neoantigens. B-cell clonality was determined by the alignment of B-cell receptor (BCR) CDR3 regions from RNA-seq data, grouping at the protein level, and comparison with the BCR repertoire from healthy individuals using RNA-seq data. An average of 52 somatic mutations per patient (range, 2-172) were identified, and ≥2 (median, 15) high-quality neoantigens were predicted for 56 of 58 FL samples. The predicted neoantigen peptides were composed of missense mutations (77%), indels (9%), gene fusions (3%), and BCR sequences (11%). Building off of these preclinical analyses, we initiated a pilot clinical trial using personalized neoantigen vaccination combined with PD-1 blockade in patients with relapsed or refractory FL (#NCT03121677). Synthetic long peptide vaccines targeting predicted high-quality neoantigens were successfully synthesized for and administered to all 4 patients enrolled. Initial results demonstrate feasibility, safety, and potential immunologic and clinical responses. Our study suggests that a genomics-driven personalized cancer vaccine strategy is feasible for patients with FL, and this may overcome prior challenges in the field. This trial was registered at www.ClinicalTrials.gov as #NCT03121677.

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U2 - 10.1182/bloodadvances.2022007792

DO - 10.1182/bloodadvances.2022007792

M3 - Article

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AN - SCOPUS:85201703065

SN - 2473-9529

VL - 8

SP - 4035

EP - 4049

JO - Blood Advances

JF - Blood Advances

IS - 15

ER -

Neoantigen landscape supports feasibility of personalized cancer vaccine for follicular lymphoma

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