Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs

Shreoshi Pal Choudhuri; Luc Girard; Jun Yi Stanley Lim; Jillian F. Wise; Braeden Freitas; Di Yang; Edmond Wong; Seth Hamilton; Victor D. Chien; Yoon Jung Kim; Collin Gilbreath; Jun Zhong; Sarah Phat; David T. Myers; Camilla L. Christensen; Hanieh Mazloom-Farsibaf; Marcello Stanzione; Kwok Kin Wong; Yin P. Hung; Anna F. Farago; Catherine B. Meador; Nicholas J. Dyson; Michael S. Lawrence; Sihan Wu; Benjamin J. Drapkin

doi:10.1158/2159-8290.CD-23-0656

Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs

Shreoshi Pal Choudhuri, Luc Girard, Jun Yi Stanley Lim, Jillian F. Wise, Braeden Freitas, Di Yang, Edmond Wong, Seth Hamilton, Victor D. Chien, Yoon Jung Kim, Collin Gilbreath, Jun Zhong, Sarah Phat, David T. Myers, Camilla L. Christensen, Hanieh Mazloom-Farsibaf, Marcello Stanzione, Kwok Kin Wong, Yin P. Hung, Anna F. FaragoCatherine B. Meador, Nicholas J. Dyson, Michael S. Lawrence, Sihan Wu, Benjamin J. Drapkin

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16 Scopus citations

Abstract

Small cell lung cancer (SCLC) presents as a highly chemosensitive malignancy but acquires cross-resistance after relapse. This transformation is nearly inevitable in patients but has been difficult to capture in laboratory models. Here, we present a preclinical system that recapitulates acquired cross-resistance, developed from 51 patient-derived xenograft (PDX) models. Each model was tested in vivo against three clinical regimens: cisplatin plus etoposide, olaparib plus temozolomide, and topotecan. These drug-response profiles captured hallmark clinical features of SCLC, such as the emergence of treatment-refractory disease after early relapse. For one patient, serial PDX models revealed that cross-resistance was acquired through MYC amplification on extra-chromosomal DNA (ecDNA). Genomic and transcriptional profiles of the full PDX panel revealed that MYC paralog amplifications on ecDNAs were recurrent in relapsed cross-resistant SCLC, and this was corroborated in tumor biopsies from relapsed patients. We conclude that ecDNAs with MYC paralogs are recurrent drivers of cross-resistance in SCLC. SIGNIFICANCE: SCLC is initially chemosensitive, but acquired cross-resistance renders this disease refractory to further treatment and ultimately fatal. The genomic drivers of this transformation are unknown. We use a population of PDX models to discover that amplifications of MYC paralogs on ecDNA are recurrent drivers of acquired cross-resistance in SCLC.

Original language	English (US)
Pages (from-to)	804-827
Number of pages	24
Journal	Cancer discovery
Volume	14
Issue number	5
DOIs	https://doi.org/10.1158/2159-8290.CD-23-0656
State	Published - May 1 2024

ASJC Scopus subject areas

Oncology

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10.1158/2159-8290.CD-23-0656

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Pal Choudhuri, S., Girard, L., Lim, J. Y. S., Wise, J. F., Freitas, B., Yang, D., Wong, E., Hamilton, S., Chien, V. D., Kim, Y. J., Gilbreath, C., Zhong, J., Phat, S., Myers, D. T., Christensen, C. L., Mazloom-Farsibaf, H., Stanzione, M., Wong, K. K., Hung, Y. P., ... Drapkin, B. J. (2024). Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs. Cancer discovery, 14(5), 804-827. https://doi.org/10.1158/2159-8290.CD-23-0656

Pal Choudhuri, S, Girard, L, Lim, JYS, Wise, JF, Freitas, B, Yang, D, Wong, E, Hamilton, S, Chien, VD, Kim, YJ, Gilbreath, C, Zhong, J, Phat, S, Myers, DT, Christensen, CL, Mazloom-Farsibaf, H, Stanzione, M, Wong, KK, Hung, YP, Farago, AF, Meador, CB, Dyson, NJ, Lawrence, MS, Wu, S & Drapkin, BJ 2024, 'Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs', Cancer discovery, vol. 14, no. 5, pp. 804-827. https://doi.org/10.1158/2159-8290.CD-23-0656

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title = "Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs",

abstract = "Small cell lung cancer (SCLC) presents as a highly chemosensitive malignancy but acquires cross-resistance after relapse. This transformation is nearly inevitable in patients but has been difficult to capture in laboratory models. Here, we present a preclinical system that recapitulates acquired cross-resistance, developed from 51 patient-derived xenograft (PDX) models. Each model was tested in vivo against three clinical regimens: cisplatin plus etoposide, olaparib plus temozolomide, and topotecan. These drug-response profiles captured hallmark clinical features of SCLC, such as the emergence of treatment-refractory disease after early relapse. For one patient, serial PDX models revealed that cross-resistance was acquired through MYC amplification on extra-chromosomal DNA (ecDNA). Genomic and transcriptional profiles of the full PDX panel revealed that MYC paralog amplifications on ecDNAs were recurrent in relapsed cross-resistant SCLC, and this was corroborated in tumor biopsies from relapsed patients. We conclude that ecDNAs with MYC paralogs are recurrent drivers of cross-resistance in SCLC. SIGNIFICANCE: SCLC is initially chemosensitive, but acquired cross-resistance renders this disease refractory to further treatment and ultimately fatal. The genomic drivers of this transformation are unknown. We use a population of PDX models to discover that amplifications of MYC paralogs on ecDNA are recurrent drivers of acquired cross-resistance in SCLC.",

author = "{Pal Choudhuri}, Shreoshi and Luc Girard and Lim, {Jun Yi Stanley} and Wise, {Jillian F.} and Braeden Freitas and Di Yang and Edmond Wong and Seth Hamilton and Chien, {Victor D.} and Kim, {Yoon Jung} and Collin Gilbreath and Jun Zhong and Sarah Phat and Myers, {David T.} and Christensen, {Camilla L.} and Hanieh Mazloom-Farsibaf and Marcello Stanzione and Wong, {Kwok Kin} and Hung, {Yin P.} and Farago, {Anna F.} and Meador, {Catherine B.} and Dyson, {Nicholas J.} and Lawrence, {Michael S.} and Sihan Wu and Drapkin, {Benjamin J.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors; Published by the American Association for Cancer Research.",

year = "2024",

month = may,

day = "1",

doi = "10.1158/2159-8290.CD-23-0656",

language = "English (US)",

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T1 - Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs

AU - Pal Choudhuri, Shreoshi

AU - Girard, Luc

AU - Lim, Jun Yi Stanley

AU - Wise, Jillian F.

AU - Freitas, Braeden

AU - Yang, Di

AU - Wong, Edmond

AU - Hamilton, Seth

AU - Chien, Victor D.

AU - Kim, Yoon Jung

AU - Gilbreath, Collin

AU - Zhong, Jun

AU - Phat, Sarah

AU - Myers, David T.

AU - Christensen, Camilla L.

AU - Mazloom-Farsibaf, Hanieh

AU - Stanzione, Marcello

AU - Wong, Kwok Kin

AU - Hung, Yin P.

AU - Farago, Anna F.

AU - Meador, Catherine B.

AU - Dyson, Nicholas J.

AU - Lawrence, Michael S.

AU - Wu, Sihan

AU - Drapkin, Benjamin J.

PY - 2024/5/1

Y1 - 2024/5/1

N2 - Small cell lung cancer (SCLC) presents as a highly chemosensitive malignancy but acquires cross-resistance after relapse. This transformation is nearly inevitable in patients but has been difficult to capture in laboratory models. Here, we present a preclinical system that recapitulates acquired cross-resistance, developed from 51 patient-derived xenograft (PDX) models. Each model was tested in vivo against three clinical regimens: cisplatin plus etoposide, olaparib plus temozolomide, and topotecan. These drug-response profiles captured hallmark clinical features of SCLC, such as the emergence of treatment-refractory disease after early relapse. For one patient, serial PDX models revealed that cross-resistance was acquired through MYC amplification on extra-chromosomal DNA (ecDNA). Genomic and transcriptional profiles of the full PDX panel revealed that MYC paralog amplifications on ecDNAs were recurrent in relapsed cross-resistant SCLC, and this was corroborated in tumor biopsies from relapsed patients. We conclude that ecDNAs with MYC paralogs are recurrent drivers of cross-resistance in SCLC. SIGNIFICANCE: SCLC is initially chemosensitive, but acquired cross-resistance renders this disease refractory to further treatment and ultimately fatal. The genomic drivers of this transformation are unknown. We use a population of PDX models to discover that amplifications of MYC paralogs on ecDNA are recurrent drivers of acquired cross-resistance in SCLC.

AB - Small cell lung cancer (SCLC) presents as a highly chemosensitive malignancy but acquires cross-resistance after relapse. This transformation is nearly inevitable in patients but has been difficult to capture in laboratory models. Here, we present a preclinical system that recapitulates acquired cross-resistance, developed from 51 patient-derived xenograft (PDX) models. Each model was tested in vivo against three clinical regimens: cisplatin plus etoposide, olaparib plus temozolomide, and topotecan. These drug-response profiles captured hallmark clinical features of SCLC, such as the emergence of treatment-refractory disease after early relapse. For one patient, serial PDX models revealed that cross-resistance was acquired through MYC amplification on extra-chromosomal DNA (ecDNA). Genomic and transcriptional profiles of the full PDX panel revealed that MYC paralog amplifications on ecDNAs were recurrent in relapsed cross-resistant SCLC, and this was corroborated in tumor biopsies from relapsed patients. We conclude that ecDNAs with MYC paralogs are recurrent drivers of cross-resistance in SCLC. SIGNIFICANCE: SCLC is initially chemosensitive, but acquired cross-resistance renders this disease refractory to further treatment and ultimately fatal. The genomic drivers of this transformation are unknown. We use a population of PDX models to discover that amplifications of MYC paralogs on ecDNA are recurrent drivers of acquired cross-resistance in SCLC.

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JO - Cancer discovery

JF - Cancer discovery

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ER -

Acquired Cross-Resistance in Small Cell Lung Cancer due to Extrachromosomal DNA Amplification of MYC Paralogs

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