Patient-derived three-dimensional culture techniques model tumor heterogeneity in head and neck cancer

Anuraag S. Parikh; Victoria X. Yu; Samuel Flashner; Ogoegbunam B. Okolo; Chao Lu; Brian S. Henick; Fatemeh Momen-Heravi; Sidharth V. Puram; Theodoros Teknos; Quintin Pan; Hiroshi Nakagawa

doi:10.1016/j.oraloncology.2023.106330

Patient-derived three-dimensional culture techniques model tumor heterogeneity in head and neck cancer

Anuraag S. Parikh, Victoria X. Yu, Samuel Flashner, Ogoegbunam B. Okolo, Chao Lu, Brian S. Henick, Fatemeh Momen-Heravi, Sidharth V. Puram, Theodoros Teknos, Quintin Pan, Hiroshi Nakagawa

College of Dental Medicine

Producción científica › revisión exhaustiva

4 Citas (Scopus)

Resumen

Head and neck squamous cell carcinoma (HNSCC) outcomes remain stagnant, in part due to a poor understanding of HNSCC biology. The importance of tumor heterogeneity as an independent predictor of outcomes and treatment failure in HNSCC has recently come to light. With this understanding, 3D culture systems, including patient derived organoids (PDO) and organotypic culture (OTC), that capture this heterogeneity may allow for modeling and manipulation of critical subpopulations, such as p-EMT, as well as interactions between cancer cells and immune and stromal cells in the microenvironment. Here, we review work that has been done using PDO and OTC models of HNSCC, which demonstrates that these 3D culture models capture in vivo tumor heterogeneity and can be used to model tumor biology and treatment response in a way that faithfully recapitulates in vivo characteristics. As such, in vitro 3D culture models represent an important bridge between 2D monolayer culture and in vivo models such as patient derived xenografts.

Idioma original	English
Número de artículo	106330
Publicación	Oral Oncology
Volumen	138
DOI	https://doi.org/10.1016/j.oraloncology.2023.106330
Estado	Published - mar. 2023

Financiación

This work was supported by NIH P01CA098101 (HN), NIH U54CA163004 (HN), NIH R01DK114436 (HN), NIH R01AA026297 (HN), NIH P30CA013696, NIH L30CA264714 (SF). The sources of funding had no impact on the design or content of this review.

Financiadores	Número del financiador
National Institutes of Health	P01CA098101, L30CA264714, U54CA163004, R01DK114436, P30CA013696, R01AA026297

ASJC Scopus Subject Areas

Oral Surgery
Oncology
Cancer Research

ODS de las Naciones Unidas

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title = "Patient-derived three-dimensional culture techniques model tumor heterogeneity in head and neck cancer",

abstract = "Head and neck squamous cell carcinoma (HNSCC) outcomes remain stagnant, in part due to a poor understanding of HNSCC biology. The importance of tumor heterogeneity as an independent predictor of outcomes and treatment failure in HNSCC has recently come to light. With this understanding, 3D culture systems, including patient derived organoids (PDO) and organotypic culture (OTC), that capture this heterogeneity may allow for modeling and manipulation of critical subpopulations, such as p-EMT, as well as interactions between cancer cells and immune and stromal cells in the microenvironment. Here, we review work that has been done using PDO and OTC models of HNSCC, which demonstrates that these 3D culture models capture in vivo tumor heterogeneity and can be used to model tumor biology and treatment response in a way that faithfully recapitulates in vivo characteristics. As such, in vitro 3D culture models represent an important bridge between 2D monolayer culture and in vivo models such as patient derived xenografts.",

author = "Parikh, {Anuraag S.} and Yu, {Victoria X.} and Samuel Flashner and Okolo, {Ogoegbunam B.} and Chao Lu and Henick, {Brian S.} and Fatemeh Momen-Heravi and Puram, {Sidharth V.} and Theodoros Teknos and Quintin Pan and Hiroshi Nakagawa",

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AU - Parikh, Anuraag S.

AU - Yu, Victoria X.

AU - Flashner, Samuel

AU - Okolo, Ogoegbunam B.

AU - Lu, Chao

AU - Henick, Brian S.

AU - Momen-Heravi, Fatemeh

AU - Puram, Sidharth V.

AU - Teknos, Theodoros

AU - Pan, Quintin

AU - Nakagawa, Hiroshi

PY - 2023/3

Y1 - 2023/3

N2 - Head and neck squamous cell carcinoma (HNSCC) outcomes remain stagnant, in part due to a poor understanding of HNSCC biology. The importance of tumor heterogeneity as an independent predictor of outcomes and treatment failure in HNSCC has recently come to light. With this understanding, 3D culture systems, including patient derived organoids (PDO) and organotypic culture (OTC), that capture this heterogeneity may allow for modeling and manipulation of critical subpopulations, such as p-EMT, as well as interactions between cancer cells and immune and stromal cells in the microenvironment. Here, we review work that has been done using PDO and OTC models of HNSCC, which demonstrates that these 3D culture models capture in vivo tumor heterogeneity and can be used to model tumor biology and treatment response in a way that faithfully recapitulates in vivo characteristics. As such, in vitro 3D culture models represent an important bridge between 2D monolayer culture and in vivo models such as patient derived xenografts.

AB - Head and neck squamous cell carcinoma (HNSCC) outcomes remain stagnant, in part due to a poor understanding of HNSCC biology. The importance of tumor heterogeneity as an independent predictor of outcomes and treatment failure in HNSCC has recently come to light. With this understanding, 3D culture systems, including patient derived organoids (PDO) and organotypic culture (OTC), that capture this heterogeneity may allow for modeling and manipulation of critical subpopulations, such as p-EMT, as well as interactions between cancer cells and immune and stromal cells in the microenvironment. Here, we review work that has been done using PDO and OTC models of HNSCC, which demonstrates that these 3D culture models capture in vivo tumor heterogeneity and can be used to model tumor biology and treatment response in a way that faithfully recapitulates in vivo characteristics. As such, in vitro 3D culture models represent an important bridge between 2D monolayer culture and in vivo models such as patient derived xenografts.

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Patient-derived three-dimensional culture techniques model tumor heterogeneity in head and neck cancer

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ASJC Scopus Subject Areas

ODS de las Naciones Unidas

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