Modeling African American prostate adenocarcinoma by inducing defined genetic alterations in organoids.

Kenji Unno,Yousef Al-Shraideh,Sarki A Abdulkadir,Lu Wang,Larisa Nonn,Meejeon Roh,Young A Yoo

doi:10.18632/oncotarget.17230

Kenji Unno, Yousef Al-Shraideh + Show 5 more

Open Access

https://doi.org/10.18632/oncotarget.17230

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Abstract

Genomic studies are rapidly identifying genetic alterations in human cancer, but functional validation of such alterations has been slow. Here, using human prostate cancer as a model, we have assessed the feasibility of engineering defined genetic alterations in well-known cancer driver genes to transform benign prostate epithelial organoids derived from African American men. Benign human prostate organoids were transduced with lentiviruses expressing MYC, shPTEN, shTP53 and AR, alone and in various combinations, to recapitulate prostate cancer development. Organoids expressing MYC, shPTEN, shTP53 and AR (denoted MPPA); MYC, shPTEN and shTP53 (MPP); or MYC (M) were significantly larger, had higher proliferation rates and demonstrated pathologically transformed morphology compared to organoids transduced with control lentivirus. Alterations in MYC, PTEN and TP53 also affected the rate of organoid basal-to-luminal differentiation in vitro. MPPA and MPP organoids expressed the clinical prostate cancer marker AMACR and developed prostate adenocarcinoma when grafted under the renal capsule in mice. These data indicate that genetic alterations commonly observed in human prostate cancer can be rapidly modeled in human organoid culture. Prostate cancer organoids provide a useful pre-clinical model for the evaluation of new candidate cancer genes, cancer disparities, and potentially for testing of novel therapeutic agents.

Highlights

The burden of prostate cancer in many parts of the world including the United States is high, with approximately 180,890 new cases and 26,120 deaths expected in the United States in 2016 [1]
Organoids are defined as a collection of organ-specific cell types derived from stem cells/progenitors that selforganize through spatially restricted lineage commitment in a manner that recapitulates in vivo organ development [3]
The MYC oncogene and the tumor-suppressor genes PTEN and TP53 are often altered in human prostate cancer, while androgen receptor (AR) amplification and overexpression has been implicated in castration-resistant prostate cancer (CRPC) [8, 9]

Summary

Introduction

The burden of prostate cancer in many parts of the world including the United States is high, with approximately 180,890 new cases and 26,120 deaths expected in the United States in 2016 [1]. African American (AA) men have higher prostate cancer incidence and mortality than other populations [2]. There is a general paucity of in vitro prostate cancer models, including for African American tumors. Recent advances in in vitro human organoid methodology open a new preclinical model to study disease, including prostate cancer. Human and mouse prostate organoids resemble normal prostate epithelial architecture with basal and luminal cells expressing of androgen receptor (AR) within 21 days [4, 5]

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