TY - JOUR
T1 - Impact of SCID mouse gender on tumorigenicity, xenograft growth and drug-response in a large panel of orthotopic PDX models of pediatric brain tumors
AU - Qi, Lin
AU - Kogiso, Mari
AU - Du, Yuchen
AU - Zhang, Huiyuan
AU - Braun, Frank K.
AU - Huang, Yulun
AU - Teo, Wan Yee
AU - Lindsay, Holly
AU - Zhao, Sibo
AU - Baxter, Patricia
AU - Zhao, Xiumei
AU - Yu, Litian
AU - Liu, Zhigang
AU - Zhang, Xingding
AU - Su, Jack MF
AU - Adesina, Adekunle
AU - Yang, Jianhua
AU - Chintagumpala, Murali
AU - Perlaky, Laszlo
AU - Tsz-Kwong Man, Chris
AU - Lau, Ching C.
AU - Li, Xiao Nan
N1 - Funding Information:
This work was funded by NIH RO1 CA185402 (Li XN), NIH/NCI Pediatric Preclinical Testing Consortium UO1 ( 1U01CA199288 ) (Li XN), Cancer Prevention & Research Institute of Texas (CPRIT) RP150032 and RP-170169 (Li XN), Cure Starts Now Foundation (Li XN), Golfers against Cancer (Li XN), CDMRP DOD PRCRP CA100735 (Li XN), Childhood brain tumor foundation (Li XN), National Brain Tumor Foundation (LI XN) and St. Baldrick's Foundation (Grant 2532341503 , Su JM).
Funding Information:
As preclinical drug development is one of the primary goals of animal model development, it is also important to evaluate if there is any difference of animal gender on drug responses in vivo. For pediatric brain tumors, however, no previous studies have been published about the impact of animal gender on drug response. Recognizing the vast differences of therapeutic targets and mechanisms of action, we analyzed a large collection of anti-cancer agents to minimize or prevent our risk of inaccurate or biased conclusion caused by single drugs. Analysis of 284 mice from 14 models (7 GBM, 2 MB, 1 ATRT, 1 EPN, 2 DIPG and 1 PNET) treated a series of standard and investigational drugs/compounds, including fractionated radiation, Temozolamide (TMZ), oncolytic virus (SVV-001), ABT888, MLN8237, Flavopiridol, valproic acid, SAHA, Panobinostat and Cisplatin, did not find major differences between male and female SCID mice in our PDOX models. These data combined with the results obtained from a panel of target therapies completed with the Pediatric Preclinical Testing Consortium provided the much-needed experimental data to justify and support the use of SCIC mice of both genders in preclinical drug testing for pediatric brain tumor models.This work was funded by NIH RO1 CA185402 (Li XN), NIH/NCI Pediatric Preclinical Testing Consortium UO1 (1U01CA199288) (Li XN), Cancer Prevention & Research Institute of Texas (CPRIT) RP150032 and RP-170169 (Li XN), Cure Starts Now Foundation (Li XN), Golfers against Cancer (Li XN), CDMRP DOD PRCRP CA100735 (Li XN), Childhood brain tumor foundation (Li XN), National Brain Tumor Foundation (LI XN) and St. Baldrick's Foundation (Grant 2532341503, Su JM).The authors wish to thank all the veterinarians and veterinary technicians of the Center of Comparative Medicine in Baylor College of Medicineand staff members of the Feigin Center animal facility at Texas Children's Hospital for their excellent support of our animal experiments;
Publisher Copyright:
© 2020
PY - 2020/11/28
Y1 - 2020/11/28
N2 - Brain tumor is the leading cause of cancer related death in children. Clinically relevant animals are critical for new therapy development. To address the potential impact of animal gender on tumorigenicity rate, xenograft growth and in vivo drug responses, we retrospectively analyzed 99 of our established patient derived orthotopic xenograft mouse models (orthotopic PDX or PDOX). From 27 patient tumors, including 5 glioblastomas (GBMs), 11 medulloblastomas (MBs), 4 ependymomas (EPNs), 4 atypical teratoid/rhabdoid tumors (ATRTs) and 3 diffuse intrinsic pontine gliomas (DIPGs), that were directly implanted into matching locations in the brains of approximately equal numbers of male and female animals (n = 310) in age-matched (within 2-week age-difference) SCID mice, the tumor formation rate was 50.6 ± 21.5% in male and 52.7 ± 23.5% in female mice with animal survival times of 192.6 ± 31.7 days in male and 173.9 ± 34.5 days in female mice (P = 0.46) regardless of pathological diagnosis. Once established, PDOX tumors were serially subtransplanted for up to VII passage. Analysis of 1,595 mice from 59 PDOX models (18 GBMs, 18 MBs, 5 ATRTs, 6 EPNs, 7 DIPGs and 5 PENTs) during passage II and VII revealed similar tumor take rates of the 6 different tumor types between male (85.4 ± 15.5%) and female mice (84.7 ± 15.2%) (P = 0.74), and animal survival times were 96.7 ± 23.3 days in male mice and 99.7 ± 20 days in female (P = 0.25). A total of 284 mice from 7 GBM, 2 MB, 1 ATRT, 1 EPN, 2 DIPG and 1 PNET were treated with a series of standard and investigational drugs/compounds. The overall survival times were 106.9 ± 25.7 days in male mice, and 110.9 ± 31.8 days in female mice (P = 0.41), similar results were observed when different types/models were analyzed separately. In conclusion, our data demonstrated that the gender of SCID mice did not have a major impact on animal model development nor drug responses in vivo, and SCID mice of both genders are appropriate for use.
AB - Brain tumor is the leading cause of cancer related death in children. Clinically relevant animals are critical for new therapy development. To address the potential impact of animal gender on tumorigenicity rate, xenograft growth and in vivo drug responses, we retrospectively analyzed 99 of our established patient derived orthotopic xenograft mouse models (orthotopic PDX or PDOX). From 27 patient tumors, including 5 glioblastomas (GBMs), 11 medulloblastomas (MBs), 4 ependymomas (EPNs), 4 atypical teratoid/rhabdoid tumors (ATRTs) and 3 diffuse intrinsic pontine gliomas (DIPGs), that were directly implanted into matching locations in the brains of approximately equal numbers of male and female animals (n = 310) in age-matched (within 2-week age-difference) SCID mice, the tumor formation rate was 50.6 ± 21.5% in male and 52.7 ± 23.5% in female mice with animal survival times of 192.6 ± 31.7 days in male and 173.9 ± 34.5 days in female mice (P = 0.46) regardless of pathological diagnosis. Once established, PDOX tumors were serially subtransplanted for up to VII passage. Analysis of 1,595 mice from 59 PDOX models (18 GBMs, 18 MBs, 5 ATRTs, 6 EPNs, 7 DIPGs and 5 PENTs) during passage II and VII revealed similar tumor take rates of the 6 different tumor types between male (85.4 ± 15.5%) and female mice (84.7 ± 15.2%) (P = 0.74), and animal survival times were 96.7 ± 23.3 days in male mice and 99.7 ± 20 days in female (P = 0.25). A total of 284 mice from 7 GBM, 2 MB, 1 ATRT, 1 EPN, 2 DIPG and 1 PNET were treated with a series of standard and investigational drugs/compounds. The overall survival times were 106.9 ± 25.7 days in male mice, and 110.9 ± 31.8 days in female mice (P = 0.41), similar results were observed when different types/models were analyzed separately. In conclusion, our data demonstrated that the gender of SCID mice did not have a major impact on animal model development nor drug responses in vivo, and SCID mice of both genders are appropriate for use.
KW - Brain tumor
KW - Drug treatment
KW - Gender
KW - Survival time
KW - Tumorigenicity
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U2 - 10.1016/j.canlet.2020.08.035
DO - 10.1016/j.canlet.2020.08.035
M3 - Article
C2 - 32891713
AN - SCOPUS:85090410876
VL - 493
SP - 197
EP - 206
JO - Cancer Letters
JF - Cancer Letters
SN - 0304-3835
ER -