Britta Büttner

Characterization of two human mammary carcinomas, MT-1 and MT-3, suitable for in vivo testing of ether lipids and their derivatives

SummaryThe human mammary carcinomas MT-1 and MT-3 originate from surgical material and were transplanted in nude mice. Both tumors have been classified as estradiol- and progesterone receptor-negative. Therapeutic doses of hormones and anti-hormones remained without growth inhibitory effect. MT-1 and MT-3 proved to be sensitive to conventional cytostatic drugs used for treatment of mammary carcinomas; striking is their sensitivity to ether lipids. Therefore, they are considered suitable tumor models for this class of substances.

Establishment and characterization of a new human oestradiol- and progesterone-receptor-positive mammary carcinoma serially transplantable in nude mice

SummaryA human mammary carcinoma originating from a postmenopausal patient was successfully transplanted into nude mice. According to the adopted criteria the tumour proved to be oestradiol- and progesterone-receptor-positive. Histological studies of the patient tumour revealed a ductal invasive mammary carcinoma with 80% tubular growth pattern. Following transplantation the adenoid structures decreased to 30%; the mitosis rate and grade of malignancy increased. Treatment of the nude mice with 20 μg oestradiol benzoate/mouse caused a loss of the oestradiol receptor of the mammary carcinoma. The mammary carcinoma 3366 can be used for testing of antineoplastic substances, antihormones and for studies in regard to down-regulation or blocking of hormone receptors and possible consequences for therapies.

Development and characterization of a tamoxifen-resistant breast carcinoma xenograft

A human tamoxifen-resistant mammary carcinoma, MaCa 3366/TAM, originating from a sensitive parental xenograft 3366 was successfully established by treatment of tumour-bearing nude mice with 1–50 mg kg–1 tamoxifen for 3 years during routine passaging. Both tumours did not differ significantly in OR- and PR-positivity, however, when compared with the sensitive tumour line, the mean OR content of the TAM-resistant subline is slightly lower. An OR-upregulation following withdrawal of oestradiol treatment was observed in the parental tumours but not in the resistant xenografts. Following long-term treatment with tamoxifen, the histological pattern of the breast carcinoma changed. The more differentiated structures being apparent after treatment with 17β-oestradiol in the original 3366 tumour were not induced in the resistant line. Tamoxifen failed to induce a tumour growth inhibition in comparison to the tamoxifen-sensitive line. The pure anti-oestrogen, ICI 182 780, revealed cross-resistance. Sequence analysis of the hormone-binding domain of the OR of both lines showed no differences, suggesting that either mutations in other regions of the OR are involved in the TAM-resistance phenotype or that mechanisms outside of this protein induced this phenotype. Oestrogen and anti-oestrogen regulate pS2 and cathepsin D expression in 3366 tumours as in the human breast cancer cell line MCF-7. The resistant 3366/TAM tumours have lost this regulation. The established breast cancer xenografts 3366 and 3366/TAM offer the possibility of investigating mechanisms of anti-oestrogen resistance in an in vivo situation. They can be used to test novel approaches to prevent, or to overcome, this resistance in a clinically related manner.

Establishment and characteristics of two new human mammary carcinoma lines serially transplantable in nude mice

Two human mammary carcinomas of postmenopausal women were successfully transplanted into nude mice. Both tumours were classified as epidermal-growth-factor-, oestradiol- and progesterone-receptor-negative and c-erbB2-protein-positive. Histological studies of the primary tumours (4000 and 4151) revealed ductal invasive mammary carcinomas. In the first passages the precondition for the growth of breast carcinoma 4000 were pretreatments of the nude mice with oestradiol and peanut oil before transplantation. The mammary carcinomas 4000 and 4151 described here are suitable for in vivo testing of antineoplastic substances and for biological studies.

Relation of oestradiol-mediated growth stimulation with the expression of c-erbB-2 protein in xenotransplanted oestradiol-receptor-positive and -negative breast carcinomas.

Attempts were made to correlate growth effects induced by oestradiol and tamoxifen with the hormonal regulation of c-erbB-2 protein in experiments in vivo. We report here the responsiveness of four xenotransplanted oestrogen-receptor(ER)-positive and four ER-negative human mammary carcinomas to oestradiol and tamoxifen. Oestradiol in a dose of 0.5 mg/kg significantly increased the growth of the ER-positive mammary carcinomas 3366, MCF-7, 4134 and 4049, but not the ER-negative tumours 4000, 4296 and MT-3. However, within the group of the ER-negative breast carcinomas the tumour 4151 ES deviates from this growth behaviour, as we could prove an estrogen induced growth. The stimulation of tumour growth by oestradiol was always accompanied by a down-regulation of c-erbB-2 protein both in the ER-positive mammary carcinomas and in the ER-negative mammary carcinoma 4151 ES. Tamoxifen significantly inhibited the growth of the ER/PR-positive mammary carcinomas 3366 and MCF-7 but not the ER-positive/PR-negative mammary carcinomas 4049 and 4134. In the group of ER-negative mammary carcinomas only the growth of the oestrogen-responsive tumour 4151 ES was significantly inhibited by tamoxifen. The inhibition of tumour growth by tamoxifen was correlated with a reversion of the oestradiol-induced down-regulation of c-erbB-2, also in the ER-negative/oestradiol-responsive mammary carcinoma 4151 ES. From our results we hypothesize that the oestrogen-dependent growth of ER-negative breast carcinoma 4151 ES could also be correlated with the oestradiol-regulated expression of c-erbB-2 protein.

Abstract A17: Novel patient-derived xenograft (PDX) models from peritoneal metastasis of colorectal carcinoma for drug testing and biomarker analysis

Peritoneal metastasis (PM) represents a terminal tumor stage with limited therapy options for patients with colorectal cancer (CRC). To improve therapeutic efficacy and overall survival, availability of appropriate in vivo models of PM could improve the evaluation of chemosensitivity as well as identification of novel biomarkers and therapeutic targets to improve the therapeutic outcome of PM patients. In this context, we generated the first patient-derived xenograft (PDX) models of PM from CRC as platform to test chemotherapy response and to potentially analyze biomarkers. For the PDX establishment colorectal surgical specimens were subcutaneously (s.c.) transplanted onto immunocompromised NOG mice. The engrafted tumors were transferred to NMRI nu/nu mice for further passaging. They were characterized by histopathology, immunohistochemistry, and gene expression analyses using real-time RT-PCR. Chemosensitivity of PDX models was evaluated in vivo by application of a panel of conventional chemotherapeutic and of targeted drugs. For PDX establishment 68 CRC surgical specimens (taken from peritoneum and omentum) were transplanted, from which 22 PDX have engrafted. From those, 13 models of 10 patients have been analyzed. Their tumor doubling times ranged between 4 to 28 days. The histopathologic evaluation revealed maintenance of the original CRC histology in the PDX. The chemosensitivity testing of conventional and of targeted drugs in the 13 PM PDX models revealed the individual, diverging response of the PDX, such as for 5-FU, irinotecan, oxaliplatin, cetuximab, and erlotinib. More interestingly, different responses were observed in PDX of the omentum vs. peritoneum, which were derived from the same patient. Our results demonstrate that this novel panel of PDX maintains the morphology of the patient tumor in early passages, reflect heterogeneous response rates, and can be used as a preclinical in vivo platform for translational studies of potential clinical use. In conclusion, this PDX panel of PM of the CRC can be used for further studies to evaluate new biomarkers and to test novel therapies or combinations for PM of CRC. Citation Format: Wolfgang Walther, Eva Pachmayr, Bernadette Brzezicha, Britta Buttner, Beate Rau, Ulrike Stein. Novel patient-derived xenograft (PDX) models from peritoneal metastasis of colorectal carcinoma for drug testing and biomarker analysis [abstract]. In: Proceedings of the AACR Special Conference: Advances in Modeling Cancer in Mice: Technology, Biology, and Beyond; 2017 Sep 24-27; Orlando, Florida. Philadelphia (PA): AACR; Cancer Res 2018;78(10 Suppl):Abstract nr A17.

Abstract 4080: Analysis of murine stromal components in patient-derived xenograft (PDX) models of pancreatic cancer

Proceedings: AACR 107th Annual Meeting 2016; April 16-20, 2016; New Orleans, LA Pancreatic cancer remains a lethal disease with only 3 - 8% of patients surviving 5 years after initial diagnosis (WHO, 2012). Reasons for this poor situation are advanced and inoperable tumor stages at time of diagnosis and resistance to conventional therapies. One bottleneck in the development of novel therapies is the restricted availability of preclinical models of high clinical relevance. Since the desmoplastic stroma has impact on the progression and treatment of pancreatic cancer, we investigated the attributes of the murine stroma in patient-derived xenografts that completely replaced the human surrounding tissue within a few months after primary transplantation. We elucidated the functionality of murine tumor microenvironment for growth and therapeutic response in a cohort of well-characterized pancreatic cancer (PDAC) PDX. PDX are a valuable tool for the prediction of therapy response, the identification of new biomarkers and therapeutic targets or pancreatic cancer specific pathways. In this study, 57 patient tumors were collected and immediately transplanted into immunodeficient mice. So far, 14 out of 57 samples were established as passageable pancreatic cancer xenografts (PDX). All engrafted PDX are poorly or moderately differentiated adenocarcinomas. Global gene expression analysis and determination of cancer associated mutations revealed K-ras mutations in 13 and additionally p53 mutations in 9 out of 14 PDX. Furthermore, chemosensitivity to standard of care (SoC) drugs was determined by using clinically relevant and optimized schedules and doses. The testing revealed that the response to Gemcitabine (1/10 responder) was moderate within the PDX panel, while the most efficient drug was Abraxane with 5 out of 10 responders. In general, the response profile of all PDX closely reflected patients situation in the clinic. Cryo- and formalin-preserved tumor tissues of these chemosensitivity studies were investigated for markers of desmoplastic stroma (SPARC, alpha-SMA, FAP and collagen I). Immunohistochemistry and real-time PCR revealed, that even the replacing murine stroma is characterized by a distinct reactivate nature. Semi-quantitative analysis of stromal components showed that the tumor surrounding tissue mass was not significantly reduced due to therapeutic intervention. Though the tumor burden was diminished under SoC, the mRNA expression level of SPARC and FAP was unaffected in corresponding samples of the treatment groups compared to vehicle-treated control. The same effect was found for alpha-SMA and collagen I in immunohistochemically stained specimens. In summary, this study revealed a functional tumor environment of murine origin in patient-derived xenografts of pancreatic cancer and furthermore an apparently inherent resistance of this stromal tissue towards conventional therapy. Thus, targeting the tumor microenvironment should be implicated into clinical decisions. Citation Format: Diana Behrens, Ulrike Pfohl, Britta Buttner, Jens Hoffmann, Wolfgang Walther, Iduna Fichtner. Analysis of murine stromal components in patient-derived xenograft (PDX) models of pancreatic cancer. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4080.