Nu Mice Research Articles

Donor Substitution Engineering of Hemicyanine Nanoparticles to Reprogram the Tumor Microenvironment and Enhance Fn14‐Targeted BiTE for Glioblastoma Photoimmunotherapy

AbstractGlioblastoma (GBM) is a highly malignant intracranial tumor with limited treatment options. Bispecific T‐cell engagers (BiTEs) are being explored for GBM treatment, but their success is hindered by inadequate T cell infiltration and activation due to the acidic and immunosuppressive microenvironment. Photothermal immunotherapy lyses tumors and activates immune responses, complementing BiTEs. This study innovatively employs a donor engineering strategy to develop hemicyanine dyes (Hcys) that emit from near‐infrared (NIR) I to NIR II. The Hcy with excellent properties is encapsulated in an amphiphilic micelle, forming a nano assembly with lactate oxidase (PLH1100). PLH1100 exhibits spectral absorption at 980 nm, a photothermal conversion efficiency of 58.7%, and capability for NIR‐II tumor imaging. Besides photothermal tumor ablation, PLH1100 regulates lactic acid metabolism and activates immunogenic cell death, improving the tumor microenvironment and promoting T cell infiltration and activation. Further studies demonstrate PLH1100 effectively kills human and murine GBM cells, inhibits orthotopic U87 tumor growth in BALB/c‐nu mice, and enhances the efficacy of Fn14‐targeted BiTE in orthotopic GL261 tumors in C57BL/6 mice, achieving a synergistic “1+1>2” therapeutic effect. Collectively, this work opens a new pathway for using Hcy‐based molecules combined with BiTE drugs for GBM therapy, with significant clinical potential.

A nu mouse model of diffuse large B-cell lymphoma in constitutional Atm loss.

Not available.

Liposomes-Encapsulating Double-Stranded Nucleic Acid (Poly I:C) for Head and Neck Cancer Treatment.

Polyriboinosinic acid-polyribocytidylic acid (Poly I:C) serves as a synthetic mimic of viral double-stranded dsRNA, capable of inducing apoptosis in numerous cancer cells. Despite its potential, therapeutic benefits, the application of Poly I:C has been hindered by concerns regarding toxicity, stability, enzymatic degradation, and undue immune stimulation, leading to autoimmune disorders. To address these challenges, encapsulation of antitumor drugs within delivery systems such as cationic liposomes is often employed to enhance their efficacy while minimizing dosages. In this study, we investigated the potential of cationic liposomes to deliver Poly I:C into the Head and Neck 12 (HN12) cell line to induce apoptosis in the carcinoma cells and tumor model. Cationic liposomes made by the hydrodynamic focusing method surpass traditional methods by offering a continuous flow-based approach for encapsulating genes, which is ideal for efficient tumor delivery. DOTAP liposomes efficiently bind Poly I:C, confirmed by transmission electron microscopy images displaying their spherical morphology. Liposomes are easily endocytosed in HN12 cells, suggesting their potential for therapeutic gene and drug delivery in head and neck squamous carcinoma cells. Activation of apoptotic pathways involving MDA5, RIG-I, and TLR3 is evidenced by upregulated caspase-3, caspase-8, and IRF3 genes upon endocytosis of Poly(I:C)-encapsulated liposomes. Therapeutic evaluations revealed significant inhibition of tumor growth with Poly I:C liposomes, indicating the possibility of MDA5, RIG-I, and TLR3-induced apoptosis pathways via Poly I:C liposomes in HN12 xenografts in J:NU mouse models. Comparative histological analysis underscores enhanced cell death with Poly I:C liposomes, warranting further investigation into the precise mechanisms of apoptosis and inflammatory cytokine response in murine models for future research.

The prostate-specific membrane antigen holds potential as a vascular target for endogenous radiotherapy with [177Lu]Lu-PSMA-I&T for triple-negative breast cancer

IntroductionOverexpression of prostate-specific membrane antigen (PSMA) on the vasculature of triple-negative breast cancer (TNBC) presents a promising avenue for targeted endogenous radiotherapy with [177Lu]Lu-PSMA-I&T. This study aimed to assess and compare the therapeutic efficacy of a single dose with a fractionated dose of [177Lu]Lu-PSMA-I&T in an orthotopic model of TNBC.MethodsRj:NMRI-Foxn1nu/nu mice were used as recipients of MDA-MB-231 xenografts. The single dose group was treated with 1 × 60 ± 5 MBq dose of [177Lu]Lu-PSMA-I&T, while the fractionated dose group received 4 × a 15 ± 2 MBq dose of [177Lu]Lu-PSMA-I&T at 7 day intervals. The control group received 0.9% NaCl. Tumor progression was monitored using [18F]FDG-PET/CT. Ex vivo analysis encompassed immunostaining, TUNEL staining, H&E staining, microautoradiography, and autoradiography.ResultsTumor volumes were significantly smaller in the single dose (p < 0.001) and fractionated dose (p < 0.001) groups. Tumor growth inhibition rates were 38% (single dose) and 30% (fractionated dose). Median survival was notably prolonged in the treated groups compared to the control groups (31d, 28d and 19d for single dose, fractionated dose and control, respectively). [177Lu]Lu-PSMA-I&T decreased the size of viable tumor areas. We further demonstrated, that [177Lu]Lu-PSMA-I&T binds specifically to the tumor-associated vasculature.ConclusionThis study highlights the potential of [177Lu]Lu-PSMA-I&T for endogenous radiotherapy of TNBC.Graphical abstract

Abstract LB_C04: Novel orally bioavailable macrocycles that target cyclin A and B elicit antitumor activity in breast cancer patient-derived xenograft models

Abstract Background: Cyclin/cyclin-dependent kinase (CDK) complexes regulate the activity of RB1 and E2F to drive cell cycle progression while ensuring fidelity of DNA replication. The interaction between cyclins and a critical subset of their substrates, including RB1 and E2F, is mediated by a conserved short linear RxL motif. RxL peptides have been shown to inhibit substrate phosphorylation by CDK2/cyclin A (AACR 2022 poster #5379). Previously, we have shown that macrocycles that selectively inhibit RxL-mediated binding to cyclins A and B (RxL inhibitors) lead to growth inhibitory activity in multiple cancer cell lines, and result in tumor regression in small cell lung cancer (SCLC) and ovarian cancer xenograft models (AACR 2023 poster #1560). Here, we test the antitumor activity of CID-016 in patient-derived xenograft (PDX) models from breast cancer. Methods: Bioinformatic analyses using RNA sequencing (RNAseq) and whole exome sequencing (WES) data from 39 breast cancer cell lines was employed to identify biomarker profiles that associate with sensitivity to CID-016. The antiproliferative activity of CID-016 was assessed by GI50 after 4-8 days of treatment. Hallmark pathway scores were calculated by Gene Set Variation Analysis (GSVA) method using MSigDb Hallmark collection from cell lines and existing PDX models. Based on the calculated hallmark pathway score, triple negative breast cancer (TNBC) PDX models were selected to test the anti-tumor activity of CID-016. In vivo, NMRI-Foxn1nu/nu mice were implanted with tumor fragments in the lower flank and treated with vehicle or CID-016 oral formulation of 50-100 mg/kg BID or 100 mg/kg QD, respectively for at least 28 days. Tumor volume and body weight were measured biweekly. Pharmacodynamic (PD) analyses will be conducted after treatment with CID-016. Results: Treatment of the breast cancer cell line panel with CID-016 demonstrated greater potency by GI50 in TNBC compared to other breast cancer cell lines (p=0.009). Gene expression levels of CCNB1, CCNA2, CCNE1 as well as target hallmark scores for “E2F targets”, “G2M checkpoint” and “Mitotic spindle” were significantly higher in TNBC vs other breast cancer cell lines. Oral treatment with CID-016 resulted in tumor regression in at least one triple-negative breast cancer PDX model and was well tolerated with no significant body weight changes. In vivo PD analyses will be assessed after 5 days of treatment with CID-016. Conclusions: The selective cyclin A/B RxL inhibitor CID-016 exhibits potent antitumor activity in TNBC preclinical models, consistent with the proposed mechanism of RB1/E2F pathway dysregulation. Given their compelling characteristics, orally bioavailable RxL inhibitors are advancing as the only first-in-class orally bioavailable dual inhibitors of cyclins A and B into clinical development. Citation Format: Mariana Paes Dias, Li-Fen Liu, Bernard Levin, Cristina Molina, Marta Guzmán, Olga Rodríguez, Evelyn W. Wang, Violeta Serra. Novel orally bioavailable macrocycles that target cyclin A and B elicit antitumor activity in breast cancer patient-derived xenograft models [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2023 Oct 11-15; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2023;22(12 Suppl):Abstract nr LB_C04.

Involvement of Met receptor pathway in aggressive behavior of colorectal cancer cells induced by parathyroid hormone-related peptide.

Involvement of Met receptor pathway in aggressive behavior of colorectal cancer cells induced by parathyroid hormone-related peptide.

EXPRESSION OF P53 PROTEIN ASSOCIATES WITH ANTI-PD-L1 TREATMENT RESPONSE ON HUMAN-DERIVED XENOGRAFT MODEL OF GATA3/CR5/6-NEGATIVE RECURRENT NONMUSCULAR INVASIVE BLADDER UROTHELIAL CARCINOMA

Annotation: The study investigated the prognostic role of p53 expression in patients with GATA3 / CR5 / 6-negative recurrent nonmuscular invasive bladder cancer on the background of anti-PD-L1 treatment using a xenograft model in immunodeficient BALB / c nu / nu mice obtained from a patient. Twenty lines of patient-derived xenografts of relapsed high-PD-L1(+) double-negative NMIBC were developed, of which 10 lines represented high-grade tumors and the other ones—low-grade bladder cancer. Acceptors of each grade-related branch received specific anti-PD-L1 antibodies. Animals’ survival, tumor-doubling time, and remote metastasis were followed during the post-interventional period. PD-L1, GATA3, CR5/6, and p53 protein expressions in engrafted tumors were assessed by immunohistochemistry. The expression of p53 protein is an independent factor affecting the animals’ survival time of anti-PD-L1-treated mice with low-grade high-PD-L1(+) double-negative nonmuscular invasive bladder cancer. P53 expression may be considered as a prognostic factor for the anti-PD-L1 treatment efficacy of low-grade high-PD-L1-positive GATA3(-)/CR5/6(-)-relapsed noninvasive bladder cancer.

442 Repurposing FDA-approved PI3K/Akt Inhibitors to Improve Anti-Cancer Drug Brain Uptake in Glioblastoma Resection Models

OBJECTIVES/GOALS: We have shown that glioblastoma upregulates blood-brain barrier drug efflux transporters via a mechanism that likely involves TNFα and PI3K/Akt. Our goal is to repurpose FDA-approved PI3K/Akt inhibitors to increase anticancer drug brain concentrations, which holds the potential for translation into the neuro-oncology clinic. METHODS/STUDY POPULATION: GL261 Red-FLuc and MBR525-1 Red-FLuc cells (2μl; 2.5K cells/μl; 1μl/min) were injected into the right hemisphere of 8-week old female J:NU mice (coordinates relative to bregma: AP -2 mm, ML -2 mm, DV -3 mm). Tumor burden was assessed weekly with IVIS® Spectrum in vivo imaging; tumor volume and invasiveness were measured by MRI and histopathology, respectively. On day 14 post-injection, mice received 5-ALA (200 mg/kg ip), and tumors were resected with a 2 mm punch biopsy tool and surgical fluorescence microscope (ex/em: 405/635nm). Drug efflux transporter expression and activity in isolated brain capillaries were determined by Western blot and substrate fluorescence assays, respectively. Cytotoxicity was assessed after 48-hour drug incubation using CyQuant MTT Cell Proliferation Assay kits. RESULTS/ANTICIPATED RESULTS: IC50 values of temozolomide, lapatinib, alpelisib, and miltefosine were N/A, 32, 20, and 190 μM for GL261 Red-FLuc cells and N/A, 49, 36, and 148 μM for MBR525-1 Red-FLuc cells, respectively. Median survival of GL261 Red-FLuc mice was 26.5d and significantly increased to 34d with resection (p=0.116). In GBM mice, drug efflux transporter expression and activity levels in brain capillaries isolated from the contralateral hemisphere were significantly upregulated compared to sham controls. Furthermore, treatment with FDA-approved PI3K/Akt inhibitors, alpelisib and miltefosine, significantly reduced drug efflux transporter expression and activity to control levels. In PK and survival studies, we expect that PI3K/Akt inhibition will increase brain uptake of anticancer drugs and prolong GBM mouse survival. DISCUSSION/SIGNIFICANCE: We have previously shown that PI3K/Akt inhibition reduces P-gp/BCRP levels in brain capillaries. Here, we vertically extend this strategy by repurposing the FDA-approved PI3K/Akt inhibitors alpelisib/miltefosine to improve brain uptake of anticancer drugs in GBM resection models.

Deptor As a Target with Chemical Inhibitors; Alternative Therapy in Multiple Myeloma

Multiple myeloma (MM) is a hematological disorder characterized by a proliferation of malignant monoclonal plasma cells in the bone marrow (BM) and/or extramedullary sites. The increase in PFS and overall survival (OS) has been achieved through the introduction of high dose therapy (HDT) with autologous stem cell transplantation (SCT), and the introduction of thalidolamide, bortezomib and lenalidomide. Despite recent progress in OS rates, MM remains an incurable disease and most patients will relapse and require treatment. It is known that inhibition of deptor results in the inhibition of proliferation and induction of apoptosis in myeloma cells. In addition, high levels of deptor are predictive of a poor response to thalidomide in myeloma, indicating that levels of deptor expression is important as a prognostic marker for myeloma patients and would be a possible target for a novel therapeutic strategy, as using a small specific chemical inhibitor of deptor. In this study, we developed a novel small molecule chemical inhibitor (43 M) capable of inducing inhibition of the mTOR/Deptor interaction and results in negative regulation of the deptor that leads in the inhibition of proliferation and induces apoptosis in several cell lines of MM deptor-positive. This effect correlated with the Deptor expression level. The cytotoxic effect of 43 M depends on caspase activity. We analyzed potential mechanisms of 43 M, our findings showed that inhibition of Deptor/mTOR Pathway induces the activation of p70 and AKT. This leads to the induction of apoptosis. We analyzed whether the degradation of 43M-induced deptor-dependent proteosome complex using MG132, and this one prevent deptor degradation. Recent studies describe that the constitutive or inducible activation of the p38 MAPK pathway is considered an important molecular event contributing to the malignant phenotype of the tumor cell in MM. Therefore, these studies identify the interaction of p38 MAPK with Deptor as a new therapeutic target to improve the outcome of patients in MM. We analyzed the possible interaction of p38 MAPK with Debtor mediate a library in yeast. For confirmation of the possible interaction we analyzed the expression of p38 MAPK after treatment with 43 M, the data show that they induce an activation of p38 MAPK and that correlates inversely with the degradation of the deptor. However, simultaneous treatment of MM with 43M and SB203580 does not prevent the induction of 43M-mediated apoptosis. Additionally, the 43M effect was analyzed in a xenografic model of MM cell lines. 8226 MM cell lines were inoculated in 6-week Balb/C nu/ nu mice via s.c. When the tumor reached 500 mm3, they were inoculated on twice with 43 M at different concentrations per group (0, 20 or 40 mg / kg) and the tumor growth and the general state of the mice were subsequently analyzed. Tumor tissue was obtained and the expression of Deptor and 4E-BP1 by IHC was evaluated. The data showed that 43 M significantly inhibited tumor growth at the two doses tested 10 or 20 mg / kg and in tumors decreased the expression of Deptor and induction of 4E-BP1 activation. This study describes for the first time the possible role of Daptor as a therapeutic target using a chemical inhibitor capable of inducing a cytotoxic effect in cell lines positive for Deptor by inducing the degradation of this and activation p38 MAKP in the MM cell lines. In addition, Deptor is reported as an important therapeutic target in an in vivo MM model. DisclosuresNo relevant conflicts of interest to declare.

Fate of Fat Grafting In Vivo and In Vitro: Does the Suction-Assisted Lipectomy Device Matter?

Recently, there has been increasing research interest in identifying the effect of liposuction procedures on fat graft survival in order to clarify whether different harvest techniques affect the quality of fat grafts. The aim of this study was to investigate the effect of 2 liposuction methods on the survival and regeneration potential of grafted fat tissue. The proliferation and differentiation potentials of adipose-derived stem cells (ASCs) isolated by both methods was also investigated. Fat grafts were collected from patients who underwent liposuction procedures by 2 different methods: traditional suction-assisted liposuction (TSAL) and vibration amplification of sound energy at resonance (VASER). One portion of the lipoaspirates was implanted into the subcutaneous layer of nu mice for 4 and 12 weeks. ASCs were isolated from the other portion of the lipoaspirate and subjected to proliferation and differentiation assays. Although in vivo fat grafting presented similar adipose tissue survival for the 2 different liposuction methods, more angiogenesis and less fibrosis was observed in the VASER group based on histologic evaluation. Furthermore, VASER-derived ASCs presented better quality in terms of cell differentiation capacity. The in vivo study confirmed better graft angiogenesis with less inflammation, apoptosis, and scar formation in the VASER group. ASCs harvested with VASER exhibited increased differentiation capacity compared with those obtained by TSAL, and represent an excellent source for fat grafting and regenerative medicine.

Evaluation of Near-infrared Fluorescence-conjugated Peptides for Visualization of Human Epidermal Receptor 2-overexpressed Gastric Cancer.

PurposeA near-infrared (NIR) fluorescence imaging is a promising tool for cancer-specific image guided surgery. Human epidermal receptor 2 (HER2) is one of the candidate markers for gastric cancer. In this study, we aimed to synthesize HER2-specific NIR fluorescence probes and evaluate their applicability in cancer-specific image-guided surgeries using an animal model.Materials and MethodsAn NIR dye emitting light at 800 nm (IRDye800CW; Li-COR) was conjugated to trastuzumab and an HER2-specific affibody using a click mechanism. HER2 affinity was assessed using surface plasmon resonance. Gastric cancer cell lines (NCI-N87 and SNU-601) were subcutaneously implanted into female BALB/c nu (6–8 weeks old) mice. After intravenous injection of the probes, biodistribution and fluorescence signal intensity were measured using Lumina II (Perkin Elmer) and a laparoscopic NIR camera (InTheSmart).ResultsTrastuzumab-IRDye800CW exhibited high affinity for HER2 (KD=2.093(3) pM). Fluorescence signals in the liver and spleen were the highest at 24 hours post injection, while the signal in HER2-positive tumor cells increased until 72 hours, as assessed using the Lumina II system. The signal corresponding to the tumor was visually identified and clearly differentiated from the liver after 72 hours using a laparoscopic NIR camera. Affibody-IRDye800CW also exhibited high affinity for HER2 (KD=4.71 nM); however, the signal was not identified in the tumor, probably owing to rapid renal clearance.ConclusionsTrastuzumab-IRDye800CW may be used as a potential NIR probe that can be injected 2–3 days before surgery to obtain high HER2-specific signal and contrast. Affibody-based NIR probes may require modifications to enhance mobilization to the tumor site.

18F-Fluciclovine PET metabolic imaging reveals prostate cancer tumour heterogeneity associated with disease resistance to androgen deprivation therapy

BackgroundProstate cancer is highly prevalent worldwide. Androgen deprivation therapy (ADT) remains the treatment of choice for incurable prostate cancer, but majority of patients develop disease recurrence following ADT. There is therefore an urgent need for early detection of treatment resistance.MethodsIsogenic androgen-responsive (CWR22Res) and castration-resistant (22Rv1) human prostate cancer cells were implanted into the anterior lobes of the prostate in CD-1 Nu mice to generate prostate orthografts. Castrated mice bearing CWR22Res and 22Rv1 orthografts mimic clinical prostate cancer following acute and chronic ADT, respectively. 18F-Fluciclovine (1-amino-3-fluorocyclobutane-1-carboxylic acid) with a radiochemical purity of > 99% was produced on a FASTlab synthesiser. Ki67 staining in endpoint orthografts was studied. Western blot, quantitative RT-PCR and next-generation sequencing transcriptomic analyses were performed to assess the expression levels of amino acid transporters (including LAT1 and ASCT2, which have been implicated for Fluciclovine uptake). Longitudinal metabolic imaging with 18F-Fluciclovine-based positron emission tomography (PET) was performed to study tumour response following acute and chronic ADT.ResultsBoth immunohistochemistry analysis of endpoint prostate tumours and longitudinal 18F-Fluciclovine imaging revealed tumour heterogeneity, particularly following ADT, with in vivo 18F-Fluciclovine uptake correlating to viable cancer cells in both androgen-proficient and castrated environment. Highlighting tumour subpopulation following ADT, both SUVpeak and coefficient of variation (CoV) values of 18F-Fluciclovine uptake are consistent with tumour heterogeneity revealed by immunohistochemistry. We studied the expression of amino acid transporters (AATs) for 18F-Fluciclovine, namely LAT1 (SLC7A5 and SLC3A2) and ASCT2 (SLC1A5). SLC7A5 and SLC3A2 were expressed at relatively high levels in 22Rv1 castration-resistant orthografts following chronic ADT (modelling clinical castration-resistant disease), while SLC1A5 was preferentially expression in CWR22Res tumours following acute ADT. Additional AATs such as SLC43A2 (LAT4) were shown to be upregulated following chronic ADT by transcriptomic analysis; their role in Fluciclovine uptake warrants investigation.ConclusionWe studied in vivo 18F-Fluciclovine uptake in human prostate cancer orthograft models following acute and chronic ADT. 18F-Fluciclovine uptakes highlight tumour heterogeneity that may explain castration resistance and can be exploited as a clinical biomarker.

Model-based analysis of treatment effects of paclitaxel microspheres in a microscopic peritoneal carcinomatosis model in mice.

Paclitaxel (PTX)-loaded genipin-crosslinked gelatin microspheres (GP-MS) are a prolonged IP delivery system under development for the treatment of peritoneal minimal residual disease (pMRD). Here, we show the use of a pharmacokinetic-pharmacodynamic (PKPD) modelling approach to inform the formulation development of PTX-GP-MS in a mice pMRD model. PTX blood concentrations and survival data were obtained in Balb/c Nu mice receiving different single IP doses (7.5 and/or 35 mg/kg) of PTX-ethanolic loaded GP-MS (PTXEtOH-GP-MS), PTX-nanosuspension loaded GP-MS (PTXnano-GP-MS), and immediate release formulation Abraxane®. A population PK model was developed to characterize the PTX blood concentration pattern and to predict PTX concentrations in peritoneum. Afterwards, PKPD relationships between the predicted peritoneal or blood concentrations and survival were explored using time-to-event modelling. A PKPD model was developed that simultaneously describes the competing effects of treatment efficacy (driven by peritoneal concentration) and toxicity (driven by blood concentration) of PTX on survival. Clear survival advantages of PTXnano-GP-MS over PTXEtOH-GP-MS and Abraxane® were found. Simulations of different doses of PTXnano-GP-MS demonstrated that drug-induced toxicity is high at doses between 20 and 35 mg/kg. The model predicts that the dose range of 7.5-15 mg/kg of PTXnano-GP-MS provides an optimal balance between efficacy and safety.

FoxN1-dependent thymic epithelial cells promote T-cell leukemia development.

T-cell acute lymphoblastic leukemia (T-ALL) and T-lymphoblastic lymphomas (T-LBL) are aggressive malignancies of thymocytes. The role of thymic microenvironmental cells and stromal factors in thymocyte malignant transformation and T-ALL development remains little explored. Here, using the TEL-JAK2 transgenic (TJ2-Tg) mouse model of T-ALL/LBL, which is driven by constitutive JAK/STAT signaling and characterized by the acquisition of Notch1 mutations, we sought to identify stromal cell alterations associated with thymic leukemogenesis. Immunofluorescence analyses showed that thymic lymphomas presented epithelial areas characterized by keratin (Krt) 5 and Krt8 expression, adjacently to epithelial-free areas negative for Krt expression. Both areas contained abundant laminin (extracellular matrix) and ER-TR7+ (fibroblasts) CD31+ (endothelial) and CD11c+ (dendritic) cells. Besides Krt5, Krt-positive areas harbored medullary thymic epithelial cells (TECs) labeled by Ulex europaeus agglutinin-1. By performing flow cytometry and RNA sequencing analyses of thymic lymphomas, we observed an enrichment in medullary TEC markers in detriment of cortical TEC markers. To assess whether TECs are important for T-ALL/LBL development, we generated TJ2-Tg mice heterozygous for the FoxN1 transcription factor nude null mutation (Foxn1+/nu). Strikingly, in TJ2-Tg;Foxn1+/nu compound mice, both emergence of malignant cells in preleukemic thymi and overt T-ALL onset were significantly delayed. Moreover, in transplantation assays, leukemic cell expansion within the thymus of recipient Foxn1+/nu mice was reduced as compared with control littermates. Since thymopoesis is largely normal in Foxn1+/nu mice, these results indicate that FoxN1 haploinsufficiency in TECs has a more profound impact in thymic leukemogenesis.

Modulation of Exposure to Static Magnetic Field Affects Targeted Therapy of Solid Tumors In Vivo.

Static magnetic fields (SMF) exhibit antitumoral activity and enhance the efficacy of chemotherapy by opening the tumor-blood barrier. This study aimed to analyze different SMF-exposure protocols on epidermal growth factor receptor (EGFR)-overexpressing tumors, as well as their combination with cetuximab. Experiments were performed in skinfold chamber preparations of C57Bl/6-and CD-1nu/nu mice bearing LLC-1 tumors. Animals were exposed to 587 mT magnetic field following different exposure protocols. A subgroup received additional cetuximab injections. Using in vivo-fluorescence microscopy and planimetry, tumor angiogenesis, growth and microcirculation were repeatedly analyzed for 13 days. In contrast to daily short SMF exposure, three-fold SMF exposure for 2 h led to a significant 46% reduction of tumor growth. Adding cetuximab to SMF exposure did not yield any benefit, although cetuximab monotherapy was highly effective (53% reduction of tumor growth), indicating a potential interference of SMF and EGFR signaling. No effects on microcirculation, angiogenesis or leukocyte-endothelium interactions were documented. The use of SMF is promising in the treatment of solid tumors; however, it appears to interfere with EGFR-targeted therapy.

T cell and periosteum cooperation in osteoclastogenesis induced by lipopolysaccharide injection in transplanted mouse tibia

Background/purposeWe previously reported that injedctions of lipopolysaccharide (LPS) into the gingiva of mice induce inflammatory bone resorption that actively involved T cells. Receptor activator of NF-κB ligand (RANKL), which is an essential factor for osteoclastogenesis, was reportedly produced by osteoblasts, fibroblasts, and T cells in vitro; however, it has not been established which cells affect osteoclastogenesis in vivo. Here we determined the roles of T cells and the periosteum on osteoclastogenesis in LPS-induced inflammatory bone resorption. Materials and methodsThirty-five BALB/c (wild-type: WT) and 10 BALB/c-nu/nu (nude: Nu) mice congenitally lacking T cells were used. Using inbred WT mice, tibias were transplanted with and without the periostea [(+) and (−), respectively, n = 15 per group] into the dorsal subcutaneous connective tissue of WT or Nu mice. Each group received four injections around the transplanted site: experimental groups were injected with LPS, and control groups were injected with phosphate-buffered saline. Isolated tissues were prepared for histopathological observation of the transplanted bone surface. ResultsMany infiltrating inflammatory cells were present near the surface of the tibias in the LPS-injected groups. Only the WT (+) LPS group showed osteoclasts. The number of mononuclear preosteoclasts and RANKL-positive cells was highest in the WT (+) LPS group, and there were no significant differences among the other three groups. ConclusionT cells and the periosteum are closely involved in osteoclastogenesis in inflammatory bone resorption in vivo.

T cell-mediated antitumor immune response eliminates skin tumors induced by mouse papillomavirus, MmuPV1

Previous studies of naturally occurring mouse papillomavirus (PV) MmuPV1-induced tumors in B6.Cg-Foxn1nu/nu mice suggest that T cell deficiency is necessary and sufficient for the development of such tumors. To confirm this, MmuPV1-induced tumors were transplanted from T cell-deficient mice into immunocompetent congenic mice. Consequently, the tumors regressed and eventually disappeared. The elimination of MmuPV1-infected skin/tumors in immunocompetent mice was consistent with the induction of antitumor T cell immunity. This was confirmed by adoptive cell experiments using hyperimmune splenocytes collected from graft-recipient mice. In the present study, such splenocytes were injected into T cell-deficient mice infected with MmuPV1, and they eliminated both early-stage and fully formed tumors. We clearly show that anti-tumor T cell immunity activated during tumor regression in immunocompetent mice effectively eliminates tumors developing in T cell-deficient congenic mice. The results corroborate the notion that PV-induced tumors are strongly linked to the immune status of the host, and that PV antigens are major anti-tumor antigens. Successful anti-PV T cell responses should, therefore, lead to effective anti-tumor immune therapy in human PV-infected patients.

Establishment of a murine pancreatic cancer pain model and microarray analysis of pain-associated genes in the spinal cord dorsal horn

There is emerging evidence on the mechanisms of pancreatic cancer pain. Following the establishment of an orthotropic transplantation model of pancreatic cancer, microarray analysis was performed to identify changes in the expression levels of pain-associated genes in the spinal cord. A mouse model of pancreatic cancer-induced pain was established by implanting SW 1990 cells into the pancreases of female BALB/c-nu mice. The survival rate and body weight were measured following orthotropic transplantation. Gross anatomical techniques and hematoxylin and eosin staining were used to analyze the pancreatic tumor tissue. Multiple behavioral tests were also performed to assess pain-associated responses. Additionally, using samples from mice with or without observable pain, microarray analysis was performed to determine the gene expression profiles in the spinal cord dorsal horn. The survival rate of mice with pancreatic cancer was high during the initial 3 weeks post-surgery, although the body weight decreased progressively. Gross anatomical techniques demonstrated that the tumor size increased significantly following the surgery, and this result was confirmed by solid tumor masses in the pancreatic tissues of the mouse model. Observable pain behavioral responses were also examined in the pancreatic cancer model by measuring the mechanical threshold of the abdominal skin, hunching behavior and visceromotor responses. The profiles of 10 pain specific-associated genes in the spinal cord dorsal horn that accurately reflect the molecular pathological progression of disease were also identified. In conclusion, the present study has developed a novel animal model of pancreatic cancer pain in BALB/c-nu mice that resembles human pancreatic cancer pain, and the expression of pain-associated genes in the spinal cord dorsal horn has been profiled. The results of the present study may further the understanding of the molecular mechanisms that mediate pancreatic cancer pain.

Neotenic phenomenon in gene expression in the skin of Foxn1- deficient (nude) mice - a projection for regenerative skin wound healing

BackgroundMouse fetuses up to 16 day of embryonic development and nude (Foxn1- deficient) mice are examples of animals that undergo regenerative (scar-free) skin healing. The expression of transcription factor Foxn1 in the epidermis of mouse fetuses begins at embryonic day 16.5 which coincides with the transition point from scar-free to scar-forming skin wound healing. In the present study, we tested the hypothesis that Foxn1 expression in the skin is an essential condition to establish the adult skin phenotype and that Foxn1 inactivity in nude mice keeps skin in the immature stage resembling the phenomena of neoteny.ResultsUninjured skin of adult C57BL/6J (B6) mice, mouse fetuses at days 14 (E14) and 18 (E18) of embryonic development and B6.Cg-Foxn1 nu (nude) mice were characterized for their gene expression profiles by RNA sequencing that was validated through qRT-PCR, Western Blot and immunohistochemistry. Differentially regulated genes indicated that nude mice were more similar to E14 (model of regenerative healing) and B6 were more similar to E18 (model of reparative healing). The up-regulated genes in nude and E14 mice were associated with tissue remodeling, cytoskeletal rearrangement, wound healing and immune response, whereas the down-regulated genes were associated with differentiation. E14 and nude mice exhibit prominent up-regulation of keratin (Krt23, -73, -82, -16, -17), involucrin (Ivl) and filaggrin (Flg2) genes. The transcription factors associated with the Hox genes known to specify cell fate during embryonic development and promote embryonic stem cells differentiation were down-regulated in both nude and E14. Among the genes enriched in the nude skin but not shared with E14 fetuses were members of the Wnt and matrix metalloproteinases (Mmps) families whereas Bmp and Notch related genes were down-regulated.ConclusionsIn summary, Foxn1 appears to be a pivotal control element of the developmental program and skin maturation. Nude mice may be considered as a model of neoteny among mammals. The resemblance of gene expression profiles in the skin of both nude and E14 mice are direct or indirect consequences of the Foxn1 deficiency. Foxn1 appears to regulate the balance between cell proliferation and differentiation and its inactivity creates a pro-regenerative environment.

Abstract 2083: Toxicity, bioavailability, pharmacokinetics, tissue distribution and metabolism of a novel small molecule inhibitor of IL-6-induced STAT3 activation

Abstract Introduction: The oncogenic transcription factor STAT3 is frequently hyper-activated in head and neck cancer and promotes gene transcription involved in cancer development, maintenance and progression. Several selective small molecule inhibitors of IL-6-induced STAT3 activation were identified in a screening campaign, and four analogs from a lead optimization series were analyzed. Compound UPCDC10205 was prioritized for in vivo testing to evaluate its toxicity, pharmacokinetics (PK) and metabolism in mice. Methods: The four inhibitors of IL-6-induced STAT3 activation were incubated with liver microsomes from Foxn1 +/nu mice up to 90 min. An LC-MS/MS assay was developed to quantify substrate depletion. Single IV dose toxicity was determined in male and female Foxn1 +/nu mice at the maximum soluble dose of 4 mg/kg of compound UPCDC10205 in 10% Solutol. In the multiple IV dose study in female mice UPCDC10205 was dosed QDx5 at 4, 2.7, and 1.3 mg/kg/day. During toxicity studies clinical health status was observed daily and body weight was recorded twice weekly for 14 days after treatment, followed by necropsy. To evaluate PK, single doses of UPCDC10205 IV 4 mg/kg, PO IV 4 mg/kg, or PO 30 mg/kg UPCDC10205 suspension in 1% CMC, were administered to groups of female mice. Mice were euthanized from 5 min to 24 h after dosing (n = 3). RBCs, plasma and tissues were collected and stored at -80 °C. UPCDC10205 concentrations were quantified by LC-MS/MS. Non-compartmental PK were evaluated. LC-MS/MS was used to screen for metabolites in plasma and urine. Results: Approximately 80% of compound UPCDC10205 remained after a 90 min microsomal incubation compared to &amp;lt;50% for the other analogs. Mice exhibited no signs of toxicity after single or multiple doses of 4 mg/kg IV. Exposure in liver, lungs, kidney, skeletal muscle and brain were 1.6-3.2-fold that of plasma. Plasma AUC after IV 4 mg/kg (1022 ng/mL*h) compared to PO 4 mg/kg dosing (53 ng/mL*h) yielding a bioavailability of ∼5%. Compound UPCDC10205 was not detected beyond 6 h in any tissue. The plasma half-life was 0.6 h, clearance 3.9 L/h/kg and distribution volume 3.4 L/kg. The major metabolite identified in both plasma and urine was UPCDC10205 N-glucuronide Conclusion: In vitro, UPCDC10205 was metabolically stable. No gross toxicity was observed in mice administered the maximum soluble dose. UPCDC10205 was widely distributed into tissues and cleared rapidly. Bioavailability was ∼5%. In vivo metabolism of UPCDC10205 was by direct glucuronidation, explaining why microsomal stability (reflective of phase I metabolism) did not translate to in vivo metabolic stability. Support: P30CA047904; P50CA097190 Citation Format: Brian F. Kiesel, Robert A. Parise, Jianxia Guo, Donna M. Huryn, Paul A. Johnston, Rafaelle Colombo, Malabika Sen, Jennifer Grandis, Julie L. Eiseman, Jan H. Beumer. Toxicity, bioavailability, pharmacokinetics, tissue distribution and metabolism of a novel small molecule inhibitor of IL-6-induced STAT3 activation. [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 2083.