PC-3 Tumor Research Articles

4,5-Diazafluorene N-glycopyranosyl hydrazones as scaffolds for potential bioactive metallo-organic compounds: Synthesis, structural study and cytotoxic activity

A series of novel N1-(4,5-diazafluoren-9-yliden)-N2-glycopyranosyl hydrazines was prepared in synthetically useful yields by treatment of 9H-4,5-diazafluoren-9-hydrazone with different unprotected monosaccharides. The reactions with the monosaccharides tested afforded stereoselectively, and exclusively, cyclic derivatives, whose structures correspond to N-β-glycopyranosyl hydrazones except for the d-arabinose derivative that agrees with the α-anomer. Several copper(II) complexes having a 2:1 ligand to metal mole ratio were also prepared. The metal complexes can bind DNA sequences and preferentially stabilize G-quadruplex DNA structures over dsDNA. The fucose, rhamnose and deoxyglucose copper(II) complexes exhibited a cytotoxic activity against cultured HeLa and PC3 tumor cells comparable to other metal complexes normally used for chemotherapeutic purposes, such as cisplatin.

Preliminary evaluation of a novel 18F-labeled PARP-1 ligand for PET imaging of PARP-1 expression in prostate cancer

IntroductionPoly (ADP-ribose) polymerase-1 (PARP-1) plays many roles in prostate cancer (PC), such as mediating DNA damage repair, transcriptional regulation and nuclear hormone receptor signaling. Because of this, PARP-1 has been targeted for therapy in PC, and non-invasive imaging of PARP-1 could help predict which patients are likely to respond to such therapy. Several PARP-1 positron emission tomography (PET) imaging agents have been developed and show promise for imaging PARP-1 expression in breast, brain, and lung cancer in small animals, but not as yet in prostate cancer. [18F]WC-DZ-F is an analogue of [18F]FluorThanatrace (FTT) and [125I]KX1, which are well-established PARP-1 ligands for measuring PARP-1 expression. Herein, we evaluated the potential of [18F]WC-DZ-F for the imaging PARP-1 expression in PC. Methods[18F]WC-DZ-F was synthesized by a two-step sequence. [18F]WC-DZ-F was evaluated by in vitro uptake studies in PC-3 cells and by in vivo biodistribution and microPET imaging using PC-3 tumor xenografts. Ex vivo autoradiography of PC-3 tumors after microPET imaging was also performed. Results[18F]WC-DZ-F has high, PARP-1-specific uptake in PC-3 cells. In the microPET imaging study, [18F]WC-DZ-F accumulated in PC-3 xenograft tumors over 2 h, and the uptake was significantly reduced by blocking with olaparib. PC-3 tumors were clearly visualized in microPET images, and the imaging results were further confirmed by autoradiography of PC-3 tumors ex vivo. In the biodistribution study [18F]WC-DZ-F washed out quickly from most tissues within 2 h, except for the liver in which the uptake was not blockable by olaparib. ConclusionsWe synthesized a novel PARP-1 radioligand, [18F]WC-DZ-F. The preliminary evaluation of [18F]WC-DZ-F indicates that it is a suitable PET imaging agent for measuring PARP-1 expression in prostate cancer and should be applicable to other types of cancers.

Abstract A097: Regulation of immunophenotype modulation of monocytes-macrophages from M1 to M2 by prostate cancer cell culture supernatant via the transcription factor STAT3

Abstract Background: The transcription factor STAT3 has a prominent innate immunity effect on cancer progression. We determined the regulation of STAT3 in the immunophenotype modulation of macrophages from M1 to M2 induced by the cell culture supernatant of the prostate cancer line PC3. Methods: Monocyte-macrophages from healthy donors were cultured in the supernatant of PC3 cells, membrane proteins and intracytoplasmic and phosphorylated STAT3 were measured using flow cytometry, and cytokines and growth factors were studied using luminescence. Cytotoxicity and nitric oxide were evaluated via colorimetric assays. Results: The supernatant of prostate tumor PC3 cells effectively induced macrophages toward an M2 profile, and the expression of phosphorylated STAT3 in the monocytes-macrophages notably increased. In the group of monocytes-macrophages treated with an STAT3 inhibitor, the macrophages were induced towards an M1 phenotype. Conclusions: In this study, we show that the secretion profile of PC3 prostate cancer cells induces a change in macrophage phenotype from M1 to M2, and this phenomenon is related to phosphorylation of the transcription factor STAT3. Citation Format: Raul Solis, Alejandro Bravo, Jr., Georgina Hernandez, Alejandro Bravo. Regulation of immunophenotype modulation of monocytes-macrophages from M1 to M2 by prostate cancer cell culture supernatant via the transcription factor STAT3 [abstract]. In: Proceedings of the AACR Special Conference: Prostate Cancer: Advances in Basic, Translational, and Clinical Research; 2017 Dec 2-5; Orlando, Florida. Philadelphia (PA): AACR; Cancer Res 2018;78(16 Suppl):Abstract nr A097.

Abstract 2553: PSMA-specific, TGF-ß-insensitive CD8+ T cells derived from metastatic castration resistant prostate cancer (mCRPC) patients induce apoptosis of PSMA positive prostate cancer (PCa)

Abstract Introduction: Manufacture of tumor specific CD8+ T cells has been an obstacle for developing immunotherapies for PCa, especially in patients with mCRPC. Here we report a new immunotherapeutic approach using adoptive transfer of patient-derived PSMA-specific, TGF-ß-insensitive human CD8+ T cells to induce the apoptosis of PCa. Methods: Peripheral blood CD8+ T cells were collected from mCRPC patient by leukapheresis, and cultured in FDA approved Cell Processing Work Station with CD-3/CD28 beads. We developed a TßRIIDN-TK-IRES-PZ1 chimeric T cell receptor retroviral construct using an anti-PSMA IgTCR(ζ) gene (PZ1) and a dominant negative TGF-ß type II receptor (TßRIIDN), that could induce CD8+ T cells to be PSMA reactive and insensitive to TGF-ß. PC-3 cells (PSMA negative) or PSMA positive PC-3-PSMA cells were used for target cells for in vivo study. Subcutaneous injection of PC-3 and PC-3-PSMA cells (2x105 cells/each) into the left and right flank region respectively in each of 32 immunodeficient RAG-1 mice was performed. One week later, the animals were randomly assigned to one of three adoptive transfer groups (16 mice /each group, 2x106 CD8+ T cells/each mice): Group 1: PSMA-specific, TGF-ß-insensitive CD8+ T cells infected with TßRIIDN-TK-IRES-PZ1 (71.1% positive); Group 2: Naïve CD8+ T cells. The animals were provided 2 weekly adoptive transfer treatments and sacrificed after 3 weeks. The infiltration of CD8+ T cells and apoptosis of tumor tissue was evaluated by immunofluorescence staining and TUNEL assay. Results: In Group 1, the average tumor weight was significantly lower in the PC3-PSMA tumor (0.413g) compared to the PC3 tumor (2.75 g). There was no difference between the PC3 tumor (2.36g) compared to PC3-PSMA tumor (2.45g) in Group 2. H&E staining showed large amount of nuclear fusion, fragmentation and necrosis were found in PC3-PSMA tumors in Group 1 compared to Group 2. In Group 1, tumor apoptosis (72.5/1,000 μm2) and CD8+ T cell infiltration (45.5/1,000 μm2) in PC3-PSMA tumor parenchyma was significantly higher compared to PC3 tumor (6.7/1,000 μm2 and 3.1/1,000 μm2 respectively). There was no significant apoptosis or CD8+ T cells infiltration observed in either PC3 or PC3-PSMA tumor in Group 2 and Group 3. This result indicated that PSMA-specific, TGF-ß-insensitive CD8+ T cells can infiltrate into the PSMA positive tumor parenchyma and induce tumor apoptosis. Conclusion: This study demonstrated that our approach combines TGF-ß insensitive with PSMA selectivity can significantly enhance the specificity and anti-tumor ability of mCRPC patient's naïve CD8+ T cells, and simultaneously suppress the tumor by induce significant tumor apoptosis. Therefore, these PSMA-specific, TGF-ß-insensitive CD8+ T cells may offer a novel therapeutic intervention for both primary PCa treatment as well as for disease recurrence. Citation Format: Qiang Zhang, Brian Helfand, Ximing Yang, Benedito Carneiro, Francis J. Giles, Timothy Kuzel, Chung Lee, Massimo Cristofanilli. PSMA-specific, TGF-ß-insensitive CD8+ T cells derived from metastatic castration resistant prostate cancer (mCRPC) patients induce apoptosis of PSMA positive prostate cancer (PCa) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2553.

Abstract 4380: Role of FAM3B/PANDER in inhibition of cell death and tumor growth in breast and prostate cancer

Abstract FAM3B/PANDER is a novel cytokine-like protein that induces apoptosis in beta-cells and regulates the effects of insulin in peripheral tissues. Since previous data revealed that FAM3B can be expressed by prostate and breast tumors, we evaluated the role of this cytokine in prostate and breast tumor progression. FAM3B expression was compared by quantitative PCR in LnCAP, PC-3 and DU145 prostate tumor cell lines and MCF-7 and MDA-MB- 231 breast tumor cell lines. After treatment with either recombinant FAM3B protein or secreted FAM3B obtained from conditioned media (CM) derived from FAM3B-overexpressing 293T cells, the cell death and viability of DU145 and MDA-MB- 231 cell lines were evaluated. DU145 and MDA-MB- 231 cells overexpressing FAM3B protein were produced by lentiviral-mediated transduction of full-length FAM3B cDNA. Cell viability and apoptosis were analyzed in DU145-FAM3B and MDA-231-FAM3B cells after treatment with cell death inducers. Anchorage-independent growth and scratch wound assays were used to evaluate in vitro tumorigenicity and cell migration, respectively. In vivo tumorigenicity and invasiveness were evaluated by tumor xenograft growth in nude mice. We observed that FAM3B was highly expressed by hormone responsive cells (LnCAP and MCF-7) and low expressed in unresponsive hormone cells (PC-3, DU145 and MDA-MB- 231). Cell viability and survival of DU145 and MDA-MB- 231 cells increased after exogenous treatment with recombinant FAM3B protein or CM containing FAM3B-secreted protein. Overexpression of FAM3B in DU145 and MDA-MB- 231 cells promoted an inhibition of apoptosis triggered by TNF-alpha and staurosporine. Cell death inhibition was accompanied by increased gene expression of the anti-apoptotic Bcl-2 and Bcl-xL genes, and by slight decrease in expression of pro-apoptotic gene Bax and with a decrease of caspases proteolytic activities. When compared to control, cells overexpressing FAM3B displayed a decreased anchorage independent growth and increased motility in vitro, as well as an increased tumor growth in xenografted nude mice. In agreement Immunohistochemistry analysis from tumor xenografts revealed similar anti-apoptotic phenotype in FAM3B overexpression, with an increase of Bcl-2. The results showed that FAM3B was capable to activates pro-survival mechanisms with an increasing of tumor growth by, activation of Bcl-2 and Bcl-xl pathways, suggesting the role of this cytokine in breast and in prostate tumors progression. Citation Format: Izabela D. Caldeira. Role of FAM3B/PANDER in inhibition of cell death and tumor growth in breast and prostate cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4380.

Abstract 4106: Hyperpolarized [1-13C]-pyruvate/lactate magnetic resonance spectroscopic imaging of prostate cancer in vivo predicts response to lactate dehydrogenase inhibition

Abstract Purpose: Non-invasive magnetic resonance spectroscopic imaging (MRSI) of hyperpolarized (HP) 13C-labeled pyruvate and its metabolite lactate is being used to monitor the metabolic flux in solid tumors. In this study, we evaluate the potential of MRSI of HP [1-13C]-pyruvate and [1-13C]-lactate, in prostate cancer as a predictive biomarker for targeting lactate dehydrogenase. Experimental Design: Two human prostate cancer cell lines (DU145 and PC3) were grown as xenografts. The conversion of pyruvate to lactate in xenografts was measured, after intravenous delivery of hyperpolarized [1-13C] pyruvic acid, by MRSI. Steady state metabolomic analysis of xenograft tumors was performed by mass spectrometry and steady state lactate levels were measured with proton (1H) MRS. Perfusion and oxygenation of xenografts were measured with electron paramagnetic resonance (EPR) imaging. Tumor growth was assessed after lactate dehydrogenase (LDH) inhibition with FX-11 (42 µg/mouse/day for 5 days x 2 weekly cycles). Lactate production, pyruvate uptake, extracellular acidification rates and oxygen consumption of the prostate cancer cell lines was analyzed in vitro. Protein levels of glycolysis regulators were assessed with immunoblotting. Results: DU145 tumors demonstrated an enhanced conversion of pyruvate to lactate with HP [1-13C] MRSI relative to PC3 tumors (21% higher 13C-lactate/pyruvate p<0.05). In addition, DU145 xenografts have a 42% (p<0.05) reduction in 13C-lactate/pyruvate after FX-11 treatment while PC3 xenografts demonstrate no sensitivity to FX-11 treatment. In correlation FX-11 significantly delayed DU145 tumor volume doubling time by 3.4 days (p<0.05). By comparison no difference was observed between DU145 and PC3 xenografts in steady state measures of lactate, oxygenation, or perfusion. The two cell lines also exhibited similar pyruvate uptake, lactate production, extracellular acidification and oxygen consumption rates and sensitivity to FX-11 in vitro. Difference in the expression of glycolysis regulators such as Hif-1α, LDHA, MCT1, MCT4, HK2 and PFKP were observed in vitro but did not correlate with HP [13C]-lactate/pyruvate MRSI results or FX-11 sensitivity. Conclusions: Hyperpolarized [1-13C]-pyruvate MRSI of prostate cancer xenografts predicted the efficacy of targeting LDH when steady state markers of glycolysis, in vivo and in vitro, did not. Citation Format: Bradley T. Scroggins, Masayuki Matsuo, Ayla O. White, Keita Saito, Jeeva P. Munasinghe, Carole Sourbier, Kazutoshi Yamamoto, Vivian Diaz, James B. Mitchell, Murali C. Krishna, Deborah E. Citrin. Hyperpolarized [1-13C]-pyruvate/lactate magnetic resonance spectroscopic imaging of prostate cancer in vivo predicts response to lactate dehydrogenase inhibition [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4106.

Abstract 3628: PD-1 checkpoint blockade therapy enhances adoptive immunotherapy by human Vγ2Vδ2 T cells against prostate tumors in a preclinical model

Abstract Cancer immunotherapy is an effective treatment against a variety of malignancies. Checkpoint blockade with anti-PD-1 or anti-CTLA-4 antibodies has resulted in durable clinical responses. However, targeting PD-1 or PD-L1 provides clinical benefits for only a minority of patients. Moreover, the effectiveness of checkpoint blockade correlates with the numbers of nonsynonymous mutations present in the tumor explaining the poor responsiveness of certain tumors such as prostate cancers. Therefore, additional therapies are needed for patients not currently responding. Unlike αβT cells, the anti-tumor activity of Vγ2Vδ2 T cells does not require MHC and is independent of the number of tumor mutations. Instead, Vγ2Vδ2 T cells use their TCRs to surveil tumor cells for alterations in isoprenoids metabolism induced by bisphosphonate treatment in a process requiring butyrophilin 3A1. This allows Vγ2Vδ2 T cells to recognize and kill all types of tumors. In clinical trials involving more than 200 patients, adoptive immunotherapy with Vγ2Vδ2 T cells has been proven to be safe. However, there have been few partial or complete responses with the most common beneficial response being stable disease. To find ways to increase its effectiveness, we have now assessed the benefits of combining PD-1 checkpoint blockade with the adoptive transfer of human Vγ2Vδ2 T cells. Vγ2Vδ2 T cells were found to express the major inhibitory receptors, PD-1, CTLA-4, LAG3, and TIM3 at varying times during the fourteen day ex vivo expansion period. To assess the effect of checkpoint blockade in vivo, immunodeficient NSG mice were inoculated with human PC-3 prostate cancer cells that naturally express the PD-L1 ligand. After 2 weeks, weekly treatments were started with intravenous pamidronate followed a day later by purified Vγ2Vδ2 T cells combined with either anti-PD-1 (clone J116) or control IgG1 mAbs. The addition of anti-PD-1 mAb treatment, markedly enhanced Vγ2Vδ2 T cell immunity to PC-3 tumors. Combination treatment was able to reduce tumor volume almost to zero after 5 weeks. These results demonstrate that PD-1 checkpoint blockade can greatly enhance adoptive immunotherapy with γδ T cells in a preclinical tumor model and suggests that combination therapy with anti-PD1 and Vγ2Vδ2T cells could be an effective strategy to treat patients with a variety of cancers. Citation Format: Mohanad H. Nada, Hong Wang, Craig Morita. PD-1 checkpoint blockade therapy enhances adoptive immunotherapy by human Vγ2Vδ2 T cells against prostate tumors in a preclinical model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3628.

Abstract 1272: Docosahexaenoic acid supplementation enhances the response of PC-3 prostate cancer cells to enzalutamide

Abstract Prostate cancer is currently the second leading cause of death from cancer among men in the United States. Initial treatments generally focus on hormone therapy to inhibit the production of androgens, but most prostate cancers eventually become castration resistant and no longer respond to androgen-suppression therapy. The recent development of drugs that inhibit androgen binding to the androgen receptor (AR) have proven effective in treating castration-resistant prostate cancer (CRPC). Studies in our laboratory have shown that docosahexaenoic acid (DHA; C22:6 n-3), a long chain omega-3 polyunsaturated fatty acid (PUFA), inhibits tumorigenesis in both androgen-dependent (LNCaP) and androgen-independent (PC-3, DU145) prostate cancer cell lines in culture. Moreover, in vivo studies with n-3 PUFA supplementation have been shown to significantly reduce tumor growth of PC-3 and DU145 compared to corn oil diets rich in linoleic acid, (C18:2, n-6). With evidence suggesting that n-3 PUFA dietary supplementation can inhibit tumorigenesis in CRPC, the current study investigated the impact of DHA supplementation in combination with enzalutamide in PC-3 tumor cells. Enzalutamide is a Food and Drug Administration-approved treatment for patients with metastatic CRPC. Enzalutamide acts by interrupting the binding of androgens to the AR, which influences the AR signaling pathway–a target of interest in CRPC treatment. Cell viability was determined by measuring intracellular ATP in PC-3 cells treated with DHA and enzalutamide alone and in combination. Cell viability was reduced with the combination of DHA and enzalutamide compared to enzalutamide or DHA alone, suggesting that DHA enrichment can augment enzalutamide therapy with PC-3 cells in vitro. Studies have also shown that combinatorial treatments with enzalutamide and HIF-1α inhibitors result in synergistic inhibition of CRPC tumor proliferation, and our laboratory has shown that DHA inhibits HIF-1α by decreasing intracellular ATP in breast and lung cancer cells in vitro. These results serve as a prelude to a pilot clinical trial to evaluate the effects of nutritional supplementation with high levels of omega-3 fatty acids on enzalutamide inhibition of CRPC. Citation Format: Irvin V. Ma, Andrew R. Cooper, Ying Hu, Arianne G. Sorreta, Palvinder K. Bains, Prem Kumar, Ronald S. Pardini. Docosahexaenoic acid supplementation enhances the response of PC-3 prostate cancer cells to enzalutamide [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1272.

Abstract 1070: Discoidin domain receptor 1 (DDR1): A potential suppressor of prostate cancer progression

Abstract Discoidin domain receptors DDR1 and DDR2 are the only receptor tyrosine kinases that bind to and signal in response to collagen. In cancer, DDRs have been shown to play a key role in mediating the crosstalk between tumor cells and the stromal collagen matrix. Because prostate cancer (PCa) preferentially metastasizes to bone, a collagen-rich microenvironment, we set out to investigate the role of DDR1 in intraosseous growth of PC3 cells, a human PCa cell line that expresses DDR1 but not DDR2. PC3 cells were engineered to express short hairpin RNAs (shRNAs) against DDR1, or a scrambled shRNA as a control. These cells were inoculated into the tibiae of male SCID mice, and then bone response and intraosseous tumor growth evaluated by X-ray and histomorphometry. Whereas no differences were observed in bone response (osteolytic lesions), downregulation of DDR1 in PC3 cells was associated with a significant increase in intraosseous tumor growth when compared to control PC3 cells (P<0.05, Mann-Whitney test). To further evaluate the role of DDR1 in PC3 tumor growth, human DDR1a was overexpressed in PC3 cells. The engineered cells were inoculated subcutaneously into SCID mice and tumor growth was monitored over time. Tumors formed by DDR1a-overexpressing PC3 cells were significantly smaller than those obtained with control cells (P<0.005, at final time point, Mann-Whitney test). We also evaluated the expression of DDR1 in a 200-case grade/stage tissue microarray (TMA) with matched normal tissue obtained from The Prostate Cancer Biorepository Network (PCBN). Tissues were subjected to immunohistochemistry (IHC) with an antibody to human DDR1. A predominant membranous DDR1 immunostaining was observed in most epithelial prostate cells, with sporadic cytoplasmic or nuclear immunoreactivity. We found no differences in DDR1 expression between normal and benign prostate glands and low-grade PCa (Gleason score ≤7 [3+4]). However, a significantly lower DDR1 expression was observed in high-grade PCa (Gleason score ≥7 [4+3]) when compared to low-grade PCa (P=0.002, Fisher's exact test). These results suggest that reduced DDR1 expression in PCa is associated with a more aggressive disease. Collectively, these data highlight an unreported role of DDR1 in PCa progression whereby DDR1 may elicit a tumor-suppressive activity, as shown by its ability to reduce intraosseous and subcutaneous growth of PC3 cell xenografts. These data also suggest a differential role for DDRs in PCa bone metastasis whereby DDR1, as opposed to DDR2 (as reported previously), restrains intraosseous PCa growth. Because DDRs are being considered as potential novel therapeutic targets in cancer, defining their precise contributions in PCa progression is of critical importance for the development of effective therapies in this cancer type. Citation Format: R. Daniel Bonfil, Anjum Sohail, Semir Vranić, Daniel S. Oliveira, Dongping Shi, Wei Chen, Hyejeong Jang, Allen D. Saliganan, Benjamin D. Wasinski, Hyeong-Reh C. Kim, Rafael A. Fridman. Discoidin domain receptor 1 (DDR1): A potential suppressor of prostate cancer progression [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1070.

Hyaluronic acid formulation of near infrared fluorophores optimizes surgical imaging in a prostate tumor xenograft

The presence of positive surgical margins confers an increased risk of biochemical relapse and need for salvage therapy in men undergoing radical prostatectomy. Image-guided surgery using near-infrared (NIR) fluorescent contrast agents is a potential method to detect remaining cancerous tissue. The objective of this study was to evaluate three hyaluronic acid (HA) nanoparticle (NP) formulations loaded with NIR fluorophore for their ability to contrast-enhance prostate cancer. HA was modified by conjugation with the hydrophobic ligand, aminopropyl-1-pyrenebutanamide to drive nanoparticle self-assembly. Indocyanine green (ICG) was physicochemically entrapped in the HA-NP, termed NanoICG. Alternatively, Cy7.5 was directly conjugated to amphiphilic HA, termed NanoCy7.5. NanoCy7.5 was synthesized with two HA molecular weights to determine the HA size contribution to delivery to PC3 prostate tumor xenografts. Contrast-enhancement of the tumors and relative biodistribution were assessed by a series of fluorescence imaging, image-guided surgery with spectroscopy, and microscopic techniques. Intravenously administered NanoICG improved tumor signal-to-noise ratio (SNR) at 24 h over ICG by 2.9-fold. NanoCy7.5 with 10 kDa and 100 kDa HA improved tumor SNR by 6.6- and 3.1-fold over Cy7.5 alone, respectively. The PC3 xenograft was clearly identified with the image-guided system providing increased contrast enhancement compared to surrounding tissue for NanoICG and NanoCy7.5 with 10 kDa HA. NIR fluorescence microscopy showed that Cy7.5 in NPs with 10 kDa HA were distributed throughout the tumor, while NanoCy7.5 with 100 kDa HA or NanoICG delivered dye mainly to the edge of the tumor. CD31 staining suggested that PC3 tumors are poorly vascularized. These studies demonstrate the efficacy of a panel of HA-derived NPs in identifying prostate tumors in vivo, and suggest that by tuning the structural properties of these NPs, optimized delivery can be achieved to poorly vascularized tumors. Statement of SignificanceWe have demonstrated the potential of a panel of near-infrared fluorescent (NIRF) nanoparticles (NPs) for image-guided surgery in a prostate cancer xenograft model. Image-guided surgery and imaging of organs ex vivo showed greater tumor signal and contrast when mice were administered NIRF dyes that were covalently conjugated to (NanoCy7.510k-PBA) or physicochemically entrapped in (NanoICGPBA) hyaluronic acid (HA) NPs, compared to free dyes. These results show the potential to use these NPs as tools to detect the margins of tumors and to differentiate healthy and tumor tissue intraoperatively. Moreover, this project provides insight into selecting optimal formulation strategies for poorly vascularized tumors.

Synthesis and evaluation of an 18F-labeled boramino acid analog of aminosuberic acid for PET imaging of the antiporter system xC−

In this study, we synthesized 18F-ASu-BF3, a close boramino acid analog of 5-[18F]fluoro-aminosuberic acid (18F-ASu), via 18F-19F isotope exchange reaction and evaluated its potential for imaging with positron emission tomography (PET). 18F-ASu-BF3 was stable in mouse plasma and taken up into PC3 prostate cancer cells via the system xC− amino acid transporter. The continuous use of isoflurane for anesthesia during dynamic imaging acquisition slowed down the excretion of 18F-ASu-BF3 and enabled visualization of PC3 tumor xenografts in mice. In contrast, no tumor visualization was observed from static images of 18F-BF3-ASu due to its rapid renal excretion mediated in part by the organic anion transporter. Our data indicate that the pharmacokinetics of amino acids could be altered after being converted into their boramino acid analogs. Therefore, care should be taken when using the boramino acid strategy to design and prepare 18F-labeled tracers for imaging amino acid transporters/receptors with PET.

Optimization of ZD2 Peptide Targeted Gd(HP-DO3A) for Detection and Risk-Stratification of Prostate Cancer with MRI.

The aim of this work is to optimize a peptide targeted macrocyclic MRI contrast agent for detection and risk-stratification of aggressive prostate cancer. The optimized agent was prepared using click chemistry in the presence of CuSO4 and ascorbate at room temperature. The T1 and T2 relaxivities of ZD2-N3-Gd(HP-DO3A) are 5.44 and 7.10 mM-1 s-1 at 1.4 T, and 5.53 and 7.81 mM-1 s-1 at 7 T, respectively, higher than the previously reported ZD2-Gd(HP-DO3A). The specific tumor enhancement of the agent was investigated in male nude mice bearing aggressive PC3 human prostate cancer xenografts and slow-growing LNCaP tumor xenografts. Contrast enhanced MR images were acquired using a 2D spin-echo sequence and a 3D FLASH sequence with a 7 T small animal scanner. ZD2-N3-Gd(HP-DO3A) produced robust contrast enhancement in aggressive PC3 tumors and little enhancement in slow-growing LNCaP tumors. It produced 400% and 100% CNR increases in the T1-weighted 2D spin-echo MR images and 3D FLASH images of PC3 tumors, respectively, for at least 30 min at a dose of 0.1 mmol/kg. In contrast, less than 20% CNR increase was observed in the LNCaP tumors with both sequences. The optimized targeted contrast agent has higher relaxivities and are effective to detect aggressive PC3 tumors and differentiate the aggressive cancer from the slow-growing LNCaP prostate cancer in contrast enhanced MRI. ZD2-N3-Gd(HP-DO3A) has the promise for accurate detection and risk-stratification of aggressive prostate cancer.

Reparameterization of PAM50 Expression Identifies Novel Breast Tumor Dimensions and Leads to Discovery of a Genome-Wide Significant Breast Cancer Locus at 12q15.

Background: Breast tumor subtyping has failed to provide impact in susceptibility genetics. The PAM50 assay categorizes breast tumors into: Luminal A, Luminal B, HER2-enriched and Basal-like. However, tumors are often more complex than simple categorization can describe. The identification of heritable tumor characteristics has potential to decrease heterogeneity and increase power for gene finding.Methods: We used 911 sporadic breast tumors with PAM50 expression data to derive tumor dimensions using principal components (PC). Dimensions in 238 tumors from high-risk pedigrees were compared with the sporadic tumors. Proof-of-concept gene mapping, informed by tumor dimension, was performed using Shared Genomic Segment (SGS) analysis.Results: Five dimensions (PC1-5) explained the majority of the PAM50 expression variance: three captured intrinsic subtype, two were novel (PC3, PC5). All five replicated in 745 TCGA tumors. Both novel dimensions were significantly enriched in the high-risk pedigrees (intrinsic subtypes were not). SGS gene-mapping in a pedigree identified a 0.5 Mb genome-wide significant region at 12q15 This region segregated through 32 meioses to 8 breast cancer cases with extreme PC3 tumors (P = 2.6 × 10-8).Conclusions: PC analysis of PAM50 gene expression revealed multiple independent, quantitative measures of tumor diversity. These tumor dimensions show evidence for heritability and potential as powerful traits for gene mapping.Impact: Our study suggests a new approach to describe tumor expression diversity, provides new avenues for germline studies, and proposes a new breast cancer locus. Similar reparameterization of expression patterns may inform other studies attempting to model the effects of tumor heterogeneity. Cancer Epidemiol Biomarkers Prev; 27(6); 644-52. ©2018 AACR.

A Two-Component Assay for Hypoxia Incorporating Long-Term Nitroreduction and Short-Term DNA-Damage Allows Differentiation of the Three Hypoxia Sub-types.

Hypoxia in tumors has many well-characterized effects that are known to prevent optimal cancer treatment. Despite the existence of a large number of assays that have supported hypoxia as an important diagnostic, there is no routine clinical assay in use, and anti-hypoxia therapies have often not included parallel hypoxia measurements. Even with a functioning hypoxia assay, it is difficult to match the oxygen dependence of treatment resistance to that of the assay, and this mismatch can vary substantially from assay to assay and even from tumor to tumor [e.g., caused by endogenous variations in non-protein sulfhydryls (NPSH)]. An underlying concern is the current inability to measure the three types of hypoxia; in particular, cycling hypoxia can affect all aspects of detection and treatment strategy. Here we present data that help validate a new two-component hypoxia assay recently suggested by our laboratory. This assay incorporates the long-term bioreduction of the 2-nitroimidazole, EF5, and the short-term production of γ-H2AX (e.g., time of ionizing radiation exposure). The former can be calibrated to provide the average tissue pO2 over the EF5 exposure time while the latter provides the combined sum of microenvironmental radiation response modifiers (e.g., oxygen and NPSH) at the time of irradiation. Importantly, formation of γ-H2AX is not dependent on blood flow, while EF5 binding is only minimally so, due to the rapid and extensive diffusion characteristics of lipophilic compounds. While both individual assays have their limitations, which are addressed in this article, their combination can dissect the type of hypoxia present. In particular, a mismatch between the two assays can directly detect cycling hypoxia in a therapeutically relevant manner. Preliminary use of this two-component assay in small PC3 tumors showed essentially no binding of EF5. Similarly, there were no tumor regions (for uniform irradiation with 12 Gy) with the low levels of γ-H2AX expected for a condition of cycling hypoxia. Thus, both assays were consistent with an essentially aerobic, radiation-responsive tumor. In a larger PC3 tumor, all regions of high EF5 binding had low levels of γ-H2AX.

PD-1 blockade markedly enhances immunity to prostate tumors by adoptively transferred human Vγ2Vδ2 T cells in an NSG mouse model

Abstract Human γδ T cells expressing Vγ2Vδ2 TCRs monitor foreign- and self-prenyl pyrophosphate metabolites in isoprenoid biosynthesis to mediate immunity to microbes and tumors. Bisphosphonate treatment of tumors results in increases in isopentenyl pyrophosphate that is sensed by butyrophilin 3A1. This allows Vγ2Vδ2 T cells to recognize and kill all tumor types independent of MHC expression or the number of tumor mutations. In clinical trials, adoptive immunotherapy with Vγ2Vδ2 cells has few side effects but has only resulted in a few partial and complete remissions with the most common response being stable disease. To improve effectiveness, we have now tested the combination of PD-1 blockade with Vγ2Vδ2 T cells and the bisphosphonate, pamidronate. Vγ2Vδ2 T cells were found to express PD-1, CTLA-4, LAG-3, and TIM-3 inhibitory receptors during the 14 day ex vivo expansion. Moreover, tumor expression of PD-L1 was increased by co-culture with activated Vγ2Vδ2 cells and by exogenous IFN-γ. To assess the in vivo effect of PD-1 blockade, immunodeficient NSG mice were inoculated with human PC-3 prostate cancer cells that naturally express PD-L1. After 13 days, the mice were treated with pamidronate followed 1 day later by purified Vγ2Vδ2 cells combined with either an anti-PD-1 or a control IgG1 mAb. This regimen was repeated weekly for 5 weeks. Anti-PD-1 mAb treatment markedly enhanced Vγ2Vδ2 immunity to PC-3 tumors, reducing tumor volume nearly to zero after 5 weeks. These results demonstrate that PD-1 checkpoint blockade can enhance the effectiveness of adoptive immunotherapy with γδ T cells in treating prostate tumors in a preclinical model and suggests that this combination should be tested in patients.

Ophiopogonin D', a Natural Product From Radix Ophiopogonis, Induces in Vitro and in Vivo RIPK1-Dependent and Caspase-Independent Apoptotic Death in Androgen-Independent Human Prostate Cancer Cells.

Objective: The purpose of this study was to evaluate the anticancer effects of Ophiopogonin D′ (OPD′, a natural product extracted from a traditional Chinese medicine (Radix Ophiopogonis) against androgen-independent prostate cancer cells and to explore the underlying molecular mechanism(s) of action.Methods: The CCK-8 assay was used to assess the viability of prostate cancer cells. The cell morphology was examined by an ultrastructural analysis via transmission electron microscopy. Cells in apoptosis (early and late stages) were detected using an Annexin V-FITC/propidium iodide kit with a FACSCaliber flow cytometer. JC-1, a cationic lipophilic probe, was employed to measure the mitochondrial membrane potential (MMP) of PC3 cells. Changes in the protein expression of RIPK1, C-RIPK1, caspase 8, cleaved-caspase 8, Bim, Bid, caspase 10, and cleaved-caspase 10 were evaluated by Western blotting. The mRNA expression of Bim was examined by quantitative real-time reverse transcription polymerase chain reaction. Z-VAD-FMK (a caspase inhibitor) and necrostatin-1 (a specific inhibitor of RIPK1) were utilized to determine whether the cell death was mediated by RIPK1 or caspases. PC3 and DU145 xenograft models in BALB/c nude mice were used to evaluate the anticancer activity of OPD′ in vivo.Results: OPD′ was shown to exert potent anti-tumor activity against PC3 cells. It induced apoptosis via a RIPK1-related pathway, increased the protein expression levels of RIPK1 and Bim, and decreased the levels of cleaved-RIPK1, caspase 8, cleaved-caspase 8, Bid, caspase 10, and cleaved-caspase 10. OPD′ also increased the mRNA expression of Bim. The protein expression of Bim was decreased when cells were pre-treated with necrostatin-1. Treatment with OPD′ inhibited the growth of PC3 and DU145 xenograft tumors in BALB/c nude mice.Conclusion: OPD′ significantly inhibited the in vitro and in vivo growth of prostate cells via RIPK1, suggesting that OPD′ may be developed as a potential anti-prostate cancer agent.

A novel Tc-99m and fluorescence-labeled arginine-arginine-leucine-containing peptide as a multimodal tumor imaging agent in a murine tumor model.

We developed a Tc-99m and TAMRA-labeled peptide, Tc-99m arginine-arginine-leucine (RRL) peptide (TAMRA-GHEG-ECG-RRL), to target tumor cells and evaluated the diagnostic performance of Tc-99m TAMRA-GHEG-ECG-RRL as a dual-modality imaging agent for tumor in a murine model. TAMRA-GHEG-ECG-RRL was synthesized using Fmoc solid-phase peptide synthesis. Binding affinity and in vitro cellular uptake studies were performed. Gamma camera imaging, biodistribution, and ex vivo imaging studies were performed in murine models with PC-3 tumors. Tumor tissue slides were prepared and analyzed with immunohistochemistry using confocal microscopy. After radiolabeling procedures with Tc-99m, Tc-99m TAMRA-GHEG-ECG-RRL complexes were prepared in high yield (>96%). The Kd of Tc-99m TAMRA-GHEG-ECG-RRL determined by saturation binding was 41.7±7.8nM. Confocal microscopy images of PC-3 cells incubated with TAMRA-GHEG-ECG-RRL showed strong fluorescence in the cytoplasm. Gamma camera imaging revealed substantial uptake of Tc-99m TAMRA-GHEG-ECG-RRL in tumors. Tumor uptake was effectively blocked by the coinjection of an excess concentration of RRL. Specific uptake of Tc-99m TAMRA-GHEG-ECG-RRL was confirmed by biodistribution, ex vivo imaging, and immunohistochemistry stain studies. In conclusion, in vivo and in vitro studies revealed substantial uptake of Tc-99m TAMRA-GHEG-ECG-RRL in tumors. Tc-99m TAMRA-GHEG-ECG-RRL has potential as a dual-modality tumor imaging agent.

The Use of Human, Bovine, and Camel Milk Albumins in Anticancer Complexes with Oleic Acid.

Oleic acid (OA) is a monounsaturated fatty acid that upon binding to milk proteins, such as α-lactalbumin and lactoferrin, forms potent complexes, which exert selective anti-tumor activity against malignant cells but are nontoxic for healthy normal cells. We showed that the interaction of OA with albumins isolated from human, bovine, and camel milk results in the formation of complexes with high antitumor activity against Caco-2, HepG-2, PC-3, and MCF-7 tumor cells. The antitumor effect of the complexes is mostly due to the action of oleic acid, similar to the case of OA complexes with other proteins. Viability of tumor cells is inhibited by the albumin-OA complexes in a dose dependent manner, as evaluated by the MTT assay. Strong induction of apoptosis in tumor cells after their treatment with the complexes was monitored by flow cytometry, cell cycle analysis, nuclear staining, and DNA fragmentation methods. The complex of camel albumin with OA displayed the most pronounced anti-tumor effects in comparison with the complexes of OA with human and bovine albumins. Therefore, these results suggest that albumins have the potential to be used as efficient and low cost means of tumor treatment.

Targeted thermal therapy with genetically engineered magnetite magnetosomes@RGD: Photothermia is far more efficient than magnetic hyperthermia

Providing appropriate means for heat generation by low intratumoral nanoparticle concentrations is a major challenge for cancer nanotherapy. Here we propose RGD-tagged magnetosomes (magnetosomes@RGD) as a biogenic, genetically engineered, inorganic platform for multivalent thermal cancer treatment. Magnetosomes@RGD are biomagnetite nanoparticles synthesized by genetically modified magnetotactic bacteria thanks to a translational fusion of the RGD peptide with the magnetosomal protein MamC. Magnetosomes@RGD thus combine the high crystallinity of their magnetite core with efficient surface functionalization. The specific affinity of RGD was first quantified by single-cell magnetophoresis with a variety of cell types, including immune, muscle, endothelial, stem and cancer cells. The highest affinity and cellular uptake was observed with PC3 prostatic and HeLa uterine cancer cells. The efficiency of photothermia and magnetic hyperthermia was then compared on PC3 cells. Unexpectedly, photothermia was far more efficient than magnetic hyperthermia, which was almost totally inhibited by the cellular environment. RGD targeting was then assessed in vivo at tumor site, in mice bearing PC3 tumors. As a result, we demonstrate that targeted magnetic nanoparticles could generate heat on a therapeutic level after systemic administration, but only under laser excitation, and successfully inhibit tumor progression.

Radiometal-Dependent Biological Profile of the Radiolabeled Gastrin-Releasing Peptide Receptor Antagonist SB3 in Cancer Theranostics: Metabolic and Biodistribution Patterns Defined by Neprilysin.

Recent advances in oncology involve the use of diagnostic/therapeutic radionuclide-carrier pairs that target cancer cells, offering exciting opportunities for personalized patient treatment. Theranostic gastrin-releasing peptide receptor (GRPR)-directed radiopeptides have been proposed for the management of GRPR-expressing prostate and breast cancers. We have recently introduced the PET tracer 68Ga-SB3 (SB3, DOTA- p-aminomethylaniline-diglycolic acid-DPhe-Gln-Trp-Ala-Val-Gly-His-Leu-NHEt), a receptor-radioantagonist that enables the visualization of GRPR-positive lesions in humans. Aiming to fully assess the theranostic potential of SB3, we herein report on the impact of switching 68Ga to 111In/177Lu-label on the biological properties of resulting radiopeptides. Notably, the bioavailability of 111In/177Lu-SB3 in mice drastically deteriorated compared with metabolically robust 68Ga-SB3, and as a result led to poorer 111In/177Lu-SB3 uptake in GRPR-positive PC-3 xenografts. The peptide cleavage sites were identified by chromatographic comparison of blood samples from mice intravenously receiving 111In/177Lu-SB3 with each of newly synthesized 111In/177Lu-SB3-fragments. Coinjection of the radioconjugates with the neprilysin (NEP)-inhibitor phosphoramidon led to full stabilization of 111In/177Lu-SB3 in peripheral mouse blood and resulted in markedly enhanced radiolabel uptake in the PC-3 tumors. In conclusion, in situ NEP-inhibition led to indistinguishable 68Ga/111In/177Lu-SB3 profiles in mice emphasizing the theranostic prospects of SB3 for clinical use.