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1. Endothelial-to-osteoblast transition in normal mouse bone development

Author

Song-Chang Lin, Guoyu Yu, Yu-Chen Lee, Jian H. Song, Xingzhi Song, Jianhua Zhang, Theocharis Panaretakis, Christopher J. Logothetis, Yoshihiro Komatsu, Li-Yuan Yu-Lee, Guocan Wang, and Sue-Hwa Lin

Subjects
Biological sciences, Cell biology, Cancer, Science
Abstract

Summary: Metastatic prostate cancer (PCa) in bone induces bone-forming lesions. We have previously shown that PCa-induced bone originates from endothelial cells (ECs) that have undergone EC-to-osteoblast (OSB) transition. Here, we investigated whether EC-to-OSB transition also occurs during normal bone formation. We developed an EC and OSB dual-color reporter mouse (DRM) model that marks EC-OSB hybrid cells with red and green fluorescent proteins. We observed EC-to-OSB transition (RFP and GFP co-expression) in both endochondral and intramembranous bone formation during embryonic development and in adults. Co-expression was confirmed in cells isolated from DRM. Bone marrow– and lung-derived ECs underwent transition to OSBs and mineralization in osteogenic medium. RNA-sequencing revealed GATA family transcription factors were upregulated in EC-OSB hybrid cells and knockdown of GATA3 inhibited BMP4-induced mineralization. Our findings support that EC-to-OSB transition occurs during normal bone development and suggest a new paradigm regarding the endothelial origin of OSBs.

Published
2023
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2. Combinatorial effect of radium-223 and irreversible electroporation on prostate cancer bone metastasis in mice

Author

Raniv D. Rojo, Joy Vanessa D. Perez, Jossana A. Damasco, Guoyu Yu, Song-Chang Lin, Francisco M. Heralde, Nora M. Novone, Elmer B. Santos, Sue-Hwa Lin, and Marites P. Melancon

Subjects
radium-223, irreversible electroporation, prostate cancer, bone metastasis, bone morphogenic protein-4, Medical technology, R855-855.5
Abstract

Background Metastatic prostate cancer in bone is difficult to treat as the tumor cells are relatively resistant to hormonal or chemotherapies when compared to primary prostate cancer. Irreversible electroporation (IRE) is a minimally invasive ablation procedure that has potential applications in the management of prostate cancer in bone. However, a common limitation of IRE is tumor recurrence, which arises from incomplete ablation that allows remaining cancer cells to proliferate. In this study, we combined IRE with radium-223 (Ra-223), a bone-seeking radionuclide that emits short track length alpha particles and thus is associated with reduced damage to the bone marrow and evaluated the impact of the combination treatment on bone-forming prostate cancer tumors. Methods The antitumor activity of IRE and Ra-223 as single agents and in combination was tested in vitro against three bone morphogenetic protein 4 (BMP4)-expressing prostate cancer cell lines (C4-2B–BMP4, Myc-CaP–BMP4, and TRAMP-C2–BMP4). Similar evaluation was performed in vivo using a bone-forming C4-2B–BMP4 tumor model in nude mice. Results IRE and Ra-223 as monotherapy inhibited prostate cancer cell proliferation in vitro, and their combination resulted in significant reduction in cell viability compared to monotherapy. In vivo evaluation revealed that IRE with single-dose administration of Ra-233, compared to IRE alone, reduced the rate of tumor recurrence by 40% following initial apparent complete ablation and decreased the rate of proliferation of incompletely ablated tumor as quantified in Ki-67 staining (53.58 ± 16.0% for IRE vs. 20.12 ± 1.63%; for IRE plus Ra-223; p = 0.004). Histological analysis qualitatively showed the enhanced killing of tumor cells adjacent to bone by Ra-223 compared to those treated with IRE alone. Conclusion IRE in combination with Ra-223, which enhanced the destruction of cancer cells that are adjacent to bone, resulted in reduction of tumor recurrence through improved clearance of proliferative cells in the tumor region.

Published
2021
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3. Multiple pathways coordinating reprogramming of endothelial cells into osteoblasts by BMP4

Author

Guoyu Yu, Pengfei Shen, Yu-Chen Lee, Jing Pan, Jian H. Song, Tianhong Pan, Song-Chang Lin, Xin Liang, Guocan Wang, Theocharis Panaretakis, Christopher J. Logothetis, Gary E. Gallick, Li-Yuan Yu-Lee, and Sue-Hwa Lin

Subjects
Molecular Biology, Cell Biology, Cancer, Science
Abstract

Summary: Cell type transition occurs during normal development and under pathological conditions. In prostate cancer bone metastasis, prostate cancer-secreted BMP4 induces endothelial cell-to-osteoblast (EC-to-OSB) transition. Such tumor-induced stromal reprogramming supports prostate cancer progression. We delineate signaling pathways mediating EC-to-OSB transition using EC lines 2H11 and SVR. We found that BMP4-activated pSmad1-Notch-Hey1 pathway inhibits EC migration and tube formation. BMP4-activated GSK3β-βcatenin-Slug pathway stimulates Osx expression. In addition, pSmad1-regulated Dlx2 converges with the Smad1 and β-catenin pathways to stimulate osteocalcin expression. By co-expressing Osx, Dlx2, Slug and Hey1, we were able to achieve EC-to-OSB transition, leading to bone matrix mineralization in the absence of BMP4. In human prostate cancer bone metastasis specimens and MDA-PCa-118b and C4-2b-BMP4 osteogenic xenografts, immunohistochemical analysis showed that β-catenin and pSmad1 are detected in activated osteoblasts rimming the tumor-induced bone. Our results elucidated the pathways and key molecules coordinating prostate cancer-induced stromal programming and provide potential targets for therapeutic intervention.

Published
2021
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4. BIGH3 Promotes Osteolytic Lesions in Renal Cell Carcinoma Bone Metastasis by Inhibiting Osteoblast Differentiation

Author

Tianhong Pan, Song-Chang Lin, Kai-Jie Yu, Guoyu Yu, Jian H. Song, Valerae O. Lewis, Justin E. Bird, Bryan Moon, Patrick P. Lin, Nizar M. Tannir, Eric Jonasch, Christopher G Wood, Gary E. Gallick, Li-Yuan Yu-Lee, Sue-Hwa Lin, and Robert L. Satcher

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BACKGROUND: Bone metastasis is common in renal cell carcinoma (RCC), and the lesions are mainly osteolytic. The mechanism of bone destruction in RCC bone metastasis is unknown. METHODS: We used a direct intrafemur injection of mice with bone-derived 786-O RCC cells (Bo-786) as an in vivo model to study if inhibition of osteoblast differentiation is involved in osteolytic bone lesions in RCC bone metastasis. RESULTS: We showed that bone-derived Bo-786 cells induced osteolytic bone lesions in the femur of mice. We examined the effect of conditioned medium of Bo-786 cells (Bo-786 CM) on both primary mouse osteoblasts and MC3T3-E1 preosteoblasts and found that Bo-786 CM inhibited osteoblast differentiation. Secretome analysis of Bo-786 CM revealed that BIGH3 (Beta ig h3 protein), also known as TGFBI (transforming growth factor beta-induced protein), is highly expressed. We generated recombinant BIGH3 and found that BIGH3 inhibited osteoblast differentiation in vitro. In addition, CM from Bo-786 BIGH3 knockdown cells (786-BIGH3 KD) reduced the inhibition of osteoblast differentiation compared to CM from vector control. Intrafemural injection of mice with 786-BIGH3 KD cells showed a reduction in osteolytic bone lesions compared to vector control. Immunohistochemical staining of 18 bone metastasis specimens from human RCC showed strong BIGH3 expression in 11/18 (61%) and moderate BIGH3 expression in 7/18 (39%) of the specimens. CONCLUSIONS: These results suggest that suppression of osteoblast differentiation by BIGH3 is one of the mechanisms that enhance osteolytic lesions in RCC bone metastasis, and raise the possibilty that treatments that increase bone formation may improve therapy outcomes.

Published
2018
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5. Sex Differences and Bone Metastases of Breast, Lung, and Prostate Cancers: Do Bone Homing Cancers Favor Feminized Bone Marrow?

Author

Mary C. Farach-Carson, Sue-Hwa Lin, Theresa Nalty, and Robert L. Satcher

Subjects
bone metastasis, prostate cancer, lung cancer, breast cancer, bone marrow, sex differences, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Sex-associated differences in bone metastasis formation from breast, lung, and prostate cancer exist in clinical studies, but have not been systematically reviewed. Differences in the bone marrow niche can be attributed to sexual dimorphism, to genetic variations that affect sex hormone levels, or to the direct effects of sex hormones, natural or exogenously delivered. This review describes the present understanding of sex-associated and sex hormone level differences in the marrow niche and in formation of bone metastasis during the transition of these three cancers from treatable disease to an often untreatable, lethal metastatic one. Our purpose is to provide insight into some underlying molecular mechanisms for hormonal influence in bone metastasis formation, and to the potential influence of sexual dimorphism, genetic differences affecting sex assignment, and sex hormone level differences on the bone niche and its favorability for metastasis formation. We reviewed publications in PubMed and EMBASE, including full length manuscripts, case reports, and clinical studies of relevance to our topic. We focused on bone metastasis formation in breast, lung, and prostate cancer because all three commonly present with bone metastases. Several clear observations emerged. For breast cancer bone metastasis formation, estrogen receptor (ER) signaling pathways indicate a role for ER beta (ERβ). Estrogen influences the bone microenvironment, creating and conditioning a favorable niche for colonization and breast cancer progression. For lung cancer, studies support the hypothesis that females have a more favorable bone microenvironment for metastasis formation. For prostate cancer, a decrease in the relative androgen to estrogen balance or a “feminization” of bone marrow favors bone metastasis formation, with a potentially important role for ERβ that may be similar to that in breast cancer. Long-term estrogen administration or androgen blockade in males may feminize the bone marrow niche to one more favorable for bone metastases in prostate cancer. Administration of androgens in females, especially combined with mastectomy, may reduce risk of developing bone metastatic breast cancer. We conclude that it should be considered that females, those with female-leaning genetic variations, or hormonal states that feminize the bone marrow, may offer favorable sites for bone metastases.

Published
2017
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6. Dynamic Phosphorylation of NudC by Aurora B in Cytokinesis.

Author

Kimberly N Weiderhold, Maria Fadri-Moskwik, Jing Pan, Michiya Nishino, Carol Chuang, Arpaporn Deeraksa, Sue-Hwa Lin, and Li-Yuan Yu-Lee

Subjects
Medicine, Science
Abstract

Nuclear distribution protein C (NudC) is a mitotic regulator that plays a role in cytokinesis. However, how NudC is regulated during cytokinesis remains unclear. Here, we show that NudC is phosphorylated by Aurora B, a kinase critical for cell abscission. NudC is co-localized with Aurora B at the midbody and co-immunoprecipitated with Aurora B in mitosis. Inhibition of Aurora B by ZM447439 reduced NudC phosphorylation, suggesting that NudC is an Aurora B substrate in vivo. We identified T40 on NudC as an Aurora B phosphorylation site. NudC depletion resulted in cytokinesis failure with a dramatic elongation of the intercellular bridge between daughter cells, sustained Aurora B activity at the midbody, and reduced cell abscission. These cytokinetic defects can be rescued by the ectopic expression of wild-type NudC. Reconstitution with T40A phospho-defective NudC was found to rescue the cytokinesis defect. In contrast, reconstitution with the T40D phospho-mimetic NudC was inefficient in supporting the completion of cytokinesis. These results suggest that that dynamic phosphorylation of NudC by Aurora B regulates cytokinesis.

Published
2016
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7. Mutational Profiles Reveal an Aberrant TGF-β-CEA Regulated Pathway in Colon Adenomas.

Author

Jian Chen, Gottumukkala S Raju, Wilma Jogunoori, Vipin Menon, Avijit Majumdar, Jiun-Sheng Chen, Young Jin Gi, Yun Seong Jeong, Liem Phan, Mitchell Belkin, Shoujun Gu, Suchin Kundra, Nipun A Mistry, Jianping Zhang, Xiaoping Su, Shulin Li, Sue-Hwa Lin, Milind Javle, John S McMurray, Thomas F Rahlfs, Bibhuti Mishra, Jon White, Asif Rashid, Nicole Beauchemin, Brian R Weston, Mehnaz A Shafi, John R Stroehlein, Marta Davila, Rehan Akbani, John N Weinstein, Xifeng Wu, and Lopa Mishra

Subjects
Medicine, Science
Abstract

Mutational processes and signatures that drive early tumorigenesis are centrally important for early cancer prevention. Yet, to date, biomarkers and risk factors for polyps (adenomas) that inordinately and rapidly develop into colon cancer remain poorly defined. Here, we describe surprisingly high mutational profiles through whole-genome sequence (WGS) analysis in 2 of 4 pairs of benign colorectal adenoma tissue samples. Unsupervised hierarchical clustered transcriptomic analysis of a further 7 pairs of adenomas reveals distinct mutational signatures regardless of adenoma size. Transitional single nucleotide substitutions of C:G>T:A predominate in the adenoma mutational spectrum. Strikingly, we observe mutations in the TGF-β pathway and CEA-associated genes in 4 out of 11 adenomas, overlapping with the Wnt pathway. Immunohistochemical labeling reveals a nearly 5-fold increase in CEA levels in 23% of adenoma samples with a concomitant loss of TGF-β signaling. We also define a functional role by which the CEA B3 domain interacts with TGFBR1, potentially inactivating the tumor suppressor function of TGF-β signaling. Our study uncovers diverse mutational processes underlying the transition from early adenoma to cancer. This has broad implications for biomarker-driven targeting of CEA/TGF-β in high-risk adenomas and may lead to early detection of aggressive adenoma to CRC progression.

Published
2016
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8. Maintenance Therapy Containing Metformin and/or Zyflamend for Advanced Prostate Cancer: A Case Series

Author

Mehmet Asim Bilen, Sue-Hwa Lin, Dean G. Tang, Kinjal Parikh, Mong-Hong Lee, Sai-Ching J. Yeung, and Shi-Ming Tu

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Metformin is derived from galegine, a natural ingredient, and recent studies have suggested that metformin could enhance the antitumor effects of hormone ablative therapy or chemotherapy and reduce prostate cancer-specific mortality. Zyflamend is a combination of herbal extracts that reduces inflammation and comprises turmeric, holy basil, green tea, oregano, ginger, rosemary, Chinese goldthread, hu zhang, barberry, and basil skullcap. We propose a maintenance regimen with metformin and/or Zyflamend that targets cancer stem cells and the tumor microenvironment to keep the cancer dormant and prevent it from activation from dormancy. Herein, we report the clinical course of four patients who experienced a clinical response after treatment with metformin and/or Zyflamend.

Published
2015
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9. Cadherin-11 in renal cell carcinoma bone metastasis.

Author

Robert L Satcher, Tianhong Pan, Chien-Jui Cheng, Yu-Chen Lee, Song-Chang Lin, Guoyu Yu, Xiaoxia Li, Anh G Hoang, Pheroze Tamboli, Eric Jonasch, Gary E Gallick, and Sue-Hwa Lin

Subjects
Medicine, Science
Abstract

Bone is one of the common sites of metastases from renal cell carcinoma (RCC), however the mechanism by which RCC preferentially metastasize to bone is poorly understood. Homing/retention of RCC cells to bone and subsequent proliferation are necessary steps for RCC cells to colonize bone. To explore possible mechanisms by which these processes occur, we used an in vivo metastasis model in which 786-O RCC cells were injected into SCID mice intracardially, and organotropic cell lines from bone, liver, and lymph node were selected. The expression of molecules affecting cell adhesion, angiogenesis, and osteolysis were then examined in these selected cells. Cadherin-11, a mesenchymal cadherin mainly expressed in osteoblasts, was significantly increased on the cell surface in bone metastasis-derived 786-O cells (Bo-786-O) compared to parental, liver, or lymph node-derived cells. In contrast, the homing receptor CXCR4 was equivalently expressed in cells derived from all organs. No significant difference was observed in the expression of angiogenic factors, including HIF-1α, VEGF, angiopoeitin-1, Tie2, c-MET, and osteolytic factors, including PTHrP, IL-6 and RANKL. While the parental and Bo-786-O cells have similar proliferation rates, Bo-786-O cells showed an increase in migration compared to the parental 786-O cells. Knockdown of Cadherin-11 using shRNA reduced the rate of migration in Bo-786-O cells, suggesting that Cadherin-11 contributes to the increased migration observed in bone-derived cells. Immunohistochemical analysis of cadherin-11 expression in a human renal carcinoma tissue array showed that the number of human specimens with positive cadherin-11 activity was significantly higher in tumors that metastasized to bone than that in primary tumors. Together, these results suggest that Cadherin-11 may play a role in RCC bone metastasis.

Published
2014
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10. NudC deacetylation regulates mitotic progression.

Author

Carol Chuang, Jing Pan, David H Hawke, Sue-Hwa Lin, and Li-yuan Yu-Lee

Subjects
Medicine, Science
Abstract

Mitosis is largely driven by posttranslational modifications of proteins. Recent studies suggest that protein acetylation is prevalent in mitosis, but how protein acetylation/deacetylation regulates mitotic progression remains unclear. Nuclear distribution protein C (NudC), a conserved protein that regulates cell division, was previously shown to be acetylated. We found that NudC acetylation was decreased during mitosis. Using mass spectrometry analysis, we identified K39 to be an acetylation site on NudC. Reconstitution of NudC-deficient cells with wild-type or K39R acetylation-defective NudC rescued mitotic phenotypes, including chromosome misalignment, chromosome missegregation, and reduced spindle width, observed after NudC protein knockdown. In contrast, the K39Q acetylation-mimetic NudC was unable to rescue these mitotic phenotypes, suggesting that NudC deacetylation is important for mitotic progression. To examine proteins that may play a role in NudC deacetylation during mitosis, we found that NudC co-localizes on the mitotic spindle with the histone deacetylase HDAC3, an HDAC shown to regulate mitotic spindle stability. Further, NudC co-immunoprecipitates with HDAC3 and loss of function of HDAC3 either by protein knockdown or inhibition with a small molecule inhibitor increased NudC acetylation. These observations suggest that HDAC3 may be involved in NudC deacetylation during mitosis. Cells with NudC or HDAC3 knockdown exhibited overlapping mitotic abnormalities, including chromosomes arranged in a "dome-like" configuration surrounding a collapsed mitotic spindle. Our studies suggest that NudC acetylation/deacetylation regulates mitotic progression and NudC deacetylation, likely through HDAC3, is critical for spindle function and chromosome congression.

Published
2013
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11. Loss of let-7 microRNA upregulates IL-6 in bone marrow-derived mesenchymal stem cells triggering a reactive stromal response to prostate cancer.

Author

Shian-Ying Sung, Chia-Hui Liao, Hsun-Pai Wu, Wan-Chi Hsiao, I-Hui Wu, Jinpu, Yu, Sue-Hwa Lin, and Chia-Ling Hsieh

Subjects
Medicine, Science
Abstract

Bone marrow-derived mesenchymal stem cells (MSCs) are able to migrate to tumors, where they promote tumorigenesis and cancer metastasis. However, the molecular phenotype of the recruited MSCs at the tumor microenvironment and the genetic programs underlying their role in cancer progression remains largely unknown. By using a three-dimensional rotary wall vessel coculture system in which human MSCs were grown alone or in close contact with LNCaP, C4-2 or PC3 prostate cancer cell lines, we established in vitro matched pairs of normal and cancer-associated MSC derivatives to study the stromal response of MSCs to prostate cancer. We observed that prostate cancer-associated MSCs acquired a higher potential for adipogenic differentiation and exhibited a stronger ability to promote prostate cancer cell migration and invasion compared with normal MSCs both in vitro and in experimental animal models. The enhanced adipogenesis and the pro-metastatic properties were conferred by the high levels of IL-6 secretion by cancer-associated MSCs and were reversible by functionally inhibiting of IL-6. We also found that IL-6 is a direct target gene for the let-7 microRNA, which was downregulated in cancer-associated MSCs. The overexpression of let-7 via the transfection of let-7 precursors decreased IL-6 expression and repressed the adipogenic potential and metastasis-promoting activity of cancer-associated MSCs, which was consistent with the inhibition of IL-6 3'UTR luciferase activity. Conversely, the treatment of normal MSCs with let-7 inhibitors resulted in effects similar to those seen with IL-6. Taken together, our data demonstrated that MSCs co-evolve with prostate cancer cells in the tumor microenvironment, and the downregulation of let-7 by cancer-associated MSCs upregulates IL-6 expression. This upregulation triggers adipogenesis and facilitates prostate cancer progression. These findings not only provide key insights into the molecular basis of tumor-stroma interactions but also pave the way for new treatments for metastatic prostate cancer.

Published
2013
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12. Inhibition of FOXO3 tumor suppressor function by betaTrCP1 through ubiquitin-mediated degradation in a tumor mouse model.

Author

Wen-Bin Tsai, Young Min Chung, Yiyu Zou, See-Hyoung Park, Zhaohui Xu, Keiko Nakayama, Sue-Hwa Lin, and Mickey C-T Hu

Subjects
Medicine, Science
Abstract

BackgroundThe ubiquitin-proteasome system is the primary proteolysis machine for controlling protein stability of the majority of regulatory proteins including those that are critical for cancer development. The forkhead box transcription factor FOXO3 plays a key role in regulating tumor suppression; however, the control of FOXO3 protein stability remains to be established. It is crucial to elucidate the molecular mechanisms underlying the ubiquitin-mediated degradation of FOXO3 tumor suppressor.Methodology and principal findingsHere we show that betaTrCP1 oncogenic ubiquitin E3-ligase interacts with FOXO3 and induces its ubiquitin-dependent degradation in an IkappaB kinase-beta phosphorylation dependent manner. Silencing betaTrCP1 augments FOXO3 protein level, resulting in promoting cellular apoptosis in cancer cells. In animal models, increasing FOXO3 protein level by silencing betaTrCP1 suppresses tumorigenesis, whereas decreasing FOXO3 by over-expressing betaTrCP1 promotes tumorigenesis and tumor growth in vivo.Conclusions/significanceThis is a unique demonstration that the betaTrCP1-mediated FOXO3 degradation plays a crucial role in tumorigenesis. These findings significantly contribute to understanding of the control of FOXO3 stability in cancer cells and may provide opportunities for developing innovative anticancer therapeutic modalities.

Published
2010
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14. Prostate cancer-induced endothelial-cell-to-osteoblast transition drives immunosuppression in the bone-tumor microenvironment through Wnt pathway-induced M2 macrophage polarization.

Author

Guoyu Yu, Corn, Paul G., Sze Ling Mak, Celia, Xin Liang, Miao Zhang, Troncoso, Patricia, Song, Jian H., Song-Chang Lin, Xingzhi Song, Jingjing Liu, Jianhua Zhang, Logothetis, Christopher J., Melancon, Marites P., Panaretakis, Theocharis, Guocan Wang, and Sue-Hwa Lin

Subjects
CASTRATION-resistant prostate cancer, LYSYL oxidase, BONE metastasis, IMMUNE checkpoint proteins, LYMPHATIC metastasis, PROSTATE cancer patients
Abstract

Immune checkpoint therapy has limited efficacy for patients with bone-metastatic castration-resistant prostate cancer (bmCRPC). To improve immunotherapy for bmCRPC, we aimed to identify the mechanism of bmCRPC-induced changes in the immune microenvironment. Among bmCRPC patients, higher levels of a 32-gene M2-like macrophage signature in bone metastasis samples correlated with shorter overall survival. Immunohistochemistry showed that CD206-positive (CD206+) macrophages were enriched in bmCRPC bone biopsy specimens compared with primary tumors or lymph node metastases. In preclinical osteogenic prostate cancer (Pca) xenograft models, CD206+ macrophages were recruited to areas with tumor-induced bone. RNA sequencing (RNAseq) analysis showed higher expression of an M2-like gene signature, with activated canonical and noncanonical Wnt pathways, in tumor-associated macrophages isolated from osteogenic tumors (bone-TAMs) than in TAMs isolated from nonosteogenic tumors (ctrl-TAMs). Mechanistic studies showed that endothelial cells (ECs) that had undergone EC-to-osteoblast (EC-to-OSB) transition, the precursors of tumor-induced OSBs, produced paracrine factors, including Wnts, CXCL14, and lysyl oxidase, which induced M2 polarization and recruited M2-like TAMs to the bone-tumor microenvironment (bone-TME). Bone-TAMs suppressed CD8+ T cells' proliferation and cytolytic activity, and these effects were partially reversed by treating bone-TAMs with Wnt inhibitors. Genetic or pharmacological inhibition of Pca-induced EC-to-OSB transition reduced the levels of M2-like macrophages in osteogenic tumors. Our study demonstrates that Pca-induced EC-to-OSB transition drives immunosuppression in the bone-TME, suggesting that therapies that reduce Pca-induced bone formation may improve immunotherapeutic outcomes for bmCRPC. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Data from Inhibition of Cell Adhesion by a Cadherin-11 Antibody Thwarts Bone Metastasis

Author

Sue-Hwa Lin, Wilber Huang, Li-Yuan Yu-Lee, Gary E. Gallick, Jian Kuang, Robert L. Satcher, Jian H. Song, Hyojin Cho, Angelica Ortiz, Chih-Fen Huang, Song-Chang Lin, Guoyu Yu, Mehmet Asim Bilen, and Yu-Chen Lee

Abstract

Cadherin-11 (CDH11) is a member of the cadherin superfamily mainly expressed in osteoblasts but not in epithelial cells. However, prostate cancer cells with a propensity for bone metastasis express high levels of cadherin-11 and reduced levels of E-cadherin. Downregulation of cadherin-11 inhibits interaction of prostate cancer cells with osteoblasts in vitro and homing of prostate cancer cells to bone in an animal model of metastasis. These findings indicate that targeting cadherin-11 may prevent prostate cancer bone metastasis. To explore this possibility, a panel of 21 monoclonal antibodies (mAb) was generated against the extracellular (EC) domain of cadherin-11. Two antibodies, mAbs 2C7 and 1A5, inhibited cadherin-11–mediated cell–cell aggregation in vitro using L-cells transfected with cadherin-11. Both antibodies demonstrated specificity to cadherin-11, and neither antibody recognized E-cadherin or N-cadherin on C4-2B or PC3 cells, respectively. Furthermore, mAb 2C7 inhibited cadherin-11–mediated aggregation between the highly metastatic PC3-mm2 cells and MC3T3-E1 osteoblasts. Mechanistically, a series of deletion mutants revealed a unique motif, aa 343-348, in the cadherin-11 EC3 domain that is recognized by mAb 2C7 and that this motif coordinated cell–cell adhesion. Importantly, administration of mAb 2C7 in a prophylactic setting effectively prevented metastasis of PC3-mm2 cells to bone in an in vivo mouse model. These results show that targeting the extracellular domain of cadherin-11 can limit cellular adhesion and metastatic dissemination of prostate cancer cells.Implications: Monotherapy using a cadherin-11 antibody is a suitable option for the prevention of bone metastases. Mol Cancer Res; 11(11); 1401–11. ©2013 AACR.

Published
2023

19. Supplementary Figure from Inhibition of Cell Adhesion by a Cadherin-11 Antibody Thwarts Bone Metastasis

Author

Sue-Hwa Lin, Wilber Huang, Li-Yuan Yu-Lee, Gary E. Gallick, Jian Kuang, Robert L. Satcher, Jian H. Song, Hyojin Cho, Angelica Ortiz, Chih-Fen Huang, Song-Chang Lin, Guoyu Yu, Mehmet Asim Bilen, and Yu-Chen Lee

Abstract

PDF file, 556K, S1. (A) Expression of Cad11 in C42B4 cells increased the cell migration. However, Cad11-mediated migratory activity of C42B4/Cad11 cells was not Inhibited by mAb 2C7 or 1A5. Another antibody, mAb 1B9, showed inhibition of migration and was used as a positive control. (B) Cad11-mediated invasion was not inhibited by mAb 2C7 or 1A5, but was inhibited by mAb 1B9.

Published
2023

21. Figure S4 from Osteoblast-Secreted Factors Mediate Dormancy of Metastatic Prostate Cancer in the Bone via Activation of the TGFβRIII–p38MAPK–pS249/T252RB Pathway

Author

Sue-Hwa Lin, Gary E. Gallick, Francesc Posas, Eulalia de Nadal, Ignacio I. Wistuba, Pamela A. Villalobos, Jaime Rodriguez-Canales, Chad J. Creighton, Bin Liu, Kai-Jie Yu, Tianhong Pan, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Guoyu Yu, and Li-Yuan Yu-Lee

Abstract

Intrabone p38DN tumor growth and cell proliferation.

Published
2023

22. Supplementary figures 1-10 from Integrating Murine and Clinical Trials with Cabozantinib to Understand Roles of MET and VEGFR2 as Targets for Growth Inhibition of Prostate Cancer

Author

Gary E. Gallick, Christopher J. Logothetis, Sue-Hwa Lin, Mian Alauddin, Yiping Shao, Bogdan A. Czerniak, Menashe Bar Eli, Sankar N. Maity, Lynnelle Thorpe, Sanchaika Gaur, Anh G. Hoang, Ana Aparicio, Yu-Chen Lee, Jian H. Song, Eleni Efstathiou, Nila U. Parikh, Paul G. Corn, and Andreas Varkaris

Abstract

Supplemental Figure 1 (fig. S1). Representative whole body NaF-18 PET scan images after 44 days of (A) vehicle-treated and (B) cabozantinib-treated animals. Supplemental Figure 2 (fig. S2). Effect of cabozantinib on PDX tumor growth, animal weight, and survival. Supplemental Figure 3 (fig. S3). Representative images of viable islets of tumor cells in (A) Patients; (B) MDA PCa-118b grown intrafemurally; and (C) MDA PCa- 118b grown subcutaneously. Supplemental Figure 4 (fig. S4). Time-dependent effect of cabozantinib on expression and phosphorylation of primary and MET downstream targets. Supplemental Figure 5 (fig. S5). Relative expression of c-met mRNA in NT and knockdown cells as determined by qRT-PCR. Supplemental Figure 6 (fig. S6). MET expression and activity in NT and knockdown tumors. Supplemental Figure 7 (fig. S7): Quantitation of CD31 staining on bone tumors. Supplemental Figure 8 (fig. S8). Effects of cabozantinib on bone remodeling markers in the phase-2 clinical trial and growth and differentiation of primary osteoblasts. Supplemental Figure S9 (fig S9). Effect of cabozantinib on bone turnover in the Phase 2 trial and PDX grown intrafemurally. Supplemental Figure 10 (fig. S10). Quantitation of phospho-histone H3 staining.

Published
2023

23. Table S2 from Osteoblast-Secreted Factors Mediate Dormancy of Metastatic Prostate Cancer in the Bone via Activation of the TGFβRIII–p38MAPK–pS249/T252RB Pathway

Author

Sue-Hwa Lin, Gary E. Gallick, Francesc Posas, Eulalia de Nadal, Ignacio I. Wistuba, Pamela A. Villalobos, Jaime Rodriguez-Canales, Chad J. Creighton, Bin Liu, Kai-Jie Yu, Tianhong Pan, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Guoyu Yu, and Li-Yuan Yu-Lee

Abstract

Gene array analysis of undifferentiated (Day 0) versus differentiated osteoblasts (Day 30 differentiation).

Published
2023

24. Data from Osteoblast-Secreted Factors Mediate Dormancy of Metastatic Prostate Cancer in the Bone via Activation of the TGFβRIII–p38MAPK–pS249/T252RB Pathway

Author

Sue-Hwa Lin, Gary E. Gallick, Francesc Posas, Eulalia de Nadal, Ignacio I. Wistuba, Pamela A. Villalobos, Jaime Rodriguez-Canales, Chad J. Creighton, Bin Liu, Kai-Jie Yu, Tianhong Pan, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Guoyu Yu, and Li-Yuan Yu-Lee

Abstract

Bone metastasis from prostate cancer can occur years after prostatectomy, due to reactivation of dormant disseminated tumor cells (DTC) in the bone, yet the mechanism by which DTCs are initially induced into a dormant state in the bone remains to be elucidated. We show here that the bone microenvironment confers dormancy to C4-2B4 prostate cancer cells, as they become dormant when injected into mouse femurs but not under the skin. Live-cell imaging of dormant cells at the single-cell level revealed that conditioned medium from differentiated, but not undifferentiated, osteoblasts induced C4-2B4 cellular quiescence, suggesting that differentiated osteoblasts present locally around the tumor cells in the bone conferred dormancy to prostate cancer cells. Gene array analyses identified GDF10 and TGFβ2 among osteoblast-secreted proteins that induced quiescence of C4-2B4, C4-2b, and PC3-mm2, but not 22RV1 or BPH-1 cells, indicating prostate cancer tumor cells differ in their dormancy response. TGFβ2 and GDF10 induced dormancy through TGFβRIII to activate phospho-p38MAPK, which phosphorylates retinoblastoma (RB) at the novel N-terminal S249/T252 sites to block prostate cancer cell proliferation. Consistently, expression of dominant-negative p38MAPK in C4-2b and C4-2B4 prostate cancer cell lines abolished tumor cell dormancy both in vitro and in vivo. Lower TGFβRIII expression in patients with prostate cancer correlated with increased metastatic potential and decreased survival rates. Together, our results identify a dormancy mechanism by which DTCs are induced into a dormant state through TGFβRIII–p38MAPK–pS249/pT252–RB signaling and offer a rationale for developing strategies to prevent prostate cancer recurrence in the bone.Significance: These findings provide mechanistic insights into the dormancy of metastatic prostate cancer in the bone and offer a rationale for developing strategies to prevent prostate cancer recurrence in the bone. Cancer Res; 78(11); 2911–24. ©2018 AACR.

Published
2023

27. Data from Identification of Bone-Derived Factors Conferring De Novo Therapeutic Resistance in Metastatic Prostate Cancer

Author

Sue-Hwa Lin, Gary E. Gallick, Li-Yuan Yu-Lee, Robert L. Satcher, Christopher Logothetis, Paul Corn, Andreas Varkaris, Nila U. Parikh, David H. Hawke, Hsuan-Chen Liu, Bin Liu, Chien-Jui Cheng, Guoyu Yu, Song-Chang Lin, and Yu-Chen Lee

Abstract

Resistance to currently available targeted therapies significantly hampers the survival of patients with prostate cancer with bone metastasis. Here we demonstrate an important resistance mechanism initiated from tumor-induced bone. Studies using an osteogenic patient-derived xenograft, MDA-PCa-118b, revealed that tumor cells resistant to cabozantinib, a Met and VEGFR-2 inhibitor, reside in a “resistance niche” adjacent to prostate cancer-induced bone. We performed secretome analysis of the conditioned medium from tumor-induced bone to identify proteins (termed “osteocrines”) found within this resistance niche. In accordance with previous reports demonstrating that activation of integrin signaling pathways confers therapeutic resistance, 27 of the 90 osteocrines identified were integrin ligands. We found that following cabozantinib treatment, only tumor cells positioned adjacent to the newly formed woven bone remained viable and expressed high levels of pFAK-Y397 and pTalin-S425, mediators of integrin signaling. Accordingly, treatment of C4-2B4 cells with integrin ligands resulted in increased pFAK-Y397 expression and cell survival, whereas targeting integrins with FAK inhibitors PF-562271 or defactinib inhibited FAK phosphorylation and reduced the survival of PC3-mm2 cells. Moreover, treatment of MDA-PCa-118b tumors with PF-562271 led to decreased tumor growth, irrespective of initial tumor size. Finally, we show that upon treatment cessation, the combination of PF-562271 and cabozantinib delayed tumor recurrence in contrast to cabozantinib treatment alone. Our studies suggest that identifying paracrine de novo resistance mechanisms may significantly contribute to the generation of a broader set of potent therapeutic tools that act combinatorially to inhibit metastatic prostate cancer. Cancer Res; 75(22); 4949–59. ©2015 AACR.

Published
2023

28. Supplementary Data from Radium-223 Treatment Increases Immune Checkpoint Expression in Extracellular Vesicles from the Metastatic Prostate Cancer Bone Microenvironment

Author

Theocharis Panaretakis, Christopher J. Logothetis, Sue-Hwa Lin, Sumit K. Subudhi, Eleni Efstathiou, Gary E. Gallick, Nora Navone, Patricia Troncoso, Marites P. Melancon, Elmer Santos, Guoyu Yu, Song-Chang Lin, Yu-Chen Lee, Leah Guerra, Nila Parikh, Anh Hoang, Namrata Madan, Jian H. Song, Emanuela Gentile, Paul Corn, and Ioulia Vardaki

Abstract

Supplementary Figures

Published
2023

29. Supplementary Figures 1 - 3 from Alterations Associated with Androgen Receptor Gene Activation in Salivary Duct Carcinoma of Both Sexes: Potential Therapeutic Ramifications

Author

Adel K. El-Naggar, Sue-Hwa Lin, Carlos Caulin, Randal S. Weber, Merrill S. Kies, Scott M. Lippman, Lisa Licitra, Julian C. Post, Renata Ferrarotto, Yu-Chen Lee, Sankar N. Maity, Pulivarthi H. Rao, and Yoshitsugu Mitani

Abstract

Supplementary Figure S1. Distribution of RET981 cell line. Supplementary Figure S2. Detection of AR splice variants in SDCs. Supplementary Figure S3. Cleaved PARP increased by AR siRNAs.

Published
2023

30. Data from Integrating Murine and Clinical Trials with Cabozantinib to Understand Roles of MET and VEGFR2 as Targets for Growth Inhibition of Prostate Cancer

Author

Gary E. Gallick, Christopher J. Logothetis, Sue-Hwa Lin, Mian Alauddin, Yiping Shao, Bogdan A. Czerniak, Menashe Bar Eli, Sankar N. Maity, Lynnelle Thorpe, Sanchaika Gaur, Anh G. Hoang, Ana Aparicio, Yu-Chen Lee, Jian H. Song, Eleni Efstathiou, Nila U. Parikh, Paul G. Corn, and Andreas Varkaris

Abstract

Purpose: We performed parallel investigations in cabozantinib-treated patients in a phase II trial and simultaneously in patient-derived xenograft (PDX) models to better understand the roles of MET and VEGFR2 as targets for prostate cancer therapy.Experimental Design: In the clinical trial, radiographic imaging and serum markers were examined, as well as molecular markers in tumors from bone biopsies. In mice harboring PDX intrafemurally or subcutaneously, cabozantinib effects on tumor growth, MET, PDX in which MET was silenced, VEGFR2, bone turnover, angiogenesis, and resistance were examined.Results: In responsive patients and PDX, islets of viable pMET-positive tumor cells persisted, which rapidly regrew after drug withdrawal. Knockdown of MET in PDX did not affect tumor growth in mice nor did it affect cabozantinib-induced growth inhibition but did lead to induction of FGFR1. Inhibition of VEGFR2 and MET in endothelial cells reduced the vasculature, leading to necrosis. However, each islet of viable cells surrounded a VEGFR2-negative vessel. Reduction of bone turnover was observed in both cohorts.Conclusions: Our studies demonstrate that MET in tumor cells is not a persistent therapeutic target for metastatic castrate-resistant prostate cancer (CRPC), but inhibition of VEGFR2 and MET in endothelial cells and direct effects on osteoblasts are responsible for cabozantinib-induced tumor inhibition. However, vascular heterogeneity represents one source of primary therapy resistance, whereas induction of FGFR1 in tumor cells suggests a potential mechanism of acquired resistance. Thus, integrated cross-species investigations demonstrate the power of combining preclinical models with clinical trials to understand mechanisms of activity and resistance of investigational agents. Clin Cancer Res; 22(1); 107–21. ©2015 AACR.

Published
2023

31. Data from Alterations Associated with Androgen Receptor Gene Activation in Salivary Duct Carcinoma of Both Sexes: Potential Therapeutic Ramifications

Author

Adel K. El-Naggar, Sue-Hwa Lin, Carlos Caulin, Randal S. Weber, Merrill S. Kies, Scott M. Lippman, Lisa Licitra, Julian C. Post, Renata Ferrarotto, Yu-Chen Lee, Sankar N. Maity, Pulivarthi H. Rao, and Yoshitsugu Mitani

Abstract

Purpose: To investigate the molecular events associated with the activation of androgen receptor (AR) as a potential therapeutic target in patients with salivary duct carcinoma (SDC).Experimental Design: Comprehensive molecular and expression analysis of the AR gene in 35 tumor specimens (20 males and 15 females) and cell lines derived from SDC using Western blotting and RT-PCR, FISH analysis, and DNA sequencing was conducted. In vitro and in vivo animal studies were also performed.Results: AR expression was detected in 70% of the tumors and was mainly nuclear and homogenous in both male and female SDCs, although variable cytoplasmic and/or nuclear localization was also found. We report the identification of ligand-independent AR splice variants, mutations, and extra AR gene copy in primary untreated SDC tumors. In contrast to prostate cancer, no AR gene amplification was observed. In vitro knockdown of AR in a female derived SDC cell line revealed marked growth inhibition in culture and in vivo androgen-independent tumor growth.Conclusions: Our study provides new detailed information on the molecular and structural alterations associated with AR gene activation in SDC and sheds more light on the putative functional role of AR in SDC cells. On the basis of these data, we propose that patients with SDC (male and female) can be stratified for hormone-based therapy in future clinical trials. Clin Cancer Res; 20(24); 6570–81. ©2014 AACR.

Published
2023

32. Supplementary Figure from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Maurizio Pacifici, Theocharis Panaretakis, Sandeep K. Agarwal, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Jian H. Song, Pengfei Shen, Paul G. Corn, and Guoyu Yu

Abstract

Supplementary Figure from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Published
2023

33. Data from Radium-223 Treatment Increases Immune Checkpoint Expression in Extracellular Vesicles from the Metastatic Prostate Cancer Bone Microenvironment

Author

Theocharis Panaretakis, Christopher J. Logothetis, Sue-Hwa Lin, Sumit K. Subudhi, Eleni Efstathiou, Gary E. Gallick, Nora Navone, Patricia Troncoso, Marites P. Melancon, Elmer Santos, Guoyu Yu, Song-Chang Lin, Yu-Chen Lee, Leah Guerra, Nila Parikh, Anh Hoang, Namrata Madan, Jian H. Song, Emanuela Gentile, Paul Corn, and Ioulia Vardaki

Abstract

Purpose:Radium-223 prolongs survival in a fraction of men with bone metastatic prostate cancer (PCa). However, there are no markers for monitoring response and resistance to Radium-223 treatment. Exosomes are mediators of intercellular communication and may reflect response of the bone microenvironment to Radium-223 treatment. We performed molecular profiling of exosomes and compared the molecular profile in patients with favorable and unfavorable overall survival.Experimental Design:We performed exosomal transcriptome analysis in plasma derived from our preclinical models (MDA-PCa 118b tumors, TRAMP-C2/BMP4 PCa) and from the plasma of 25 patients (paired baseline and end of treatment) treated with Radium-223. All samples were run in duplicate, and array data analyzed with fold changes +2 to −2 and P < 0.05.Results:We utilized the preclinical models to establish that genes derived from the tumor and the tumor-associated bone microenvironment (bTME) are differentially enriched in plasma exosomes upon Radium-223 treatment. The mouse transcriptome analysis revealed changes in bone-related and DNA damage repair–related pathways. Similar findings were observed in plasma-derived exosomes from patients treated with Radium-223 detected changes. In addition, exosomal transcripts detected immune-suppressors (e.g., PD-L1) that were associated with shorter survival to Radium-223. Treatment of the Myc-CaP mouse model with a combination of Radium-223 and immune checkpoint therapy (ICT) resulted in greater efficacy than monotherapy.Conclusions:These clinical and coclinical analyses showed that RNA profiling of plasma exosomes may be used for monitoring the bTME in response to treatment and that ICT may be used to increase the efficacy of Radium-223.

Published
2023

34. Supplementary Table from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Maurizio Pacifici, Theocharis Panaretakis, Sandeep K. Agarwal, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Jian H. Song, Pengfei Shen, Paul G. Corn, and Guoyu Yu

Abstract

Supplementary Table from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Published
2023

35. Data from A Phase II Study of Cabozantinib and Androgen Ablation in Patients with Hormone-Naïve Metastatic Prostate Cancer

Author

Christopher Logothetis, Patricia Troncoso, Eleni Efstathiou, Gary E. Gallick, Theocharis Panaretakis, Mark A. Titus, Sumankalai Ramachandran, Guocan Wang, Sue-Hwa Lin, Nora M. Navone, Shixia Huang, Kimal Rajapakshe, Cristian Coarfa, Ana M. Aparicio, Shi-Ming Tu, Sumit K. Subudhi, Amado J. Zurita, Lianchun Xiao, Graciela M. Nogueras-Gonzalez, Miao Zhang, and Paul G. Corn

Abstract

Purpose:Cabozantinib, an oral inhibitor of c-MET/VEGFR2 signaling, improved progression-free survival (mPFS) but not overall survival (OS) in metastatic castrate-resistant prostate cancer. We evaluated cabozantinib plus androgen deprivation therapy (ADT) in hormone-naïve metastatic prostate cancer (HNMPCa).Patients and Methods:Patients received ADT plus cabozantinib starting at 60 mg daily. The primary endpoint was castrate-resistant PFS by radiographic criteria, clinical progression, or receipt of additional therapy. Secondary endpoints included OS, safety, radiographic responses, and biomarker modulation.Results:Sixty-two patients received treatment. With a median follow-up of 31.2 months, the mPFS was 16.1 months (95% CI, 14.6–22.7 months), and mOS was not reached. Reductions in PSA ≥ 90%, bone-specific alkaline phosphatase ≥ 50%, and urine N-telopeptides ≥ 50% occurred in 83%, 87%, and 86% of evaluable patients, respectively. Responses in bone scan and measurable disease were observed in 81% of and 90% of evaluable patients, respectively. Most common grade 3 adverse events were hypertension (19%), diarrhea (6%), and thromboembolic events (6%), and dose reductions occurred in 85% of patients. Analysis of baseline cytokine and angiogenic factors (CAFs) revealed that higher plasma concentrations of Lumican, CXCL5, CD25, and CD30 were associated with shorter PFS as was high tumor expression of pFGFR1.Conclusions:Cabozantinib plus ADT has promising clinical activity in HNMPCa. CAF profiles and tissue markers suggest candidate prognostic and predictive markers of cabozantinib benefit and provide insights for rational therapy combinations.

Published
2023

36. Data from Organelle-Derived Acetyl-CoA Promotes Prostate Cancer Cell Survival, Migration, and Metastasis via Activation of Calmodulin Kinase II

Author

Sue-Hwa Lin, Leta K. Nutt, Mark A. Titus, Gary E. Gallick, Li-Yuan Yu-Lee, Daniel E. Frigo, Yu-Chen Lee, Song-Chang Lin, Chien-Jui Cheng, and Guoyu Yu

Abstract

Although emerging evidence suggests a potential role of calcium/calmodulin-dependent kinase II (CaMKII) in prostate cancer, its role in prostate cancer tumorigenesis is largely unknown. Here, we examine whether the acetyl CoA-CaMKII pathway, first described in frog oocytes, promotes prostate cancer tumorigenesis. In human prostate cancer specimens, metastatic prostate cancer expressed higher levels of active CaMKII compared with localized prostate cancer. Correspondingly, basal CaMKII activity was significantly higher in the more tumorigenic PC3 and PC3-mm2 cells relative to the less tumorigenic LNCaP and C4-2B4 cells. Deletion of CaMKII by CRISPR/Cas9 in PC3-mm2 cells abrogated cell survival under low-serum conditions, anchorage-independent growth and cell migration; overexpression of constitutively active CaMKII in C4-2B4 cells promoted these phenotypes. In an animal model of prostate cancer metastasis, genetic ablation of CaMKII reduced PC3-mm2 cell metastasis from the prostate to the lymph nodes. Knockdown of the acetyl-CoA transporter carnitine acetyltransferase abolished CaMKII activation, providing evidence that acetyl-CoA generated from organelles is a major activator of CaMKII. Genetic deletion of the β-oxidation rate-limiting enzyme ACOX family proteins decreased CaMKII activation, whereas overexpression of ACOXI increased CaMKII activation. Overall, our studies identify active CaMKII as a novel connection between organelle β-oxidation and acetyl-CoA transport with cell survival, migration, and prostate cancer metastasis.Significance: This study identifies a cell metabolic pathway that promotes prostate cancer metastasis and suggests prostate cancer may be susceptible to β-oxidation inhibitors. Cancer Res; 78(10); 2490–502. ©2018 AACR.

Published
2023

37. Supplementary Tables 1 - 3 from Alterations Associated with Androgen Receptor Gene Activation in Salivary Duct Carcinoma of Both Sexes: Potential Therapeutic Ramifications

Author

Adel K. El-Naggar, Sue-Hwa Lin, Carlos Caulin, Randal S. Weber, Merrill S. Kies, Scott M. Lippman, Lisa Licitra, Julian C. Post, Renata Ferrarotto, Yu-Chen Lee, Sankar N. Maity, Pulivarthi H. Rao, and Yoshitsugu Mitani

Abstract

Supplementary Table S1. PCR primer sequences in this study. Supplementary Table S2. AR IHC and FISH result Supplementary Table S3. AR mutation detail result in this study.

Published
2023

39. Data from Reciprocal and Autonomous Glucocorticoid and Androgen Receptor Activation in Salivary Duct Carcinoma

Author

Adel K. El-Naggar, Renata Ferrarotto, Kristen B. Pytynia, Sue-Hwa Lin, and Yoshitsugu Mitani

Abstract

Purpose:To determine the expression of glucocorticoid receptor (GR) and androgen receptor (AR) in salivary duct carcinoma (SDC) and to analyze the role of these proteins in the development and management of this disease entity.Experimental Design:We performed a phenotypic assessment of GR and AR localization and expression, and determined their association with clinicopathologic factors in 67 primary SDCs. In vitro functional and response analysis of SDC cell lines was also performed.Results:Of the 67 primary tumors, 12 (18%) overexpressed GR protein, 30 (45%) had constitutive expression, and 25 (37%) had complete loss of expression. Reciprocal GR and AR expression was found in 32 (48%) tumors, concurrent constitutive GR and AR expression in 23 (34%), and simultaneous loss of both receptors and high GR with AR expressions were found in 12 (18%). GR overexpression was significantly associated with worse clinical outcomes. In vitro ligand-independent AR activation was observed in both male- and female-derived cell lines. GR antagonist treatment resulted in decreased cell proliferation and survival in GR-overexpressing cells, irrespective of AR status. Reciprocal GR- and AR-knockdown experiments revealed an independent interaction.Conclusions:Our study, for the first time, demonstrates differential GR and AR expressions, autonomous GR and AR activation, and ligand-independent AR expression and activation in SDC cells. The findings provide critical information on the roles of GR and AR steroid receptors in SDC tumorigenesis and development of biomarkers to guide targeted steroid receptor therapy trials in patients with these tumors.

Published
2023

40. Supplementary Data from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Maurizio Pacifici, Theocharis Panaretakis, Sandeep K. Agarwal, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Jian H. Song, Pengfei Shen, Paul G. Corn, and Guoyu Yu

Abstract

Supplementary Data from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Published
2023

41. Supplementary Data from Organelle-Derived Acetyl-CoA Promotes Prostate Cancer Cell Survival, Migration, and Metastasis via Activation of Calmodulin Kinase II

Author

Sue-Hwa Lin, Leta K. Nutt, Mark A. Titus, Gary E. Gallick, Li-Yuan Yu-Lee, Daniel E. Frigo, Yu-Chen Lee, Song-Chang Lin, Chien-Jui Cheng, and Guoyu Yu

Abstract

This file contains immunofluorescence of LNCaP, C4-2B4, PC3, and PC3-mm2 PCa cell lines (Supplementary Fig.S1); Immunohistochemistry for the expression of pCaMKII (T286) in specimens from human primary prostate tumor, lymph node metastasis, and bone metastasis (Supplementary Fig. S2); Re-expression of constitutively active CaMKII in PC3-mm2 cells with knockout of CaMKII (Supplementary Fig. S3); Effect of re-expression of constitutively active CaMKII in PC3-mm2 cells with knockout of CaMKII on prostate cancer metastasis (Supplementary Fig. S4); Knockdown of AcoxI in PC3-mm2 cells (Supplementary Fig. S5); Effect of AcoxI-III knockout on the levels of individuallipid components (Supplementary Fig. S6) and Sequence of primers and gDNA of CaMKII and ACOX (Table S1).

Published
2023

42. Data from CXCR2 Promotes Ovarian Cancer Growth through Dysregulated Cell Cycle, Diminished Apoptosis, and Enhanced Angiogenesis

Author

Jinsong Liu, Gordon B. Mills, Sue-Hwa Lin, Jiaoti Huang, Imelda Mercado-Uribe, Fengxia Xue, Xue Xiao, Xiaoqing Guo, Fan Yang, Guangzhi Liu, Daniel G. Rosen, and Gong Yang

Abstract

Purpose: Chemokine receptor CXCR2 is associated with malignancy in several cancer models; however, the mechanisms involved in CXCR2-mediated tumor growth remain elusive. Here, we investigated the role of CXCR2 in human ovarian cancer.Experimental Design: CXCR2 expression was silenced by stable small hairpin RNA in ovarian cancer cell lines T29Gro-1, T29H, and SKOV3. Western blotting, immunofluorescence, enzyme-linked immunosorbent assay, flow cytometry, electrophoretic mobility shift assay, and mouse assay were used to detect CXCR2, interleukin-8, Gro-1, cell cycle, apoptosis, DNA binding of NF-κB, and tumor growth. Immunohistochemical staining of CXCR2 was done in 240 high-grade serous ovarian carcinoma samples.Results: Knockdown of CXCR2 expression by small hairpin RNA reduced tumorigenesis of ovarian cancer cells in nude mice. CXCR2 promoted cell cycle progression by modulating cell cycle regulatory proteins, including p21 (waf1/cip1), cyclin D1, CDK6, CDK4, cyclin A, and cyclin B1. CXCR2 inhibited cellular apoptosis by suppressing phosphorylated p53, Puma, and Bcl-xS; suppressing poly(ADP-ribose) polymerase cleavage; and activating Bcl-xL and Bcl-2. CXCR2 stimulated angiogenesis by increasing levels of vascular endothelial growth factor and decreasing levels of thrombospondin-1, a process likely involving mitogen-activated protein kinase, and NF-κB. Overexpression of CXCR2 in high-grade serous ovarian carcinomas was an independent prognostic factor of poor overall survival (P < 0.001) and of early relapse (P = 0.003) in the univariate analysis.Conclusions: Our data provide strong evidence that CXCR2 regulates the cell cycle, apoptosis, and angiogenesis through multiple signaling pathways, including mitogen-activated protein kinase and NF-κB, in ovarian cancer. CXCR2 thus has potential as a therapeutic target and for use in ovarian cancer diagnosis and prognosis. Clin Cancer Res; 16(15); 3875–86. ©2010 AACR.

Published
2023

43. Supplementary Tables from Radium-223 Treatment Increases Immune Checkpoint Expression in Extracellular Vesicles from the Metastatic Prostate Cancer Bone Microenvironment

Author

Theocharis Panaretakis, Christopher J. Logothetis, Sue-Hwa Lin, Sumit K. Subudhi, Eleni Efstathiou, Gary E. Gallick, Nora Navone, Patricia Troncoso, Marites P. Melancon, Elmer Santos, Guoyu Yu, Song-Chang Lin, Yu-Chen Lee, Leah Guerra, Nila Parikh, Anh Hoang, Namrata Madan, Jian H. Song, Emanuela Gentile, Paul Corn, and Ioulia Vardaki

Abstract

Supp Tables 1-3

Published
2023

45. Supplementary Data from A Phase II Study of Cabozantinib and Androgen Ablation in Patients with Hormone-Naïve Metastatic Prostate Cancer

Author

Christopher Logothetis, Patricia Troncoso, Eleni Efstathiou, Gary E. Gallick, Theocharis Panaretakis, Mark A. Titus, Sumankalai Ramachandran, Guocan Wang, Sue-Hwa Lin, Nora M. Navone, Shixia Huang, Kimal Rajapakshe, Cristian Coarfa, Ana M. Aparicio, Shi-Ming Tu, Sumit K. Subudhi, Amado J. Zurita, Lianchun Xiao, Graciela M. Nogueras-Gonzalez, Miao Zhang, and Paul G. Corn

Abstract

Additional Figures and Tables

Published
2023

47. supplementary materials from Integrating Murine and Clinical Trials with Cabozantinib to Understand Roles of MET and VEGFR2 as Targets for Growth Inhibition of Prostate Cancer

Author

Gary E. Gallick, Christopher J. Logothetis, Sue-Hwa Lin, Mian Alauddin, Yiping Shao, Bogdan A. Czerniak, Menashe Bar Eli, Sankar N. Maity, Lynnelle Thorpe, Sanchaika Gaur, Anh G. Hoang, Ana Aparicio, Yu-Chen Lee, Jian H. Song, Eleni Efstathiou, Nila U. Parikh, Paul G. Corn, and Andreas Varkaris

Abstract

supplementary materials and methods, supplementary tables and supplementary figure legends Supplemental Table 1: Patient Characteristics. Supplemental Table 2: Targeting sequences for c-met. Supplemental Table 3: Antibodies and Sources. Supplemental Table 4: Oligonucleotides for PCR Amplification of Mouse Alkaline Phosphatase and Osteonectin.

Published
2023

48. Data from Retinoic Acid Receptor Activation Reduces Metastatic Prostate Cancer Bone Lesions by Blocking the Endothelial-to-Osteoblast Transition

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Maurizio Pacifici, Theocharis Panaretakis, Sandeep K. Agarwal, Jing Pan, Song-Chang Lin, Yu-Chen Lee, Jian H. Song, Pengfei Shen, Paul G. Corn, and Guoyu Yu

Abstract

Metastatic prostate cancer in the bone induces bone-forming lesions that contribute to progression and therapy resistance. Prostate cancer–induced bone formation originates from endothelial cells (EC) that have undergone endothelial-to-osteoblast (EC-to-OSB) transition in response to tumor-secreted BMP4. Current strategies targeting prostate cancer–induced bone formation are lacking. Here, we show that activation of retinoic acid receptor (RAR) inhibits EC-to-OSB transition and reduces prostate cancer–induced bone formation. Treatment with palovarotene, an RARγ agonist being tested for heterotopic ossification in fibrodysplasia ossificans progressiva, inhibited EC-to-OSB transition and osteoblast mineralization in vitro and decreased tumor-induced bone formation and tumor growth in several osteogenic prostate cancer models, and similar effects were observed with the pan-RAR agonist all-trans-retinoic acid (ATRA). Knockdown of RARα, β, or γ isoforms in ECs blocked BMP4-induced EC-to-OSB transition and osteoblast mineralization, indicating a role for all three isoforms in prostate cancer–induced bone formation. Furthermore, treatment with palovarotene or ATRA reduced plasma Tenascin C, a factor secreted from EC-OSB cells, which may be used to monitor treatment response. Mechanistically, BMP4-activated pSmad1 formed a complex with RAR in the nucleus of ECs to activate EC-to-OSB transition. RAR activation by palovarotene or ATRA caused pSmad1 degradation by recruiting the E3-ubiquitin ligase Smad ubiquitination regulatory factor1 (Smurf1) to the nuclear pSmad1/RARγ complex, thus blocking EC-to-OSB transition. Collectively, these findings suggest that palovarotene can be repurposed to target prostate cancer–induced bone formation to improve clinical outcomes for patients with bone metastasis.Significance:This study provides mechanistic insights into how RAR agonists suppress prostate cancer–induced bone formation and offers a rationale for developing RAR agonists for prostate cancer bone metastasis therapy.See related commentary by Bhowmick and Bhowmick, p. 2975

Published
2023

49. Supplementary Figure 5 from Cadherin-11 Increases Migration and Invasion of Prostate Cancer Cells and Enhances their Interaction with Osteoblasts

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Fe-Lin Lin Wu, Angelica Ortiz, Soo Mi Kim, Xiangcang Ye, Yu-Chen Lee, Mehmet Asim Bilen, Khoi Chu, Cristina Lira, and Chih-Fen Huang

Abstract

Supplementary Figure 5 from Cadherin-11 Increases Migration and Invasion of Prostate Cancer Cells and Enhances their Interaction with Osteoblasts

Published
2023

50. Supplementary Figure 2 from Cadherin-11 Increases Migration and Invasion of Prostate Cancer Cells and Enhances their Interaction with Osteoblasts

Author

Sue-Hwa Lin, Li-Yuan Yu-Lee, Christopher J. Logothetis, Fe-Lin Lin Wu, Angelica Ortiz, Soo Mi Kim, Xiangcang Ye, Yu-Chen Lee, Mehmet Asim Bilen, Khoi Chu, Cristina Lira, and Chih-Fen Huang

Abstract

Supplementary Figure 2 from Cadherin-11 Increases Migration and Invasion of Prostate Cancer Cells and Enhances their Interaction with Osteoblasts

Published
2023

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