Your search keyword '"Adam S Wilson"' showing total 14 results

1. Neoadjuvant Chemotherapy Shifts Breast Tumor Microbiota Populations to Regulate Drug Responsiveness and the Development of Metastasis

Author

Stephen P. Diggle, Alaa Bawaneh, Marissa Howard-McNatt, Adam S. Wilson, Katherine L. Cook, David R. Soto-Pantoja, Nicole Levi-Polyachenko, Christine Velazquez, Edward A. Levine, Kenysha Y. J. Clear, Akiko Chiba, and Shaina A. Yates-Alston

Subjects

0301 basic medicine, Cancer Research, medicine.medical_treatment, 030106 microbiology, Mammary Gland Tissue, Breast Neoplasms, Article, Metastasis, Mice, 03 medical and health sciences, Breast cancer, Animals, Humans, Medicine, Doxorubicin, Microbiome, Neoplasm Metastasis, skin and connective tissue diseases, Molecular Biology, Neoadjuvant therapy, Retrospective Studies, Chemotherapy, business.industry, Microbiota, medicine.disease, Neoadjuvant Therapy, 030104 developmental biology, Oncology, Cancer research, Immunohistochemistry, Female, business, medicine.drug

Abstract

Breast tumors have their own specific microbiota, distinct from normal mammary gland tissue. Patients with breast cancer that present with locally advanced disease often undergo neoadjuvant chemotherapy to reduce tumor size prior to surgery to allow breast conservation or limit axillary lymph node dissection. The purpose of our study was to evaluate whether neoadjuvant chemotherapy modulates the tumor microbiome and the potential impact of microbes on breast cancer signaling. Using snap-frozen aseptically collected breast tumor tissue from women who underwent neoadjuvant chemotherapy (n = 15) or women with no prior therapy at time of surgery (n = 18), we performed 16S rRNA-sequencing to identify tumoral bacterial populations. We also stained breast tumor microarrays to confirm presence of identified microbiota. Using bacteria-conditioned media, we determined the effect of bacterial metabolites on breast cancer cell proliferation and doxorubicin therapy responsiveness. We show chemotherapy administration significantly increased breast tumor Pseudomonas spp. Primary breast tumors from patients who developed distant metastases displayed increased tumoral abundance of Brevundimonas and Staphylococcus. We confirmed presence of Pseudomonas in breast tumor tissue by IHC staining. Treatment of breast cancer cells with Pseudomonas aeruginosa conditioned media differentially effected proliferation in a dose-dependent manner and modulated doxorubicin-mediated cell death. Our results indicate chemotherapy shifts the breast tumor microbiome and specific microbes correlate with tumor recurrence. Further studies with a larger patient cohort may provide greater insights into the role of microbiota in therapeutic outcome and develop novel bacterial biomarkers that could predict distant metastases. Implications: Breast tumor microbiota are modified by therapy and affects molecular signaling.

Published

2020

2. 616 CD47 blockade modulates immunosuppressive checkpoint molecules and cellular metabolism to sensitize triple-negative breast cancer tumors to immune checkpoint blockade therapy

Author

Katherine L. Cook, David R. Soto-Pantoja, Elizabeth Stirling, Alexandra Thomas, Pierre L. Triozzi, and Adam S. Wilson

Subjects

Pharmacology, Cancer Research, Cellular metabolism, business.industry, CD47, Immunology, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Immune checkpoint, Blockade, Oncology, Cancer research, Molecular Medicine, Immunology and Allergy, Medicine, business, Triple-negative breast cancer, RC254-282

Abstract

BackgroundTriple-negative breast cancer(TNBC) lacks druggable targets and has high metastatic incidence. Immune checkpoint blockades (ICB) are FDA approved for TNBC treatment, but therapeutic response and biomarkers are limited. CD47 is an integral membrane protein overexpressed on cancer cells that alters anti-tumor immunosurveillance, resulting in tumor progression. CD47 is involved in metabolic reprogramming but whether CD47 is a marker of progression and its role in ICB response for TNBC remains unknown.MethodsHuman TNBC biopsies were subjected to immunohistochemical analysis to determine CD47 role in TNBC progression. To determine CD47 impact on tumor burden, a carcinogen-induced TNBC model was performed in female wild type(WT) and cd47 null(cd47-/-) C57Bl/6 mice. To evaluate immune infiltrate signaling, tumors underwent spatial tissue proteomics by multiplexing photo-cleavable antibodies in Formalin-Fixed Paraffin-Embedded samples. An orthotopic EMT-6 murine TNBC model was performed to investigate tumor burden for CD47 monotherapy or in combination with anti-PD-L1 therapy.ResultsHuman matched primary, and metastatic TNBC biopsies increased immunoreactivity to CD47, signifying a potential therapeutic target(n=24). CD47 deficiency in the carcinogen-induced DMBA model decreased tumor incidence, weight, and area compared to WT(n=8/group,*pConclusionsOur data indicates that CD47 may serve as a marker of anti-PD-L1 response, and targeting CD47 enhances immunogenicity and decreases immunosuppressive molecules, sensitizing TNBC tumors to anti-PD-L1 therapy to reduce tumor burden.AcknowledgementsDSP is supported by the NCI R21 (CA249349) and the American Cancer Society Research Scholar Grant (133727-RSG-19-150-01-LIB). ERS is supported by the NIAID Immunology and Pathogenesis T32 Training Grant (T32AI007401).Ethics ApprovalAnimal studies were approved by the Institutional Care and Use Committee, Wake Forest Health Sciences.

Published

2021

3. A Novel Model of Estrogen Receptor-Positive Breast Cancer Bone Metastasis with Antiestrogen Responsiveness

Author

Brian M. Westwood, Maria T Xie, Victoria E Surratt, Adam S. Wilson, Ravi Singh, Lihong Shi, Bethany A. Kerr, Katherine L. Cook, Kendall L. Langsten, and JoLyn Turner

Subjects

Fulvestrant, business.industry, Bone metastasis, Estrogen receptor, medicine.disease, Antiestrogen, Breast cancer, Selective estrogen receptor modulator, medicine, Cancer research, business, Estrogen receptor alpha, hormones, hormone substitutes, and hormone antagonists, Tamoxifen, medicine.drug

Abstract

Most women diagnosed with breast cancer (BC) have estrogen receptor alpha positive (ER+) disease. ER+ BC preferentially metastasizes to bone; at which time it is considered incurable. Treatments for bone metastasis have not advanced in decades, in part due to a lack of appropriate ER+ BC bone metastasis models. We developed an immunocompetent ER+ BC murine model with spontaneous bone metastasis and antiestrogen responsiveness. To do this, we transduced triple-negative (TN) bone-tropic murine BC cell lines 4T1.2 and E0771/Bone to express ERα. These cells were then injected into the mammary fat pads of Balb/c (n=21) or C57Bl/6 (n=27), respectively. Once tumors established, mice were treated with either the selective estrogen receptor modulator (SERM) tamoxifen (TAM), the selective estrogen receptor degrader (SERD) ICI 182,780 (ICI, Faslodex, fulvestrant), or vehicle control for 21 days. Tumor volumes and weights significantly decreased in the ER+ groups treated with TAM and ICI compared with ER+ vehicle-treated groups. Staining for immune profiles and total RNA sequencing demonstrated modified immune cell infiltration between TN and ER-derived tumors. Approximately 25% of the mice with ER+ 4T1.2 tumors developed metastases to long bones while none of the mice with TN tumors developed metastases. This immunocompetent ER+ 4T1.2 BC model may allow for further exploration of ER+ BC bone metastasis mechanisms and for the development of new therapeutics for women diagnosed with bone metastasis from ER+ BC.Simple SummaryEstrogen receptor alpha positive (ER+) breast cancer is the most common subtype of breast cancer. When it metastasizes to bone, it becomes incurable. Little advancement has occurred in the treatment of bone metastasis from ER+ breast cancer, partly due to the lack of animal models. To establish an animal model of ER+ BC, we genetically modified two triple-negative breast cancer cell lines to express ERα and injected the cell lines into murine mammary glands. Mice were treated with standard antiestrogen therapies, the selective estrogen receptor modulator tamoxifen or the selective estrogen receptor degrader ICI 182,780. We found that compared to mice with triple-negative breast cancer, mice with ER+ breast cancer developed bone metastases and were responsive to antiestrogen therapy. This model allows for further exploration of bone metastasis mechanisms and for the development of new therapeutics, translating into improved clinical outcomes for women with bone metastasis from ER+ breast cancer.

Published

2021

4. 206 An immune-competent tumor organoid platform to test novel immune checkpoint combinations targeting the receptor CD47 in triple negative breast cancer

Author

Elizabeth Stirling, Aleksander Skardal, Adam S. Wilson, Lance D. Miller, Ethan Willey-Shelkey, David R. Soto-Pantoja, Shay Soker, Masaki Terabe, and Pierre L. Triozzi

Subjects

0301 basic medicine, Tumor microenvironment, business.industry, T cell, Cancer, medicine.disease, Immune checkpoint, Granzyme B, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, medicine.anatomical_structure, Cell killing, 030220 oncology & carcinogenesis, Cancer research, Medicine, business, Triple-negative breast cancer

Abstract

Background Immune checkpoint blockade therapy targeting PD-L1 has recently been approved for metastatic triple negative breast cancer (TNBC) patients. However, a 7% response rate calls for better models and strategies to stimulate TN-tumor immunogenicity to increase patient response. Overexpression of the receptor CD47 impairs innate and adaptive tumor immunosurveillance when engaged to its counter receptor SIRPα or ligand thrombospondin-1. Co-expression of CD47 and PD-L1 is implicated with disease progression in TNBC patients. We examined through murine models and tumor organoid platforms whether targeting CD47 sensitizes TNBC tumors to PD-L1 therapy, focusing on the modulation of cellular bioenergetics as a potential mechanism and potentially predict response. Methods The effects of targeting CD47 and PD-L1 were examined through orthotopic syngenic 4T1 and EMT-6 TNBC murine models. Due to predicting patient therapeutic response challenges, tumor organoid platforms investigated mechanisms of tumor sensitization to anti-PD-L1 by targeting CD47. Organoids were constructed by embedding murine TNBC tumor tissue and AH1 CD8+ T cells in a specialized ECM mimicking hydrogel. Immunohistochemistry was performed on organoid, human and murine TNBC tumor tissue. Cellular bioenergetics was analyzed through Seahorse® bioanalyzer. Results Staining of human TNBC biopsies found elevated CD47 expression, signifying a potential therapeutic target. Targeting CD47 or in combination with anti-PD-L1 resulted in decreased tumor volume and weight in a TNBC murine model. The decrease in tumor burden was correlated with increased intratumoral granzyme B secreting CD8+ T cells. Additionally, targeting CD47 within organoids increased IFNγ and granzyme B released, indicating enhanced CD8+ T cell cytolytic capacity. Differential cellular bioenergetics was observed between cancer and T cells suggesting a shift in metabolism in the tumor microenvironment. CD47 targeted T cells had an increased glycolytic rate compared to WT T cells. Conversely CD47 targeted TNBC cells had a decreased glycolytic rate, which may be correlated with decreased PD-L1 expression. Conclusions Targeting CD47 enhanced granzyme B and IFNγ expression suggesting potential mechanisms to increase tumor immunogenicity. CD47 targeted monotherapy or combination with anti-PD-L1 preserves T cell bioenergetics and antitumor function, resulting in decreased TNBC tumor burden. Alternatively, CD47 targeted TNBC had a decreased glycolytic rate and decreased PD-L1 expression, which is reported to regulate glycolysis through Akt/mTOR signaling. Targeting CD47 on T cells enhances their bioenergetics and antitumor function while decreasing TNBC cell bioenergetics, making them more susceptible to immune cell killing. Our data indicates that CD47 targeted monotherapy or combination with anti-PD-L1 may enhance TNBC patient response and improve overall survival. Acknowledgements DSP and SS are supported by the Wake Forest Comprehensive Cancer Center Breast Cancer Center of Excellence Pilot Award. DSP is also supported by the ASTRO-BCRF Career Development Award (637969) while ERS is supported by NIGMS T32 (GM127261). Ethics Approval Animal studies were approved by the Institutional Care and Use Committee, Wake Forest Health Sciences.

Published

2020

5. Combination of anthracyclines and anti-CD47 therapy inhibit invasive breast cancer growth while preventing cardiac toxicity by regulation of autophagy

Author

Yismeilin R. Feliz-Mosquea, Brian M. Westwood, Jasmina Varagic, Rajarshi Guha, Craig J. Thomas, David D. Roberts, Lesley A. Mathews Griner, Qing-Rong Chen, Adam S. Wilson, Giselle C. Meléndez, David R. Soto-Pantoja, Marc Ferrer, Anthony L. Schwartz, Ashley A. Christensen, Katherine L. Cook, and Maria J. Merino

Subjects

0301 basic medicine, Cancer Research, medicine.medical_treatment, Apoptosis, Breast Neoplasms, CD47 Antigen, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Breast cancer, Cell Line, Tumor, Autophagy, medicine, Animals, Humans, Anthracyclines, Neoplasm Invasiveness, Doxorubicin, Viability assay, Cell Proliferation, Chemotherapy, business.industry, CD47, medicine.disease, Cardiotoxicity, Blockade, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer cell, MCF-7 Cells, Cancer research, Female, business, medicine.drug

Abstract

BACKGROUND: A perennial challenge in systemic cytotoxic cancer therapy is to eradicate primary tumors and metastatic disease while sparing normal tissue from off-target effects of chemotherapy. Anthracyclines such as doxorubicin are effective chemotherapeutic agents for which dosing is limited by development of cardiotoxicity. Our published evidence shows that targeting CD47 enhances radiation-induced growth delay of tumors while remarkably protecting soft tissues. The protection of cell viability observed with CD47 is mediated autonomously by activation of protective autophagy. However, whether CD47 protects cancer cells from cytotoxic chemotherapy is unknown. METHODS: We tested the effect of CD47 blockade on cancer cell survival using a 2-dimensional high-throughput cell proliferation assay in 4T1 breast cancer cell lines. To evaluate blockade of CD47 in combination with chemotherapy in vivo we employed the 4T1 breast cancer model and examined tumor and cardiac tissue viability as well as autophagic flux. RESULTS: Our high-throughput screen revealed that blockade of CD47 does not interfere with the cytotoxic activity of anthracyclines against 4T1 breast cancer cells. Targeting CD47 enhanced the effect of doxorubicin chemotherapy in vivo by reducing tumor growth and metastatic spread by activation of an anti-tumor innate immune response. Moreover, systemic suppression of CD47 protected cardiac tissue viability and function in mice treated with doxorubicin. CONCLUSIONS: Our experiments indicate that the protective effects observed with CD47 blockade are mediated through upregulation of autophagic flux. However, absence of CD47 in did not elicit a protective effect but it enhanced macrophage-mediated cancer cell cytolysis. Therefore, the differential responses observed with CD47 blockade are due to autonomous activation of protective autophagy in normal tissue and enhancement immune cytotoxicity against cancer cells.

Published

2018

6. BSCI-17. Targeting SIRPα as a therapeutic strategy for the treatment of breast cancer brain metastasis

Author

Pierre L. Triozzi, Dawen Zhao, William Crowe, David R. Soto-Pantoja, Mitra Kooshki, Steven M Bronson, Adam S. Wilson, Elizabeth Stirling, and Glenn J. Lesser

Subjects

business.industry, Respiratory chain, Cell cycle, medicine.disease, Supplement Abstracts, Breast cancer, Basic Science, Tumor progression, medicine, Cancer research, AcademicSubjects/MED00300, AcademicSubjects/MED00310, Breast cancer cells, business, Triple-negative breast cancer, Brain metastasis, Therapeutic strategy

Abstract

Triple-negative breast cancer (TNBC) is a highly aggressive subtype of breast cancer characterized by the lack of druggable targets and an incidence of brain metastasis from the primary site of approximately 35%. There is no standard treatment for managing brain metastasis associated with TNBC; therefore, new strategies are urgently needed to overcome disease mortality. The CD47/SIRPα signaling pathway is implicated in tumor progression due to bypassing innate and adaptive immune surveillance. Most strategies targeting this pathway focus on targeting the receptor CD47; however, targeting SIRPα as a potential strategy to mitigate tumor burden remains understudied. Analysis of gene expression database shows that SIRPα expression is significantly elevated in invasive breast cancer when compared to primary. Furthermore, single-cell data indicates that SIRPα is expressed in basal epithelial cells in TNBC tumors aside from the myeloid compartment. Our immune staining against SIRPα in patient biopsies shows a five-fold increase in SIRPα expression in metastatic brain tumors compared to the primary lesions. Therefore, targeting SIRPα may be a new immunotherapeutic strategy to treat breast cancer brain metastases. Anti-SIRPα treatment of mice bearing brain metastatic 4T1br3 orthotopic tumors showed reduced tumor volume and tumor weight by over 50% compared to isotype control-treated mice. Furthermore, in a model of intracardial brain metastasis, treatment with SIRPα antibody was associated with a 60% increase in survival compared to isotype control-treated mice. RNA sequencing of tumors indicated that SIRPα blockade is associated with a reduction in genes linked to mitochondrial respiratory chain and increases in negative regulation of the cell cycle. Furthermore, in vitro SIRPα targeting enhanced the cell-mediated cytotoxicity of microglia against 4T1Br3 breast cancer cells. This suggests that SIRPα blockade may influence both tumor and innate immune cells to limit brain metastatic breast cancer growth and enhance survival.

Published

2021

7. Unfolded protein response signaling impacts macrophage polarity to modulate breast cancer cell clearance and melanoma immune checkpoint therapy responsiveness

Author

Brian M. Westwood, David R. Soto-Pantoja, Katherine L. Cook, Kenysha Y. J. Clear, Adam S. Wilson, and Pierre L. Triozzi

Subjects

0301 basic medicine, endocrine system, medicine.medical_treatment, Macrophage polarization, 03 medical and health sciences, breast cancer, immune therapy, melanoma, Medicine, ipilimumab, CTLA4, business.industry, Cancer, Immunotherapy, medicine.disease, Immune checkpoint, 3. Good health, 030104 developmental biology, Cytokine, Oncology, Immunology, Cancer cell, Cytokine secretion, business, Macrophage proliferation, Research Paper

Abstract

// David R. Soto-Pantoja 1, 3 , Adam S. Wilson 1 , Kenysha YJ. Clear 1 , Brian Westwood 1 , Pierre L. Triozzi 2, 3 and Katherine L. Cook 1, 3 1 Department of Surgery, Wake Forest School of Medicine, Winston-Salem, NC 27157, USA 2 Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, NC 27157, USA 3 Comprehensive Cancer Center of Wake Forest Baptist Medical Center, Wake Forest School of Medicine, Winston-Salem, NC 27157, USA Correspondence to: Katherine L. Cook, email: klcook@wakehealth.edu Keywords: breast cancer, melanoma, immune therapy, ipilimumab, CTLA4 Received: March 22, 2017 Accepted: July 23, 2017 Published: August 03, 2017 ABSTRACT The unfolded protein response (UPR) is a stress pathway controlled by GRP78 to mediate IRE1, PERK, and ATF6 signaling. We show that targeting GRP78, IRE1, and PERK differentially regulates macrophage polarization. Specifically, PERK targeting enhanced macrophage proliferation and macrophage-mediated killing but not GRP78 or IRE1. Targeting UPR in cancer cells also differentially affected macrophage cytolytic capacity. Tumoral IRE1 or GRP78 inhibition enhanced macrophage-mediated cancer cell clearance. Conditioned media from GRP78-silenced cancer cells caused reciprocal regulation of CD80 and CD206, suggesting control of plasticity by secreted factors. GRP78 targeting in mice resulted in a cytokine shift and increased tumoral CD80+/CD68+ cells, suggesting an M1-like profile. Targeting UPR in both macrophage and cancer cells indicates that PERK or GRP78 reduction enhances macrophage clearance of cancer cells. Recent evidence suggests that macrophage polarization influences immune checkpoint therapy resistance. To determine whether UPR effects immunotherapy resistance, analysis of matched melanoma patient PBMC before/after developing ipilimumab resistance demonstrated increased UPR signaling and an M2-like macrophage population, supporting a novel role of UPR signaling and innate immune regulation in anti-CTLA-4 therapy resistance. These data suggest that targeting GRP78 or PERK promotes an anti-tumor immune response by either directly promoting macrophage cytolytic activity or indirectly by shifting tumoral cytokine secretion.

Published

2017

8. Abstract B15: Gut microbiome populations modulate neoadjuvant chemotherapy responsiveness in preclinical triple-negative breast cancer murine model

Author

Alaa Bawaneh, Katherine L. Cook, Akiko Chiba, Adam S. Wilson, and Kenysha Y. J. Clear

Subjects

Oncology, Cancer Research, Chemotherapy, medicine.medical_specialty, biology, business.industry, medicine.medical_treatment, Cancer, Gut flora, medicine.disease, biology.organism_classification, Targeted therapy, Breast cancer, Internal medicine, medicine, Doxorubicin, Microbiome, business, Triple-negative breast cancer, medicine.drug

Abstract

Triple-negative breast cancer (TNBC) is a highly aggressive subtype with a 5-year survival rate significantly worse when compared to other breast cancer types. There are no targeted therapy options, limiting these patients to cytotoxic chemotherapy regimens. Our group demonstrated increased tumoral Pseudomonas abundance in breast cancer patients receiving neoadjuvant chemotherapy, suggesting that systemic anticancer therapy administration may modulate microbiota populations. The purpose of our study was to determine whether gut microbiota populations correlate with chemotherapeutic responsiveness and may be a predictive biomarker outcome. We wanted to determine the impact of shifting the microbiome on chemotherapy efficacy. To do so, 8-week old female BALB/c mice were injected with 4T1-luciferase cells in the mammary fat pad. Once tumors reached 100 mm3, mice were either untreated (control group), treated with 1x weekly 2.5 mg/kg doxorubicin (DOX) for 4 weeks, or treated with doxorubicin +antibiotics (mixture of streptomycin, ampicillin, and colistin in the drinking water to ablate the microbiome). Tumor size was monitored. Tumors and lungs were collected after the study. Fecal samples were collected at T0 (before treatment) and T4 (after treatment). Mice receiving DOX were stratified into DOX-responders or DOX-nonresponders based upon tumor size. Mice from DOX-responders and DOX +antibiotics groups displayed reduced tumor weight and decreased lung metastatic burden. 16S-bacterial sequencing indicates elevated fecal Ruminococcus correlates with DOX-nonresponsiveness and increased abundance of Oscillospira and Bacteroidales is associated with better therapeutic outcome. Protein analysis of tumor tissue indicates a significant increase in apoptosis in DOX-responders and DOX +antibiotic groups. To determine whether modulating the gut microbiome influences drug responsiveness, BALB/c mice were stratified into a control group or group receiving lard diet-derived fecal transplant (LDFT) by oral gavage. Mice were injected with 4T1-luciferase cells in the mammary fat pad. Once tumors reached 100 mm3, mice were treated with 1x weekly 2.5 mg/kg DOX for 4 weeks. Tumors and lungs were collected at the end of the study. Fecal samples were collected at T0 (before gavage), T3 (after 3 weeks of LDFT and before DOX-treatment), and T7 (at end of study). All tumors from LDFT-group were larger and displayed reduced chemotherapy responsiveness when compared with control animals, suggesting gut microbiome populations can modulate chemotherapy resistance. Taken together, our data demonstrate that chemotherapy efficacy is modulated by gut microbiome and suggest that modulation of the gut microbiome through dietary or probiotic interventions may affect therapeutic outcomes. Moreover, fecal microbiota populations could be used as a predictive biomarker of chemotherapeutic responsiveness. Citation Format: Kenysha Clear, Adam Wilson, Akiko Chiba, Katherine L. Cook, Alaa Bawaneh. Gut microbiome populations modulate neoadjuvant chemotherapy responsiveness in preclinical triple-negative breast cancer murine model [abstract]. In: Proceedings of the AACR Special Conference on the Microbiome, Viruses, and Cancer; 2020 Feb 21-24; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2020;80(8 Suppl):Abstract nr B15.

Published

2020

9. Abstract 650: Gut microbiota population may be used to predict chemotherapeutic responsiveness in triple negative breast cancer

Author

Akiko Chiba, Kenysha Y. J. Clear, Katherine L. Cook, Adam S. Wilson, and Alaa Bawaneh

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Chemotherapy, education.field_of_study, business.industry, medicine.medical_treatment, Population, Cancer, medicine.disease, Targeted therapy, Breast cancer, Internal medicine, medicine, Doxorubicin, Microbiome, business, education, Triple-negative breast cancer, medicine.drug

Abstract

Triple negative breast cancer (TNBC) accounts for 15-20% of all breast cancers and predominately affects young and minority women. TNBC is characterized by a high recurrence rate, with about 34% of TNBC patients relapsing around 2.6 years. This type of breast cancer lacks targeted therapy options and is limited to chemotherapy treatment options. The purpose of our study was to determine whether gut microbiota populations correlate with chemotherapeutic responsiveness and may be a predictive biomarker of outcome. Moreover, we want to determine the impact of targeting the microbiome on chemotherapy efficacy. In this study, 8-week old female BALB/c mice were injected with TNBC 4T1-luciferase cells into their L4/5 mammary fat pad. Once tumors developed, mice were either untreated (control group), treated with 1 x weekly 2.5 mg/kg IV doxorubicin (DOX), or treated with doxorubicin + antibiotics (mixture of streptomycin, ampicillin, and colistin in the drinking water to ablate host bacterial populations). Tumors were collected at the end of the study. Fecal samples were collected at time point 0 weeks (T0; before therapy when tumors were approximately 100 mm3) and time point 4 weeks (T4; after treatment). We subdivided the doxorubicin treated group into DOX-responders (tumors stopped growing or shrank) or DOX-nonresponders (tumors continued to grow on treatment). Tumors from the DOX-responders and DOX + antibiotics groups were significantly smaller and mice from these groups displayed reduced lung weight, suggesting decreased lung metastatic burden. 16S-bacterial sequencing analysis was performed on breast tumor tissue and feces. We demonstrate that at T0, elevated fecal Ruminococcus correlates with DOX-nonresponsiveness. Furthermore, at T4, we show increased fecal abundance of Oscillospira and Bacteroidales are associated with better therapeutic outcome. Protein analysis of primary 4T1 breast tumor tissue indicate a significant elevation of apoptosis (cleaved caspase-3 protein levels) in DOX-responders and DOX + antibiotic treated mice. We also stained breast tumor tissue and lung tissue for bacteria to confirm presence of microbiota by immunohistochemistry. Taken together our data demonstrates that chemotherapy efficacy is modulated by the microbiome. Moreover, fecal microbiota populations could be used as a predictive biomarker of chemotherapeutic responsiveness and suggests that modulation of the gut microbiome through dietary or probiotic interventions may affect therapeutic outcomes. Citation Format: Alaa Bawaneh, Adam S. Wilson, Kenysha YJ Clear, Akiko Chiba, Katherine L. Cook. Gut microbiota population may be used to predict chemotherapeutic responsiveness in triple negative breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 650.

Published

2019

10. Abstract 449: Targeting PKR-like endoplasmic reticulum kinase modulates metabolism to promote T-cell effector function and PD1 immunotherapy responsiveness

Author

Katherine L. Cook, Yismeilin R. Feliz-Mosquea, Adam S. Wilson, David R. Soto-Pantoja, and Kenysha Y. J. Clear

Subjects

endocrine system, Cancer Research, Morpholino, business.industry, T cell, Melanoma, Endoplasmic reticulum, medicine.medical_treatment, Immunotherapy, medicine.disease, Immune checkpoint, medicine.anatomical_structure, Oncology, medicine, Unfolded protein response, Cancer research, PERK inhibitors, business

Abstract

The development of immunotherapy is a major recent advance in clinical oncology. However the majority of patients do not respond and those who do, experience resistance and relapse. Therefore, understanding the molecular mechanisms of immune checkpoint inhibitor resistance is critical to develop combinatorial drug strategies to potentiate therapeutic responsiveness to reduce mortality. Highly secretory cells, such as T-cells, have a larger endoplasmic reticulum (ER) to handle the increased protein translation capacity required by the cell. Therefore, T-cells may be highly sensitive to ER stress. The high nutrient needs of the tumor deplete resources in the microenvironment subjugating infiltrating T-cells to reduced nutrient availability resulting in stress. Our data indicate that co-culturing melanoma cells with T-cells increase T-cell specific unfolded protein response (UPR) signaling. Stimulating ER stress decreased cytolytic T-cell function in TALL-104 T-cells, enabling Mun2b melanoma survival. Knockdown of PERK restored T-cell killing capacity in ER stress induced cells. In an ex-vivo model of antigen-specific mediated T-cell death, Pmel-1 T-cells stimulated with gp100 displayed increased B16 melanoma killing when treated with GSK2606414 (a small molecule PERK inhibitor). PERK inhibition also elevated glycolysis proteins and mitochondrial bioenergetics in T-cells, suggesting PERK inhibition increases T-cell metabolism. As proof-of-concept, we determined the effect of PERK inhibition in a syngeneic B16 melanoma model. Male C57/Bl6 mice were inoculated with B16 melanoma cells. At 5 days post injection, mice were treated with a control IgG, antisense morpholino targeting PERK, PD1 antibody, or a combination of PERK morpholino and PD1 antibody. PERK morpholino treatment alone was sufficient to reduce tumor volume by 46.5%. PD1 antibody therapy alone reduced tumor volume by 47.4%. The combination of PD1 antibody and PERK targeting therapy significantly reduced B16 melanoma tumor volume by 64.5% demonstrating that targeting PERK in vivo enhanced immunocheckpoint therapy efficacy. Treated B16 tumors were homogenized and infiltrating T-cells isolated by flow cytometry. Gated CD3+ infiltrating leukocytes were then counted for CD8 and PD1 expression. Tumor infiltrating CD8+ T-cells doubled with PERK inhibition alone, giving further proof indicating that PERK may be a novel immune checkpoint target. Small molecule PERK inhibitors were previously shown to cause β-islet damage and insulin resistance; therefore we tested the effect of our PERK morpholino on glucose tolerance in the B16 melanoma model. PERK morpholino treatment had no overall impact on glucose tolerance and therefore may be a novel therapeutic to induce T-cell metabolism and potentiate immune checkpoint therapy efficacy with reduced off-target toxicities. Citation Format: David R. Soto-Pantoja, Yismeilin R. Feliz-Mosquea, Kenysha YJ Clear, Adam S. Wilson, Katherine L. Cook. Targeting PKR-like endoplasmic reticulum kinase modulates metabolism to promote T-cell effector function and PD1 immunotherapy responsiveness [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 449.

Published

2018

11. Failure of lumbopelvic fixation after long construct fusions in patients with adult spinal deformity: clinical and radiographic risk factors: clinical article

Author

Adam S. Wilson, Jonathan R. Mason, Kai-Ming G. Fu, Wendy M. Novicoff, Christopher I. Shaffrey, Adam L. Shimer, Vincent Arlet, Justin S. Smith, Francis H. Shen, Joshua Heller, and Woojin Cho

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Radiography, Pelvis, medicine, Deformity, Humans, Kyphosis, Treatment Failure, Aged, Retrospective Studies, Aged, 80 and over, Lumbar Vertebrae, business.industry, Retrospective cohort study, General Medicine, Middle Aged, medicine.disease, Surgery, Pseudarthrosis, Spinal Fusion, Treatment Outcome, Scoliosis, Spinal fusion, Lumbopelvic fixation, Spinal deformity, Physical therapy, Lordosis, Female, medicine.symptom, business, Complication

Abstract

Object Lumbopelvic fixation provides biomechanical support to the base of the long constructs used for adult spinal deformity. However, the failure rate of the lumbopelvic fixation and its risk factors are not well known. The authors' objective was to report the failure rate and risk factors for lumbopelvic fixation in long instrumented spinal fusion constructs performed for adult spinal deformity. Methods This retrospective review included 190 patients with adult spinal deformity who had long construct instrumentation (> 6 levels) with iliac screws. Patients' clinical and radiographic data were analyzed. The patients were divided into 2 groups: a failure group and a nonfailure group. A minimum 2-year follow-up was required for inclusion in the nonfailure group. In the failure group, all patients were included in the study regardless of whether the failure occurred before or after 2 years. In both groups, the patients who needed a revision for causes other than lumbopelvic fixation (for example, proximal junctional kyphosis) were also excluded. Failures were defined as major and minor. Major failures included rod breakage between L-4 and S-1, failure of S-1 screws (breakage, halo formation, or pullout), and prominent iliac screws requiring removal. Minor failures included rod breakage between S-1 and iliac screws and failure of iliac screws. Minor failures did not require revision surgery. Multiple clinical and radiographic values were compared between major failures and nonfailures. Results Of 190 patients, 67 patients met inclusion criteria and were enrolled in the study. The overall failure rate was 34.3%; 8 patients had major failure (11.9%) and 15 had minor failure (22.4%). Major failure occurred at a statistically significant greater rate in patients who had undergone previous lumbar surgery, had greater pelvic incidence, and had poor restoration of lumbar lordosis and/or sagittal balance (that is, undercorrection). Patients with a greater number of comorbidities and preoperative coronal imbalance showed trends toward an increase in major failures, although these trends did not reach statistical significance. Age, sex, body mass index, smoking history, number of fusion segments, fusion grade, and several other radiographic values were not shown to be associated with an increased risk of major failure. Seventy percent of patients in the major failure group had anterior column support (anterior lumbar interbody fusion or transforaminal lumbar interbody fusion) while 80% of the nonfailure group had anterior column support. Conclusions The incidence of overall failure was 34.3%, and the incidence of clinically significant major failure of lumbopelvic fixation after long construct fusion for adult spinal deformity was 11.9%. Risk factors for major failures are a large pelvic incidence, revision surgery, and failure to restore lumbar lordosis and sagittal balance. Surgeons treating adult spinal deformity who use lumbopelvic fixation should pay special attention to restoring optimal sagittal alignment to prevent lumbopelvic fixation failure.

Published

2013

12. Abstract 1352: High-throughput matrix screening reveals synergistic chemotherapeutic combinations with blockade of CD47 to enhance cytotoxicity in breast cancer

Author

Craig J. Thomas, Ashley A. Smith, Adam S. Wilson, Rajarshi Guha, Marc Ferrer, David R. Soto-Pantoja, John M. Sipes, David D. Roberts, and Lesley Mathews-Griner

Subjects

Cancer Research, Chemotherapy, Anthracycline, business.industry, medicine.medical_treatment, Matricellular protein, Cancer, Pharmacology, medicine.disease, Blockade, Breast cancer, Oncology, Cancer research, Medicine, Doxorubicin, business, Cytotoxicity, medicine.drug

Abstract

CD47 is a widely expressed cell surface receptor that serves as a counter-receptor for SIRPα in recognition of self by the innate immune system. On the other hand CD47 also serves as a signaling receptor for the matricellular protein thrombospondin-1 (TSP-1), regulating cell growth and survival. Clinical studies consistently show that increased expression of CD47 is an independent poor prognosis factor in several types of cancer, including breast cancer. Moreover elevated expression of CD47 is associated with development of resistance to chemotherapy by inhibiting cell death pathways. Therefore, agents targeting CD47 are attractive to overcome therapeutic resistance in breast cancer. Using a high-throughput assay in a 1536-well microplate format we screened a comprehensive set of approved and late stage development oncology drugs in combination with an anti-CD47 morpholino to find combinatorial strategies that are more cytotoxic against breast cancer cells. Potency and efficacy measurements during the primary screen identified compounds that synergized with anti-CD47 to augment their cytotoxicity effect. One of the compound groups that demonstrated increased synergism with CD47 were the anthracycline family of drugs. We further validated these results in a syngeneic model of breast cancer and demonstrated that blockade of CD47 in combination with doxorubicin improves chemotherapeutic response when compared to mice administered doxorubicin alone. Furthermore the anti-tumor response with anti-CD47 combination is associated with a reduction in glycolytic flux and a selective up regulation of mitophagy. Overall this indicates that blockade of CD47 in the clinic may synergize with chemotherapeutic strategies to improve patient curative responses. Citation Format: David D. Roberts, Ashley Smith, John M. Sipes, Adam Wilson, Lesley Mathews-Griner, Rajarshi Guha, Craig J. Thomas, Marc Ferrer, David R. Soto-Pantoja. High-throughput matrix screening reveals synergistic chemotherapeutic combinations with blockade of CD47 to enhance cytotoxicity in breast cancer. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1352.

Published

2016

13. Early-onset GH deficiency results in spatial memory impairment in mid-life and is prevented by GH supplementation

Author

Michelle M. Nicolle, Ashley Donahue, Adam S. Wilson, Doris P. Molina, William E. Sonntag, Erasmo Nieves-Martinez, and Judy K. Brunso-Bechtold

Subjects

Male, medicine.medical_specialty, Aging, Swine, Endocrinology, Diabetes and Metabolism, Water maze, Article, Growth hormone deficiency, Animals, Genetically Modified, Endocrinology, Internal medicine, Medicine, Memory impairment, Animals, Memory disorder, Insulin-Like Growth Factor I, Maze Learning, Swimming, Early onset, Memory Disorders, business.industry, Cognitive disorder, Body Weight, medicine.disease, Recombinant Proteins, Rats, Rats, Inbred Lew, Growth Hormone, Spatial learning, business, GH Deficiency

Abstract

GH levels increase to high concentrations immediately before puberty then progressively decline with age. GH deficiency (GHD) originating in childhood is treated with GH supplementation to foster somatic development during adolescence. It is not clear if or how early GH replacement affects memory in adulthood, or whether it can prevent the cognitive deficits commonly observed in adults with childhood-onset GHD. Rats homozygous for the Dw-4 mutation (dwarf) do not exhibit the normal increase in GH at 4 weeks of age when GH levels normally rise and are used to model childhood or early-onset GHD (EOGHD). One group of these rats was injected with GH from 4 to 14 weeks of age to model GH supplementation during adolescence with GHD beginning in adulthood (adult-onset GHD; AOGHD). Another group received GH from 4 weeks throughout the lifespan to model normal lifespan GH (GH-replete). Age-matched, Dw-4 heterozygous rats (HZ) do not express the dwarf phenotype and were used as controls. At 8 and 18 months of age, spatial learning in the water maze was assessed. At 8 months of age all experimental groups were equally proficient. However, at 18 months of age, the EOGHD group had poor spatial learning compared to the AOGHD, GH-replete, and HZ groups. Our data indicate that GHD during adolescence has negative effects on learning and memory that emerge by middle-age unless prevented by GH supplementation.

Published

2009

14. Current concepts in management of femoroacetabular impingement

Author

Quanjun Cui and Adam S Wilson

Subjects

musculoskeletal diseases, medicine.medical_specialty, business.industry, Radiography, Avascular necrosis, Osteoarthritis, medicine.disease, Acetabulum, Surgery, Femoral head, medicine.anatomical_structure, medicine, Orthopedics and Sports Medicine, Topic Highlight, Hip arthroscopy, business, Femoroacetabular impingement, Pelvis

Abstract

Femoroacetabular impingement (FAI) is an increasingly recognized condition, which is believed to contribute to degenerative changes of the hip. This correlation has led to a great deal of interested in diagnosis and treatment of FAI. FAI can be divided into two groups: cam and pincer type impingement. FAI can lead to chondral and labral pathologies, that if left untreated, can progress rapidly to osteoarthritis. The diagnosis of FAI involves a detailed history, physical exam, and radiographs of the pelvis. Surgical treatment is indicated in anatomic variants known to cause FAI. The primary goal of surgical treatment is to increase joint clearance and decrease destructive forces being transmitted through the joint. Treatment has been evolving rapidly over the past decade and includes three primary techniques: open surgical dislocation, mini-open, and arthroscopic surgery. Open surgical dislocation is a technique for dislocating the femoral head from the acetabulum with a low risk of avascular necrosis in order to reshape the neck or acetabular rim to improve joint clearance. Mini-open treatment is performed using the distal portion of an anterior approach to the hip to visualize and to correct acetabular and femoral head and neck junction deformities. This does not involve frank dislocation. Recently, arthroscopic treatment has gained popularity. This however does have a steep learning curve and is best done by an experienced surgeon. Short- to mid-term results have shown relatively equal success with all techniques in patients with no or only mild evidence of degenerative changes. Additionally, all techniques have demonstrated low rates of complications.

Published

2012