Your search keyword '"Coutermarsh-Ott, Sheryl"' showing total 29 results

1. Investigation of High Frequency Irreversible Electroporation for Canine Spontaneous Primary Lung Tumor Ablation.

Author

Hay, Alayna N., Aycock, Kenneth N., Lorenzo, Melvin F., David, Kailee, Coutermarsh-Ott, Sheryl, Salameh, Zaid, Campelo, Sabrina N., Arroyo, Julio P., Ciepluch, Brittany, Daniel, Gregory, Davalos, Rafael V., and Tuohy, Joanne

Subjects

LUNG tumors, CELL membranes, ELECTRIC fields, TUMOR microenvironment, CELL death

Abstract

In this study, the feasibility of treating canine primary lung tumors with high-frequency irreversible electroporation (H-FIRE) was investigated as a novel lung cancer treatment option. H-FIRE is a minimally invasive tissue ablation modality that delivers bipolar pulsed electric fields to targeted cells, generating nanopores in cell membranes and rendering targeted cells nonviable. In the current study, canine patients (n = 5) with primary lung tumors underwent H-FIRE treatment with an applied voltage of 2250 V using a 2-5-2 µs H-FIRE waveform to achieve partial tumor ablation prior to the surgical resection of the primary tumor. Surgically resected tumor samples were evaluated histologically for tumor ablation, and with immunohistochemical (IHC) staining to identify cell death (activated caspase-3) and macrophages (IBA-1, CD206, and iNOS). Changes in immunity and inflammatory gene signatures were also evaluated in tumor samples. H-FIRE ablation was evident by the microscopic observation of discrete foci of acute hemorrhage and necrosis, and in a subset of tumors (n = 2), we observed a greater intensity of cleaved caspase-3 staining in tumor cells within treated tumor regions compared to adjacent untreated tumor tissue. At the study evaluation timepoint of 2 h post H-FIRE, we observed differential gene expression changes in the genes IDO1, IL6, TNF, CD209, and FOXP3 in treated tumor regions relative to paired untreated tumor regions. Additionally, we preliminarily evaluated the technical feasibility of delivering H-FIRE percutaneously under CT guidance to canine lung tumor patients (n = 2). Overall, H-FIRE treatment was well tolerated with no adverse clinical events, and our results suggest H-FIRE potentially altered the tumor immune microenvironment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Irreversible electroporation promotes a pro-inflammatory tumor microenvironment and anti-tumor immunity in a mouse pancreatic cancer model.

Author

Imran, Khan Mohammad, Brock, Rebecca M., Beitel-White, Natalie, Powar, Manali, Orr, Katie, Aycock, Kenneth N., Alinezhadbalalami, Nastaran, Salameh, Zaid S., Eversole, Paige, Tintera, Benjamin, Madanick, Justin Markov, Hendricks-Wenger, Alissa, Coutermarsh-Ott, Sheryl, Davalos, Rafael V., and Allen, Irving C.

Subjects

NECROSIS, PANCREATIC tumors, PANCREATIC cancer, TUMOR microenvironment, REGULATORY T cells, MYELOID-derived suppressor cells, CYTOTOXIC T cells

Abstract

Pancreatic cancer is a significant cause of cancer-related mortality and often presents with limited treatment options. Pancreatic tumors are also notorious for their immunosuppressive microenvironment. Irreversible electroporation (IRE) is a non-thermal tumor ablation modality that employs high-voltage microsecond pulses to transiently permeabilize cell membranes, ultimately inducing cell death. However, the understanding of IRE's impact beyond the initiation of focal cell death in tumor tissue remains limited. In this study, we demonstrate that IRE triggers a unique mix of cell death pathways and orchestrates a shift in the local tumor microenvironment driven, in part, by reducing the myeloid-derived suppressor cell (MDSC) and regulatory T cell populations and increasing cytotoxic T lymphocytes and neutrophils. We further show that IRE drives induce cell cycle arrest at the G0/G1 phase in vitro and promote inflammatory cell death pathways consistent with pyroptosis and programmed necrosis in vivo. IRE-treated mice exhibited a substantial extension in progression-free survival. However, within a span of 14 days, the tumor immune cell populations reverted to their pre-treatment composition, which resulted in an attenuation of the systemic immune response targeting contralateral tumors and ultimately resulting in tumor regrowth. Mechanistically, we show that IRE augments IFN-γ signaling, resulting in the up-regulation of the PD-L1 checkpoint in pancreatic cancer cells. Together, these findings shed light on potential mechanisms of tumor regrowth following IRE treatment and offer insights into co-therapeutic targets to improve treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Obesity fosters severe disease outcomes in a mouse model of coronavirus infection associated with transcriptomic abnormalities.

Author

Rai, Pallavi, Marano, Jeffrey M., Kang, Lin, Coutermarsh‐Ott, Sheryl, Daamen, Andrea R., Lipsky, Peter E., and Weger‐Lucarelli, James

Subjects

CORONAVIRUS diseases, COVID-19, UNFOLDED protein response, LABORATORY mice, VIRAL hepatitis, ANIMAL disease models

Abstract

Obesity has been identified as an independent risk factor for severe outcomes in humans with coronavirus disease 2019 (COVID‐19) and other infectious diseases. Here, we established a mouse model of COVID‐19 using the murine betacoronavirus, mouse hepatitis virus 1 (MHV‐1). C57BL/6 and C3H/HeJ mice exposed to MHV‐1 developed mild and severe disease, respectively. Obese C57BL/6 mice developed clinical manifestations similar to those of lean controls. In contrast, all obese C3H/HeJ mice succumbed by 8 days postinfection, compared to a 50% mortality rate in lean controls. Notably, both lean and obese C3H/HeJ mice exposed to MHV‐1 developed lung lesions consistent with severe human COVID‐19, with marked evidence of diffuse alveolar damage (DAD). To identify early predictive biomarkers of worsened disease outcomes in obese C3H/HeJ mice, we sequenced RNA from whole blood 2 days postinfection and assessed changes in gene and pathway expression. Many pathways uniquely altered in obese C3H/HeJ mice postinfection aligned with those found in humans with severe COVID‐19. Furthermore, we observed altered gene expression related to the unfolded protein response and lipid metabolism in infected obese mice compared to their lean counterparts, suggesting a role in the severity of disease outcomes. This study presents a novel model for studying COVID‐19 and elucidating the mechanisms underlying severe disease outcomes in obese and other hosts. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ablative and Immunostimulatory Effects of Histotripsy Ablation in a Murine Osteosarcoma Model.

Author

Hay, Alayna N., Imran, Khan Mohammad, Hendricks-Wenger, Alissa, Gannon, Jessica M., Sereno, Jacqueline, Simon, Alex, Lopez, Victor A., Coutermarsh-Ott, Sheryl, Vlaisavljevich, Eli, Allen, Irving C., and Tuohy, Joanne L.

Subjects

OSTEOSARCOMA, DENDRITIC cells, TUMOR microenvironment, GENE expression, FIBRODYSPLASIA ossificans progressiva, IMMUNE response

Abstract

Background: Osteosarcoma (OS) is the most frequently occurring malignant bone tumor in humans, primarily affecting children and adolescents. Significant advancements in treatment options for OS have not occurred in the last several decades, and the prognosis remains grim with only a 70% rate of 5-year survival. The objective of this study was to investigate the focused ultrasound technique of histotripsy as a novel, noninvasive treatment option for OS. Methods: We utilized a heterotopic OS murine model to establish the feasibility of ablating OS tumors with histotripsy in a preclinical setting. We investigated the local immune response within the tumor microenvironment (TME) via immune cell phenotyping and gene expression analysis. Findings: We established the feasibility of ablating heterotopic OS tumors with ablation characterized microscopically by loss of cellular architecture in targeted regions of tumors. We observed greater populations of macrophages and dendritic cells within treated tumors and the upregulation of immune activating genes 72 h after histotripsy ablation. Interpretation: This study was the first to investigate histotripsy ablation for OS in a preclinical murine model, with results suggesting local immunomodulation within the TME. Our results support the continued investigation of histotripsy as a novel noninvasive treatment option for OS patients to improve clinical outcomes and patient prognosis. [ABSTRACT FROM AUTHOR]

Published

2023

5. Improved Therapeutic Delivery Targeting Clinically Relevant Orthotopic Human Pancreatic Tumors Engrafted in Immunocompromised Pigs Using Ultrasound-Induced Cavitation: A Pilot Study.

Author

Imran, Khan Mohammad, Tintera, Benjamin, Morrison, Holly A., Tupik, Juselyn D., Nagai-Singer, Margaret A., Ivester, Hannah, Council-Troche, McAlister, Edwards, Michael, Coutermarsh-Ott, Sheryl, Byron, Christopher, Clark-Deener, Sherrie, Uh, Kyungjun, Lee, Kiho, Boulos, Paul, Rowe, Cliff, Coviello, Christian, and Allen, Irving C.

Subjects

PANCREATIC tumors, CETUXIMAB, CAVITATION, MICROBUBBLE diagnosis, EXTRACELLULAR fluid, TECHNOLOGICAL innovations, PILOT projects

Abstract

Pancreatic tumors can be resistant to drug penetration due to high interstitial fluid pressure, dense stroma, and disarrayed vasculature. Ultrasound-induced cavitation is an emerging technology that may overcome many of these limitations. Low-intensity ultrasound, coupled with co-administered cavitation nuclei consisting of gas-stabilizing sub-micron scale SonoTran Particles, is effective at increasing therapeutic antibody delivery to xenograft flank tumors in mouse models. Here, we sought to evaluate the effectiveness of this approach in situ using a large animal model that mimics human pancreatic cancer patients. Immunocompromised pigs were surgically engrafted with human Panc-1 pancreatic ductal adenocarcinoma (PDAC) tumors in targeted regions of the pancreas. These tumors were found to recapitulate many features of human PDAC tumors. Animals were intravenously injected with the common cancer therapeutics Cetuximab, gemcitabine, and paclitaxel, followed by infusion with SonoTran Particles. Select tumors in each animal were targeted with focused ultrasound to induce cavitation. Cavitation increased the intra-tumor concentrations of Cetuximab, gemcitabine, and paclitaxel by 477%, 148%, and 193%, respectively, compared to tumors that were not targeted with ultrasound in the same animals. Together, these data show that ultrasound-mediated cavitation, when delivered in combination with gas-entrapping particles, improves therapeutic delivery in pancreatic tumors under clinically relevant conditions. [ABSTRACT FROM AUTHOR]

Published

2023

6. Characterizing the Ablative Effects of Histotripsy for Osteosarcoma: In Vivo Study in Dogs.

Author

Ruger, Lauren N., Hay, Alayna N., Vickers, Elliana R., Coutermarsh-Ott, Sheryl L., Gannon, Jessica M., Covell, Hannah S., Daniel, Gregory B., Laeseke, Paul F., Ziemlewicz, Timothy J., Kierski, Katharine R., Ciepluch, Brittany J., Vlaisavljevich, Eli, and Tuohy, Joanne L.

Subjects

SAFETY, PILOT projects, IN vivo studies, OSTEOSARCOMA, OPERATIVE surgery, ANIMAL experimentation, TREATMENT effectiveness, CHONDROSARCOMA, RESEARCH funding, ABLATION techniques, DOGS

Abstract

Simple Summary: Histotripsy is a non-invasive focused ultrasound therapy, in development, for treating osteosarcoma (OS). Small pilot studies describing ex vivo and in vivo histotripsy ablation of OS have demonstrated the feasibility and safety of the technique. The current study builds on the initial pilot studies to expand the characterization of the in vivo histotripsy ablation of OS. Ten canine patients with spontaneously occurring primary bone tumors received a single histotripsy treatment within their tumor before surgical removal of the mass via limb amputation one day after histotripsy. The results of this study echoed the finding that histotripsy ablation of OS is achievable while showing (1) more extensive tissue destruction relative to past in vivo ablations due to the increased treatment dose and (2) distinguishable changes in the radiographic characteristics of the tumor post-treatment. Osteosarcoma (OS) is a malignant bone tumor treated by limb amputation or limb salvage surgeries and chemotherapy. Histotripsy is a non-thermal, non-invasive focused ultrasound therapy using controlled acoustic cavitation to mechanically disintegrate tissue. Recent ex vivo and in vivo pilot studies have demonstrated the ability of histotripsy for ablating OS but were limited in scope. This study expands on these initial findings to more fully characterize the effects of histotripsy for bone tumors, particularly in tumors with different compositions. A prototype 500 kHz histotripsy system was used to treat ten dogs with suspected OS at an intermediate treatment dose of 1000 pulses per location. One day after histotripsy, treated tumors were resected via limb amputation, and radiologic and histopathologic analyses were conducted to determine the effects of histotripsy for each patient. The results of this study demonstrated that histotripsy ablation is safe and feasible in canine patients with spontaneous OS, while offering new insights into the characteristics of the achieved ablation zone. More extensive tissue destruction was observed after histotripsy compared to that in previous reports, and radiographic changes in tumor size and contrast uptake following histotripsy were reported for the first time. Overall, this study significantly expands our understanding of histotripsy bone tumor ablation and informs future studies for this application. [ABSTRACT FROM AUTHOR]

Published

2023

7. Ultrasound-guided noninvasive pancreas ablation using histotripsy: feasibility study in an in vivo porcine model.

Author

Gannon, Jessica, Imran, Khan Mohammad, Hendricks-Wenger, Alissa, Edwards, Michael, Covell, Hannah, Ruger, Lauren, Singh, Neha, Nagai-Singer, Margaret, Tintera, Benjamin, Eden, Kristin, Mendiratta-Lala, Mishal, Vidal-Jove, Joan, Luyimbazi, David, Larson, Martha, Clark-Deener, Sherrie, Coutermarsh-Ott, Sheryl, Allen, Irving C., and Vlaisavljevich, Eli

Subjects

PANCREAS, PANCREATIC tumors, ULTRASONIC imaging, COMPUTED tomography, FEASIBILITY studies, RADIOTHERAPY, IN vivo studies, NONINVASIVE ventilation

Abstract

Pancreatic cancer is a malignant disease associated with poor survival and nearly 80% present with unresectable tumors. Treatments such as chemotherapy and radiation therapy have shown overall improved survival benefits, albeit limited. Histotripsy is a noninvasive, non-ionizing, and non-thermal focused ultrasound ablation modality that has shown efficacy in treating hepatic tumors and other malignancies. In this novel study, we investigate histotripsy for noninvasive pancreas ablation in a pig model. In two studies, histotripsy was applied to the healthy pancreas in 11 pigs using a custom 32-element, 500 kHz histotripsy transducer attached to a clinical histotripsy system, with treatments guided by real-time ultrasound imaging. A pilot study was conducted in 3 fasted pigs with histotripsy applied at a pulse repetition frequency (PRF) of 500 Hz. Results showed no pancreas visualization on coaxial ultrasound imaging due to overlying intestinal gas, resulting in off-target injury and no pancreas damage. To minimize gas, a second group of pigs (n = 8) were fed a custard diet containing simethicone and bisacodyl. Pigs were euthanized immediately (n = 4) or survived for 1 week (n = 4) post-treatment. Damage to the pancreas and surrounding tissue was characterized using gross morphology, histological analysis, and CT imaging. Results showed histotripsy bubble clouds were generated inside pancreases that were visually maintained on coaxial ultrasound (n = 4), with 2 pigs exhibiting off-target damage. For chronic animals, results showed the treatments were well-tolerated with no complication signs or changes in blood markers. This study provides initial evidence suggesting histotripsy's potential for noninvasive pancreas ablation and warrants further evaluation in more comprehensive studies. [ABSTRACT FROM AUTHOR]

Published

2023

8. Histotripsy ablation for the treatment of feline injection site sarcomas: a first-in-cat in vivo feasibility study.

Author

Ruger, Lauren, Yang, Ester, Coutermarsh-Ott, Sheryl, Vickers, Elliana, Gannon, Jessica, Nightengale, Marlie, Hsueh, Andy, Ciepluch, Brittany, Dervisis, Nikolaos, Vlaisavljevich, Eli, and Klahn, Shawna

Subjects

SARCOMA, BODY surface mapping, IN vivo studies, FEASIBILITY studies, INJECTIONS, CAVITATION

Abstract

Feline soft tissue sarcoma (STS) and injection site sarcoma (fISS) are rapidly growing tumors with low metastatic potential, but locally aggressive behavior. Histotripsy is a non-invasive focused ultrasound therapy using controlled acoustic cavitation to mechanically disintegrate tissue. In this study, we investigated the in vivo safety and feasibility of histotripsy to treat fISS using a custom 1 MHz transducer. Three cats with naturally-occurring STS were treated with histotripsy before surgical removal of the tumor 3 to 6 days later. Gross and histological analyses were used to characterize the ablation efficacy of the treatment, and routine immunohistochemistry and batched cytokine analysis were used to investigate the acute immunological effects of histotripsy. Results showed that histotripsy ablation was achievable and well-tolerated in all three cats. Precise cavitation bubble clouds were generated in all patients, and hematoxylin & eosin stained tissues revealed ablative damage in targeted regions. Immunohistochemical results identified an increase in IBA-1 positive cells in treated tissues, and no significant changes in cytokine concentrations were identified post-treatment. Overall, the results of this study demonstrate the safety and feasibility of histotripsy to target and ablate superficial feline STS and fISS tumors and guide the clinical development of histotripsy devices for this application. [ABSTRACT FROM AUTHOR]

Published

2023

9. Retroperitoneal myxosarcoma in a cat.

Author

Hixson, Haleigh, Coutermarsh‐Ott, Sheryl, Ciepluch, Brittany, Kierski, Katharine, Lahmers, Kevin, and Tuohy, Joanne

Subjects

SURGICAL excision, HISTOPATHOLOGY

Abstract

This report details a retroperitoneal myxosarcoma in a cat that exhibited extremely aggressive biological behavior. An exploratory midline celiotomy revealed a left‐sided retroperitoneal mass firmly adhered to the hypaxial musculature. Histopathological evaluation identified the mass as a myxosarcoma. Following surgical excision, the mass rapidly recurred within 6 weeks after surgery. [ABSTRACT FROM AUTHOR]

Published

2022

10. High intensity focused ultrasound for the treatment of solid tumors: a pilot study in canine cancer patients.

Author

Carroll, Jennifer, Coutermarsh-Ott, Sheryl, Klahn, Shawna L., Tuohy, Joanne, Barry, Sabrina L., Allen, Irving C., Hay, Alayna N., Ruth, Jeffrey, and Dervisis, Nick

Subjects

HIGH-intensity focused ultrasound, MAST cell tumors, TUMOR treatment, ABLATION techniques, SARCOMA, PILOT projects

Abstract

Purpose: To investigate the safety, feasibility, and outcomes of High-Intensity Focused Ultrasound (HIFU) for the treatment of solid tumors in a spontaneous canine cancer model. Methods: Dogs diagnosed with subcutaneous solid tumors were recruited, staged and pretreatment biopsies were obtained. A single HIFU treatment was delivered to result in partial tumor ablation using a commercially available HIFU unit. Tumors were resected 3–6 days post HIFU and samples obtained for histopathology and immunohistochemistry. Total RNA was isolated from paired pre and post treated FFPE tumor samples, and quantitative gene expression analysis was performed using the nCounter Canine IO Panel. Results: A total of 20 dogs diagnosed with solid tumors were recruited and treated in the study. Tumors treated included Soft Tissue Sarcoma (n ¼ 15), Mast Cell Tumor (n ¼ 3), Osteosarcoma (n ¼ 1), and Thyroid Carcinoma (n ¼ 1). HIFU was well tolerated with only 1 dog experiencing a clinically significant adverse event. Pathology confirmed the presence of complete tissue ablation at the HIFU targeted site and immunohistochemistry indicated immune cell infiltration at the treated/untreated tumor border. Quantitative gene expression analysis indicated that 28 genes associated with T-cell activation were differentially expressed post-HIFU. Conclusions: HIFU appears to be safe and feasible for the treatment of subcutaneous canine solid tumors, resulting in ablation of the targeted tissue. HIFU induced immunostimulatory changes, highlighting the canine cancer patient as an attractive model for studying the effects of focal ablation therapies on the tumor microenvironment. [ABSTRACT FROM AUTHOR]

Published

2022

11. Histotripsy Ablation in Preclinical Animal Models of Cancer and Spontaneous Tumors in Veterinary Patients: A Review.

Author

Hendricks-Wenger, Alissa, Arnold, Lauren, Gannon, Jessica, Simon, Alex, Singh, Neha, Sheppard, Hannah, Nagai-Singer, Margaret A., Imran, Khan Mohammad, Lee, Kiho, Clark-Deener, Sherrie, Byron, Christopher, Edwards, Michael R., Larson, Martha M., Rossmeisl, John H., Coutermarsh-Ott, Sheryl L., Eden, Kristin, Dervisis, Nikolaos, Klahn, Shawna, Tuohy, Joanne, and Allen, Irving Coy

Subjects

ANIMAL models in research, TUMORS, VETERINARY vaccines, DESIGN techniques

Abstract

New therapeutic strategies are direly needed in the fight against cancer. Over the last decade, several tumor ablation strategies have emerged as stand-alone or combination therapies. Histotripsy is the first completely noninvasive, nonthermal, and nonionizing tumor ablation method. Histotripsy can produce consistent and rapid ablations, even near critical structures. Additional benefits include real-time image guidance, high precision, and the ability to treat tumors of any predetermined size and shape. Unfortunately, the lack of clinically and physiologically relevant preclinical cancer models is often a significant limitation with all focal tumor ablation strategies. The majority of studies testing histotripsy for cancer treatment have focused on small animal models, which have been critical in moving this field forward and will continue to be essential for providing mechanistic insight. While these small animal models have notable translational value, there are significant limitations in terms of scale and anatomical relevance. To address these limitations, a diverse range of large animal models and spontaneous tumor studies in veterinary patients have emerged to complement existing rodent models. These models and veterinary patients are excellent at providing realistic avenues for developing and testing histotripsy devices and techniques designed for future use in human patients. Here, we provide a review of animal models used in preclinical histotripsy studies and compare histotripsy ablation in these models using a series of original case reports across a broad spectrum of preclinical animal models and spontaneous tumors in veterinary patients. [ABSTRACT FROM AUTHOR]

Published

2022

12. Histotripsy Ablation Alters the Tumor Microenvironment and Promotes Immune System Activation in a Subcutaneous Model of Pancreatic Cancer.

Author

Hendricks-Wenger, Alissa, Sereno, Jacqueline, Gannon, Jessica, Zeher, Allison, Brock, Rebecca M., Beitel-White, Natalie, Simon, Alexander, Davalos, Rafael V., Coutermarsh-Ott, Sheryl, Vlaisavljevich, Eli, and Allen, Irving Coy

Subjects

PANCREATIC cancer, TUMOR microenvironment, IMMUNE system, OVERALL survival, SURVIVAL rate, TUMOR lysis syndrome

Abstract

Pancreatic cancer is a significant cause of cancer-related deaths in the United States with an abysmal five-year overall survival rate that is under 9%. Reasons for this mortality include the lack of late-stage treatment options and the immunosuppressive tumor microenvironment. Histotripsy is an ultrasound-guided, noninvasive, nonthermal tumor ablation therapy that mechanically lyses targeted cells. To study the effects of histotripsy on pancreatic cancer, we utilized an in vitro model of pancreatic adenocarcinoma and compared the release of potential antigens following histotripsy treatment to other ablation modalities. Histotripsy was found to release immune-stimulating molecules at magnitudes similar to other nonthermal ablation modalities and superior to thermal ablation modalities, which corresponded to increased innate immune system activation in vivo. In subsequent in vivo studies, murine Pan02 tumors were grown in mice and treated with histotripsy. Flow cytometry and rtPCR were used to determine changes in the tumor microenvironment over time compared to untreated animals. In mice with pancreatic tumors, we observed significantly increased tumor-progression-free and general survival, with increased activation of the innate immune system 24 h posttreatment and decreased tumor-associated immune cell populations within 14 days of treatment. This study demonstrates the feasibility of using histotripsy for pancreatic cancer ablation and provides mechanistic insight into the initial innate immune system activation following treatment. Further work is needed to establish the mechanisms behind the immunomodulation of the tumor microenvironment and immune effects. [ABSTRACT FROM AUTHOR]

Published

2021

13. Histotripsy for the Treatment of Cholangiocarcinoma Liver Tumors: In Vivo Feasibility and Ex Vivo Dosimetry Study.

Author

Hendricks-Wenger, Alissa, Weber, Peter, Simon, Alex, Saunier, Sofie, Coutermarsh-Ott, Sheryl, Grider, Douglas, Vidal-Jove, Joan, Allen, Irving Coy, Luyimbazi, David, and Vlaisavljevich, Eli

Subjects

LIVER tumors, INTRAHEPATIC bile ducts, TISSUE mechanics, LABORATORY mice, CHOLANGIOCARCINOMA, RADIATION dosimetry

Abstract

Histotripsy is a noninvasive, nonionizing, and nonthermal focused ultrasound ablation method that is currently being developed for the treatment of liver cancer. Promisingly, histotripsy has been shown for ablating primary [hepatocellular carcinoma (HCC)] and metastatic [colorectal liver metastasis (CLM)] liver tumors in preclinical and early clinical studies. The feasibility of treating cholangiocarcinoma (CC), a less common primary liver tumor that arises from the bile ducts, has not been explored previously. Given that prior work has established that histotripsy susceptibility is based on tissue mechanical properties, there is a need to explore histotripsy as a treatment for CC due to its dense fibrotic stromal components. In this work, we first investigated the feasibility of histotripsy for ablating CC tumors in vivo in a patient-derived xenograft mouse model. The results showed that histotripsy could generate CC tumor ablation using a 1-MHz small animal histotripsy system with treatment doses of 250, 500, and 1000 pulses/point. The second set of experiments compared the histotripsy doses required to ablate CC tumors to HCC and CLM tumors ex vivo. For this, human tumor samples were harvested after surgery and treated ex vivo with a 700-kHz clinical histotripsy transducer. Results demonstrated that significantly higher treatment doses were required to ablate CC and CLM tumors compared to HCC, with the highest treatment dose required for CC tumors. Overall, the results of this study suggest that histotripsy has the potential to be used for the ablation of CC tumors while also highlighting the need for tumor-specific treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2021

14. Focused ultrasound tumour ablation in small animal oncology.

Author

Latifi, Max, Hay, Alayna, Carroll, Jennifer, Dervisis, Nikolaos, Arnold, Lauren, Coutermarsh‐Ott, Sheryl L., Kierski, Katharine R., Klahn, Shawna, Allen, Irving C., Vlaisavljevich, Eli, and Tuohy, Joanne

Subjects

ULTRASONIC imaging, CAUSES of death, ABLATION techniques, TUMORS, HIGH-intensity focused ultrasound, ONCOLOGY

Abstract

The cancer incidence rates for humans and animals remain high, and efforts to improve cancer treatment are crucial. Cancer treatment for solid tumours includes both treatment of the primary tumour and of metastasis. Surgery is commonly employed to resect primary and metastatic tumours, but is invasive, and is not always the optimal treatment modality. Prevention and treatment of metastatic disease often utilizes a multimodal approach, but metastasis remains a major cause of death for both human and veterinary cancer patients. Focused ultrasound (FUS) tumour ablation techniques represent a novel non‐invasive approach to treating cancer. FUS ablation is precise, thus sparing adjacent critical structures while ablating the tumour. FUS ablation can occur in a thermal or non‐thermal fashion. Thermal FUS ablation, also known as high intensity focused ultrasound (HIFU) ablation, destroys tumour cells via heat, whereas non‐thermal FUS, known as histotripsy, ablates tumour cells via mechanical disintegration of tissue. Not only can HIFU and histotripsy ablate tumours, they also demonstrate potential to upregulate the host immune system towards an anti‐tumour response. The aim of this report is provide a description of HIFU and histotripsy tumour ablation, with a focus on the basic principles of their ablation mechanisms and their clinical applicability in the field of veterinary oncology. [ABSTRACT FROM AUTHOR]

Published

2021

15. Establishing an immunocompromised porcine model of human cancer for novel therapy development with pancreatic adenocarcinoma and irreversible electroporation.

Author

Hendricks-Wenger, Alissa, Aycock, Kenneth N., Nagai-Singer, Margaret A., Coutermarsh-Ott, Sheryl, Lorenzo, Melvin F., Gannon, Jessica, Uh, Kyungjun, Farrell, Kayla, Beitel-White, Natalie, Brock, Rebecca M., Simon, Alexander, Morrison, Holly A., Tuohy, Joanne, Clark-Deener, Sherrie, Vlaisavljevich, Eli, Davalos, Rafael V., Lee, Kiho, and Allen, Irving C.

Subjects

ELECTROPORATION, PANCREATIC cancer, CANCER treatment, XENOGRAFTS, ANIMAL models in research

Abstract

New therapies to treat pancreatic cancer are direly needed. However, efficacious interventions lack a strong preclinical model that can recapitulate patients' anatomy and physiology. Likewise, the availability of human primary malignant tissue for ex vivo studies is limited. These are significant limitations in the biomedical device field. We have developed RAG2/IL2RG deficient pigs using CRISPR/Cas9 as a large animal model with the novel application of cancer xenograft studies of human pancreatic adenocarcinoma. In this proof-of-concept study, these pigs were successfully generated using on-demand genetic modifications in embryos, circumventing the need for breeding and husbandry. Human Panc01 cells injected subcutaneously into the ears of RAG2/IL2RG deficient pigs demonstrated 100% engraftment with growth rates similar to those typically observed in mouse models. Histopathology revealed no immune cell infiltration and tumor morphology was highly consistent with the mouse models. The electrical properties and response to irreversible electroporation of the tumor tissue were found to be similar to excised human pancreatic cancer tumors. The ample tumor tissue produced enabled improved accuracy and modeling of the electrical properties of tumor tissue. Together, this suggests that this model will be useful and capable of bridging the gap of translating therapies from the bench to clinical application. [ABSTRACT FROM AUTHOR]

Published

2021

16. Multi-Tissue Analysis on the Impact of Electroporation on Electrical and Thermal Properties.

Author

Beitel-White, Natalie, Lorenzo, Melvin F., Zhao, Yajun, Brock, Rebecca M., Coutermarsh-Ott, Sheryl, Allen, Irving C., Manuchehrabadi, Navid, and Davalos, Rafael V.

Subjects

THERMAL properties, ELECTROPORATION, THERMAL conductivity, CELL membranes, ELECTRIC fields

Abstract

Objective: Tissue electroporation is achieved by applying a series of electric pulses to destabilize cell membranes within the target tissue. The treatment volume is dictated by the electric field distribution, which depends on the pulse parameters and tissue type and can be readily predicted using numerical methods. These models require the relevant tissue properties to be known beforehand. This study aims to quantify electrical and thermal properties for three different tissue types relevant to current clinical electroporation. Methods: Pancreatic, brain, and liver tissue were harvested from pigs, then treated with IRE pulses in a parallel-plate configuration. Resulting current and temperature readings were used to calculate the conductivity and its temperature dependence for each tissue type. Finally, a computational model was constructed to examine the impact of differences between tissue types. Results: Baseline conductivity values (mean 0.11, 0.14, and 0.12 S/m) and temperature coefficients of conductivity (mean 2.0, 2.3, and 1.2 % per degree Celsius) were calculated for pancreas, brain, and liver, respectively. The accompanying computational models suggest field distribution and thermal damage volumes are dependent on tissue type. Conclusion: The three tissue types show similar electrical and thermal responses to IRE, though brain tissue exhibits the greatest differences. The results also show that tissue type plays a role in the expected ablation and thermal damage volumes. Significance: The conductivity and its changes due to heating are expected to have a marked impact on the ablation volume. Incorporating these tissue properties aids in the prediction and optimization of electroporation-based therapies. [ABSTRACT FROM AUTHOR]

Published

2021

17. Clinical outcomes in dogs with localized splenic histiocytic sarcoma treated with splenectomy with or without adjuvant chemotherapy.

Author

Latifi, Max, Tuohy, Joanne L., Coutermarsh‐Ott, Sheryl L., Klahn, Shawna L., Leeper, Haley, and Dervisis, Nikolaos

Subjects

ADJUVANT chemotherapy, RETICULUM cell sarcoma, DOGS, SURVIVAL analysis (Biometry), DESCRIPTIVE statistics, PLATELET count, MONONUCLEOSIS

Abstract

Background: Localized splenic histiocytic sarcoma (HS) in dogs is a poorly understood disease, and could have longer survival times than disseminated or hemophagocytic HS. Understanding the clinical behavior of localized splenic HS can refine treatment recommendations. Objective: To describe the clinical characteristics and outcomes of dogs with localized splenic HS. Animals Fourteen client‐owned dogs with histologically confirmed splenic HS that received splenectomy. Methods: Multi‐institutional retrospective case series—medical records of dogs with splenic HS were reviewed. Dog signalment, clinicopathologic data, primary and adjuvant treatments, and outcomes were obtained. Survival data were calculated using Kaplan‐Meier analysis. Dog variables such as age, weight, platelet counts were reported using descriptive statistics. The Cox proportional hazards regression method was used to determine whether potential risk factors (weight, age, albumin level, hematocrit, and platelet count) were associated with PFI. Results: Median survival time for the dogs in this study was 427 days. Twelve dogs received adjuvant lomustine‐based chemotherapy. Five dogs (35.7%) were suspected or confirmed to have developed metastatic disease. Eleven dogs died of disease, 1 dog died of unrelated cause, and 2 dogs were alive at final follow‐up. Conclusions and Clinical Significance: Histiocytic sarcoma in dogs can manifest as a localized form in the spleen. Dogs with localized splenic HS treated with surgery ± chemotherapy can experience survival times over a year. [ABSTRACT FROM AUTHOR]

Published

2020

18. Differential pathogenesis of Usutu virus isolates in mice.

Author

Kuchinsky, Sarah C., Hawks, Seth A., Mossel, Eric C., Coutermarsh-Ott, Sheryl, and Duggal, Nisha K.

Subjects

PATHOGENESIS, WEST Nile virus, ALPHAVIRUSES, MICE

Abstract

Usutu virus (USUV; Flavivirus), a close phylogenetic and ecological relative of West Nile virus, is a zoonotic virus that can cause neuroinvasive disease in humans. USUV is maintained in an enzootic cycle between Culex mosquitoes and birds. Since the first isolation in 1959 in South Africa, USUV has spread throughout Africa and Europe. Reported human cases have increased over the last few decades, primarily in Europe, with symptoms ranging from mild febrile illness to severe neurological effects. In this study, we investigated whether USUV has become more pathogenic during emergence in Europe. Interferon α/β receptor knockout (Ifnar1-/-) mice were inoculated with recent USUV isolates from Africa and Europe, as well as the historic 1959 South African strain. The three tested African strains and one European strain from Spain caused 100% mortality in inoculated mice, with similar survival times and histopathology in tissues. Unexpectedly, a European strain from the Netherlands caused only 12% mortality and significantly less histopathology in tissues from mice compared to mice inoculated with the other strains. Viremia was highest in mice inoculated with the recent African strains and lowest in mice inoculated with the Netherlands strain. Based on phylogenetics, the USUV isolates from Spain and the Netherlands were derived from separate introductions into Europe, suggesting that disease outcomes may differ for USUV strains circulating in Europe. These results also suggest that while more human USUV disease cases have been reported in Europe recently, circulating African USUV strains are still a potential major health concern. Author summary: Usutu virus (USUV) is an emerging mosquito-borne virus that causes severe neuroinvasive disease in humans. USUV was first detected in Africa in 1959, and cases of human disease have increased in recent years. Most USUV disease cases are now reported in Europe, where the virus currently circulating. One possibility for the increase in case numbers is that USUV strains have become more pathogenic over time during its spread from Africa into Europe. We compared the pathogenesis of five USUV isolates from Africa and Europe in a mouse model. Three isolates from Africa and one isolate from Europe caused 100% mortality in mice. Surprisingly, one isolate from Netherlands caused only 12% motality. Significantly less histopathology was observed in tissues from mice inoculated with the Netherlands strain compared to mice inoculated with the other four strains. Our results suggest that, even though more human USUV disease cases have been reported in Europe recently, African USUV strains are also highly pathogenic. [ABSTRACT FROM AUTHOR]

Published

2020

19. "Small" Intestinal Immunopathology Plays a "Big" Role in Lethal Cytokine Release Syndrome, and Its Modulation by Interferon-γ, IL-17A, and a Janus Kinase Inhibitor.

Author

Kale, Shiv D., Mehrkens, Brittney N., Stegman, Molly M., Kastelberg, Bridget, Carnes, Henry, McNeill, Rachel J., Rizzo, Amy, Karyala, Saikumar V., Coutermarsh-Ott, Sheryl, Fretz, Jackie A., Sun, Ying, Koff, Jonathan L., and Rajagopalan, Govindarajan

Subjects

CYTOKINE release syndrome, TOXIC shock syndrome, COVID-19, IMMUNOPATHOLOGY, T cell receptors, HLA-B27 antigen, CHIMERIC antigen receptors, KINASE inhibitors

Abstract

Chimeric antigen receptor T cell (CART) therapy, administration of certain T cell-agonistic antibodies, immune check point inhibitors, coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome–coronavirus 2 (SARS-CoV-2) and Toxic shock syndrome (TSS) caused by streptococcal as well as staphylococcal superantigens share one common complication, that is T cell-driven cytokine release syndrome (CRS) accompanied by multiple organ dysfunction (MOD). It is not understood whether the failure of a particular organ contributes more significantly to the severity of CRS. Also not known is whether a specific cytokine or signaling pathway plays a more pathogenic role in precipitating MOD compared to others. As a result, there is no specific treatment available to date for CRS, and it is managed only symptomatically to support the deteriorating organ functions and maintain the blood pressure. Therefore, we used the superantigen-induced CRS model in HLA-DR3 transgenic mice, that closely mimics human CRS, to delineate the immunopathogenesis of CRS as well as to validate a novel treatment for CRS. Using this model, we demonstrate that (i) CRS is characterized by a rapid rise in systemic levels of several Th1/Th2/Th17/Th22 type cytokines within a few hours, followed by a quick decline. (ii) Even though multiple organs are affected, small intestinal immunopathology is the major contributor to mortality in CRS. (iii) IFN-γ deficiency significantly protected from lethal CRS by attenuating small bowel pathology, whereas IL-17A deficiency significantly increased mortality by augmenting small bowel pathology. (iv) RNA sequencing of small intestinal tissues indicated that IFN-γ-STAT1-driven inflammatory pathways combined with enhanced expression of pro-apoptotic molecules as well as extracellular matrix degradation contributed to small bowel pathology in CRS. These pathways were further enhanced by IL-17A deficiency and significantly down-regulated in mice lacking IFN-γ. (v) Ruxolitinib, a selective JAK-1/2 inhibitor, attenuated SAg-induced T cell activation, cytokine production, and small bowel pathology, thereby completely protecting from lethal CRS in both WT and IL-17A deficient HLA-DR3 mice. Overall, IFN-γ-JAK-STAT-driven pathways contribute to lethal small intestinal immunopathology in T cell-driven CRS. [ABSTRACT FROM AUTHOR]

Published

2020

20. Pulmonary Exposure to Magnéli Phase Titanium Suboxides Results in Significant Macrophage Abnormalities and Decreased Lung Function.

Author

McDaniel, Dylan K., Ringel-Scaia, Veronica M., Morrison, Holly A., Coutermarsh-Ott, Sheryl, Council-Troche, McAlister, Angle, Jonathan W., Perry, Justin B., Davis, Grace, Leng, Weinan, Minarchick, Valerie, Yang, Yi, Chen, Bo, Reece, Sky W., Brown, David A., Cecere, Thomas E., Brown, Jared M., Gowdy, Kymberly M., Hochella, Michael F., and Allen, Irving C.

Subjects

POLLUTANTS, GENE expression profiling, TITANIUM, COAL combustion, EPITHELIAL cells

Abstract

Coal is one of the most abundant and economic sources for global energy production. However, the burning of coal is widely recognized as a significant contributor to atmospheric particulate matter linked to deleterious respiratory impacts. Recently, we have discovered that burning coal generates large quantities of otherwise rare Magnéli phase titanium suboxides from TiO2 minerals naturally present in coal. These nanoscale Magnéli phases are biologically active without photostimulation and toxic to airway epithelial cells in vitro and to zebrafish in vivo. Here, we sought to determine the clinical and physiological impact of pulmonary exposure to Magnéli phases using mice as mammalian model organisms. Mice were exposed to the most frequently found Magnéli phases, Ti6O11, at 100 parts per million (ppm) via intratracheal administration. Local and systemic titanium concentrations, lung pathology, and changes in airway mechanics were assessed. Additional mechanistic studies were conducted with primary bone marrow derived macrophages. Our results indicate that macrophages are the cell type most impacted by exposure to these nanoscale particles. Following phagocytosis, macrophages fail to properly eliminate Magnéli phases, resulting in increased oxidative stress, mitochondrial dysfunction, and ultimately apoptosis. In the lungs, these nanoparticles become concentrated in macrophages, resulting in a feedback loop of reactive oxygen species production, cell death, and the initiation of gene expression profiles consistent with lung injury within 6 weeks of exposure. Chronic exposure and accumulation of Magnéli phases ultimately results in significantly reduced lung function impacting airway resistance, compliance, and elastance. Together, these studies demonstrate that Magnéli phases are toxic in the mammalian airway and are likely a significant nanoscale environmental pollutant, especially in geographic regions where coal combustion is a major contributor to atmospheric particulate matter. [ABSTRACT FROM AUTHOR]

Published

2019

21. Host nutritional status affects alphavirus virulence, transmission, and evolution.

Author

Weger-Lucarelli, James, Carrau, Lucia, Levi, Laura I., Rezelj, Veronica, Vallet, Thomas, Blanc, Hervé, Boussier, Jérémy, Megrian, Daniela, Coutermarsh-Ott, Sheryl, LeRoith, Tanya, and Vignuzzi, Marco

Subjects

ARBOVIRUS diseases, NUTRITIONAL status, ALPHAVIRUS diseases, VIRUS diseases, ARBOVIRUSES, SYMPTOMS, PATHOLOGY

Abstract

Malnourishment, specifically overweight/obesity and undernourishment, affects more than 2.5 billion people worldwide, with the number affected ever-increasing. Concurrently, emerging viral diseases, particularly those that are mosquito-borne, have spread dramatically in the past several decades, culminating in outbreaks of several viruses worldwide. Both forms of malnourishment are known to lead to an aberrant immune response, which can worsen disease outcomes and reduce vaccination efficacy for viral pathogens such as influenza and measles. Given the increasing rates of malnutrition and spread of arthropod-borne viruses (arboviruses), there is an urgent need to understand the role of host nutrition on the infection, virulence, and transmission of these viruses. To address this gap in knowledge, we infected lean, obese, and undernourished mice with arthritogenic arboviruses from the genus Alphavirus and assessed morbidity, virus replication, transmission, and evolution. Obesity and undernourishment did not consistently influence virus replication in the blood of infected animals except for reductions in virus in obese mice late in infection. However, morbidity was increased in obese mice under all conditions. Using Mayaro virus (MAYV) as a model arthritogenic alphavirus, we determined that both obese and undernourished mice transmit virus less efficiently to mosquitoes than control (lean) mice. In addition, viral genetic diversity and replicative fitness were reduced in virus isolated from obese compared to lean controls. Taken together, nutrition appears to alter the course of alphavirus infection and should be considered as a critical environmental factor during outbreaks. Author summary: Over- and undernutrition, collectively known as malnutrition, affect over 2.5 billion people worldwide. Associations between malnutrition and mosquito-borne virus infection and resulting disease have been identified in epidemiological studies but have not been explored in controlled studies. Here, we infect obese or undernourished mice with different arthritis inducing viruses in the genus Alphavirus and measure disease symptoms, viral replication, transmission, and evolution. We found that markers of disease, namely weight loss and footpad swelling, were increased in obese mice. We also found that replication differences between mice fed different diets were minimal except late in infection for obese mice when levels of virus dropped significantly. When mosquitoes were allowed to feed on mice fed different diets, we observed reduced infection and transmission rates, depending on the diet. Finally, we found reduced genetic diversity and replicative fitness of virus isolated from obese mice. This study provides insights into the influence of nutrition on alphavirus pathogenesis and evolution. [ABSTRACT FROM AUTHOR]

Published

2019

22. Eosinophilic leukemia in three African pygmy hedgehogs (Atelerix albiventris) and validation of Luna stain.

Author

Martínez-Jiménez, David, Garner, Bridget, Coutermarsh-Ott, Sheryl, Burrell, Caitlin, Clark, Sabrina, Nabity, Mary, Díaz-Delgado, Josué, Rodrigues-Hoffmann, Aline, Zaks, Karen, Proença, Laila, Divers, Stephen, Saba, Corey, and Cazzini, Paola

Subjects

HEMATOPOIESIS, MYELOPROLIFERATIVE neoplasms, HEDGEHOGS, DISEASES

Abstract

Neoplasia is usually encountered in the African pygmy hedgehog at a mean age of 3.5 y, and malignancy is common. Myelogenous leukemias are rarely reported in hedgehogs. We describe 3 cases of eosinophilic leukemia in adult, middle-aged (mean age: 2.3 y) hedgehogs, for which prognosis appears grave. In 1 case, attempted treatment was unsuccessful, and in all 3 cases, the disease course was rapid and all died soon after diagnosis. Blood smear evaluation, along with complete blood count, was critical in making the diagnosis in all cases. Luna stain was validated and used to better visualize eosinophils in cytologic and histologic sections. Electron microscopy confirmed the presence of specific granules in hedgehog eosinophils. [ABSTRACT FROM AUTHOR]

Published

2017

23. Caspase-11 Modulates Inflammation and Attenuates Toxoplasma gondii Pathogenesis.

Author

Coutermarsh-Ott, Sheryl L., Doran, John T., Campbell, Caroline, Williams, Tere M., Lindsay, David S., and Allen, Irving C.

Subjects

TOXOPLASMA gondii, SPONDYLODISCITIS, CEREBRAL toxoplasmosis, SPINE diseases, INFLAMMATION

Abstract

Toxoplasma gondii is an obligate intracellular parasite that is the etiologic agent responsible for toxoplasmosis. Infection with T. gondii results in activation of nucleotide binding domain and leucine rich repeat containing receptors (NLRs). NLR activation leads to inflammasome formation, the activation of caspase-1, and the subsequent cleavage of IL-1β and IL-18. Recently, a noncanonical inflammasome has been characterized which functions through caspase-11 and appears to augment many biological functions previously considered to be dependent upon the canonical inflammasome. To better elucidate the function of this noncanonical inflammasome in toxoplasmosis, we utilized Asc−/− and Casp11−/− mice and infected these animals with T. gondii. Our data indicates that caspase-11 modulates the innate immune response to T. gondii through a mechanism which is distinct from that currently described for the canonical inflammasome. Asc−/− mice demonstrated increased disease pathogenesis during the acute phase of T. gondii infection, whereas Casp11−/− mice demonstrated significantly attenuated disease pathogenesis and reduced inflammation. This attenuated host response was associated with reduced local and systemic cytokine production, including diminished IL-1β. During the chronic phase of infection, caspase-11 deficiency resulted in increased neuroinflammation and tissue cyst burden in the brain. Together, our data suggest that caspase-11 functions to protect the host by enhancing inflammation during the early phase of infection in an effort to minimize disease pathogenesis during later stages of toxoplasmosis. [ABSTRACT FROM AUTHOR]

Published

2016

24. Nonessential Role for the NLRP1 Inflammasome Complex in a Murine Model of Traumatic Brain Injury.

Author

Brickler, Thomas, Gresham, Kisha, Meza, Armand, Coutermarsh-Ott, Sheryl, Williams, Tere M., Rothschild, Daniel E., Allen, Irving C., and Theus, Michelle H.

Subjects

INFLAMMASOMES, IMMUNOREGULATION, BRAIN injuries, LABORATORY mice, NATURAL immunity, GENETICS

Abstract

Traumatic brain injury (TBI) elicits the immediate production of proinflammatory cytokines which participate in regulating the immune response. While the mechanisms of adaptive immunity in secondary injury are well characterized, the role of the innate response is unclear. Recently, the NLR inflammasome has been shown to become activated following TBI, causing processing and release of interleukin-1β (IL-1β). The inflammasome is a multiprotein complex consisting of nucleotide-binding domain and leucine-rich repeat containing proteins (NLR), caspase-1, and apoptosis-associated speck-like protein (ASC). ASC is upregulated after TBI and is critical in coupling the proteins during complex formation resulting in IL-1β cleavage. To directly test whether inflammasome activation contributes to acute TBI-induced damage, we assessed IL-1β, IL-18, and IL-6 expression, contusion volume, hippocampal cell death, and motor behavior recovery in Nlrp1−/−, Asc−/−, and wild type mice after moderate controlled cortical impact (CCI) injury. Although IL-1β expression is significantly attenuated in the cortex of Nlrp1−/− and Asc−/− mice following CCI injury, no difference in motor recovery, cell death, or contusion volume is observed compared to wild type. These findings indicate that inflammasome activation does not significantly contribute to acute neural injury in the murine model of moderate CCI injury. [ABSTRACT FROM AUTHOR]

Published

2016

25. Caspase-11 attenuates gastrointestinal inflammation and experimental colitis pathogenesis.

Author

Williams, Tere M., Leeth, Rachel A., Rothschild, Daniel E., McDaniel, Dylan K., Coutermarsh-Ott, Sheryl L., Simmons, Alysha E., Kable, Kye H., Heid, Bettina, and Allen, Irving C.

Subjects

CASPASES, GASTROINTESTINAL diseases, INFLAMMATORY bowel diseases, COLITIS, IMMUNE system, LEUCINE, DEXTRAN sulfate

Abstract

Nucleotide-binding domain and leucine-rich repeat containing protein inflammasome formation plays an essential role in modulating immune system homeostasis in the gut. Recently, a caspase-11 noncanonical inflammasome has been characterized and appears to modulate many biological functions that were previously considered to be solely dependent on caspase-1 and the canonical inflammasome. To better elucidate the function of this noncanonical inflammasome during inflammatory bowel disease, experimental colitis was induced in wild-type and Casp11-/- mice utilizing dextran sulfate sodium (DSS). Here, we report that caspase-11 attenuates acute experimental colitis pathogenesis. Casp11-/- mice showed significantly increased morbidity and colon inflammation following DSS exposure. Subsequent cytokine analysis revealed that IL-1β and IL-18 levels in the colon were significantly reduced in the Casp11-/- mice compared with the wild-type animals. Additional mechanistic studies utilizing IL-1β and IL-18 reconstitution revealed that Casp11-/- hypersensitivity was associated with the loss of both of these cytokines. Bone marrow reconstitution experiments further revealed that caspase-11 gene expression and function in both hematopoietic- and nonhematopoietic-derived cells contribute to disease attenuation. Interestingly, unlike caspase-1, caspase-11 does not appear to influence relapsing remitting disease progression or the development of colitis-associated tumorigenesis. Together, these data identify caspase-11 as a critical factor protecting the host during acute DSS-induced colonic injury and inflammation but not during chronic inflammation and tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2015

26. Correction: Differential pathogenesis of Usutu virus isolates in mice.

Author

Kuchinsky, Sarah C., Hawks, Seth A., Mossel, Eric C., Coutermarsh-Ott, Sheryl, and Duggal, Nisha K.

Subjects

MICE, PATHOGENESIS

Abstract

The virus isolate UG09615 is incorrectly reported throughout the article as isolated in 2010 in Uganda. Reference 1 Kuchinsky SC, Hawks SA, Mossel EC, Coutermarsh-Ott S, Duggal NK (2020) Differential pathogenesis of Usutu virus isolates in mice. [Extracted from the article]

Published

2022

27. Enemy of My Enemy: A Novel Insect-Specific Flavivirus Offers a Promising Platform for a Zika Virus Vaccine.

Author

Porier, Danielle L., Wilson, Sarah N., Auguste, Dawn I., Leber, Andrew, Coutermarsh-Ott, Sheryl, Allen, Irving C., Caswell, Clayton C., Budnick, James A., Bassaganya-Riera, Josep, Hontecillas, Raquel, Weger-Lucarelli, James, Weaver, Scott C., and Auguste, Albert J.

Subjects

ZIKA virus, VIRAL vaccines, VIRUS diseases, DISEASE outbreaks, VACCINE development

Abstract

Vaccination remains critical for viral disease outbreak prevention and control, but conventional vaccine development typically involves trade-offs between safety and immunogenicity. We used a recently discovered insect-specific flavivirus as a vector in order to develop an exceptionally safe, flavivirus vaccine candidate with single-dose efficacy. To evaluate the safety and efficacy of this platform, we created a chimeric Zika virus (ZIKV) vaccine candidate, designated Aripo/Zika virus (ARPV/ZIKV). ZIKV has caused immense economic and public health impacts throughout the Americas and remains a significant public health threat. ARPV/ZIKV vaccination showed exceptional safety due to ARPV/ZIKV's inherent vertebrate host-restriction. ARPV/ZIKV showed no evidence of replication or translation in vitro and showed no hematological, histological or pathogenic effects in vivo. A single-dose immunization with ARPV/ZIKV induced rapid and robust neutralizing antibody and cellular responses, which offered complete protection against ZIKV-induced morbidity, mortality and in utero transmission in immune-competent and -compromised murine models. Splenocytes derived from vaccinated mice demonstrated significant CD4+ and CD8+ responses and significant cytokine production post-antigen exposure. Altogether, our results further support that chimeric insect-specific flaviviruses are a promising strategy to restrict flavivirus emergence via vaccine development. [ABSTRACT FROM AUTHOR]

Published

2021

28. ASC-Mediated Inflammation and Pyroptosis Attenuates Brucella abortus Pathogenesis Following the Recognition of gDNA.

Author

Tupik, Juselyn D., Coutermarsh-Ott, Sheryl L., Benton, Angela H., King, Kellie A., Kiryluk, Hanna D., Caswell, Clayton C., and Allen, Irving C.

Subjects

BRUCELLA abortus, PATTERN perception receptors, CELL death, BRUCELLOSIS, BRUCELLA

Abstract

Brucella abortus is a zoonotic pathogen that causes brucellosis. Because of Brucella's unique LPS layer and intracellular localization predominately within macrophages, it can often evade immune detection. However, pattern recognition receptors are capable of sensing Brucella pathogen-associated molecular patterns (PAMPS). For example, NOD-like receptors (NLRs) can form a multi-protein inflammasome complex to attenuate Brucella pathogenesis. The inflammasome activates IL-1β and IL-18 to drive immune cell recruitment. Alternatively, inflammasome activation also initiates inflammatory cell death, termed pyroptosis, which augments bacteria clearance. In this report, we assess canonical and non-canonical inflammasome activation following B. abortus infection. We conducted in vivo studies using Asc−/− mice and observed decreased mouse survival, immune cell recruitment, and increased bacteria load. We also conducted studies with Caspase-11−/− mice and did not observe any significant impact on B. abortus pathogenesis. Through mechanistic studies using Asc−/− macrophages, our data suggests that the protective role of ASC may result from the induction of pyroptosis through a gasdermin D-dependent mechanism in macrophages. Additionally, we show that the recognition of Brucella is facilitated by sensing the PAMP gDNA rather than the less immunogenic LPS. Together, these results refine our understanding of the role that inflammasome activation and pyroptosis plays during brucellosis. [ABSTRACT FROM AUTHOR]

Published

2020

29. Nanoscale Bacteria‐Enabled Autonomous Drug Delivery System (NanoBEADS) Enhances Intratumoral Transport of Nanomedicine.

Author

Suh, SeungBeum, Jo, Ami, Traore, Mahama A., Zhan, Ying, Coutermarsh‐Ott, Sheryl L., Ringel‐Scaia, Veronica M., Allen, Irving C., Davis, Richey M., and Behkam, Bahareh

Subjects

DRUG delivery systems, NANOMEDICINE

Abstract

Cancer drug delivery remains a formidable challenge due to systemic toxicity and inadequate extravascular transport of nanotherapeutics to cells distal from blood vessels. It is hypothesized that, in absence of an external driving force, the Salmonella enterica serovar Typhimurium could be exploited for autonomous targeted delivery of nanotherapeutics to currently unreachable sites. To test the hypothesis, a nanoscale bacteria‐enabled autonomous drug delivery system (NanoBEADS) is developed in which the functional capabilities of the tumor‐targeting S. Typhimurium VNP20009 are interfaced with poly(lactic‐co‐glycolic acid) nanoparticles. The impact of nanoparticle conjugation is evaluated on NanoBEADS' invasion of cancer cells and intratumoral transport in 3D tumor spheroids in vitro, and biodistribution in a mammary tumor model in vivo. It is found that intercellular (between cells) self‐replication and translocation are the dominant mechanisms of bacteria intratumoral penetration and that nanoparticle conjugation does not impede bacteria's intratumoral transport performance. Through the development of new transport metrics, it is demonstrated that NanoBEADS enhance nanoparticle retention and distribution in solid tumors by up to a remarkable 100‐fold without requiring any externally applied driving force or control input. Such autonomous biohybrid systems could unlock a powerful new paradigm in cancer treatment by improving the therapeutic index of chemotherapeutic drugs and minimizing systemic side effects. Nanoscale bacteria‐enabled autonomous drug delivery system (NanoBEADS) agents are constructed by conjugating poly(lactic‐co‐glycolic acid) nanoparticles with tumor‐targeting Salmonella Typhimurium. NanoBEADS enhance retention and distribution of nanoparticles in solid tumors by up to a remarkable ≈100‐fold, through intercellular (between cells) self‐replication and translocation. This transport enhancement is achieved autonomously, without the need for any externally‐applied driving force or control input. [ABSTRACT FROM AUTHOR]

Published

2019