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1. Prognostic and therapeutic implications of tumor-restrictive type III collagen in the breast cancer microenvironment

Author

Daniel C. Stewart, Becky K. Brisson, Bassil Dekky, Ashton C. Berger, William Yen, Elizabeth A. Mauldin, Claudia Loebel, Deborah Gillette, Charles-Antoine Assenmacher, Corisa Quincey, Darko Stefanovski, Massimo Cristofanilli, Edna Cukierman, Jason A. Burdick, Virginia F. Borges, and Susan W. Volk

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

Abstract Collagen plays a critical role in regulating breast cancer progression and therapeutic resistance. An improved understanding of both the features and drivers of tumor-permissive and -restrictive collagen matrices are critical to improve prognostication and develop more effective therapeutic strategies. In this study, using a combination of in vitro, in vivo and bioinformatic experiments, we show that type III collagen (Col3) plays a tumor-restrictive role in human breast cancer. We demonstrate that Col3-deficient, human fibroblasts produce tumor-permissive collagen matrices that drive cell proliferation and suppress apoptosis in non-invasive and invasive breast cancer cell lines. In human triple-negative breast cancer biopsy samples, we demonstrate elevated deposition of Col3 relative to type I collagen (Col1) in non-invasive compared to invasive regions. Similarly, bioinformatics analysis of over 1000 breast cancer patient biopsies from The Cancer Genome Atlas BRCA cohort revealed that patients with higher Col3:Col1 bulk tumor expression had improved overall, disease-free, and progression-free survival relative to those with higher Col1:Col3 expression. Using an established 3D culture model, we show that Col3 increases spheroid formation and induces the formation of lumen-like structures that resemble non-neoplastic mammary acini. Finally, our in vivo study shows co-injection of murine breast cancer cells (4T1) with rhCol3-supplemented hydrogels limits tumor growth and decreases pulmonary metastatic burden compared to controls. Taken together, these data collectively support a tumor-suppressive role for Col3 in human breast cancer and suggest that strategies that increase Col3 may provide a safe and effective therapeutic modality to limit recurrence in breast cancer patients.

Published
2024
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2. Urothelial carcinoma associated with a long‐term indwelling cystostomy component of a subcutaneous ureteral bypass device in a domestic shorthair cat

Author

Samantha Lackeyram‐Owen, Erin Gibson, Jennifer Reetz, Taylor Chan, Charles‐Antoine Assenmacher, and Dana L. Clarke

Subjects
feline, interventional radiology, oncology, radiology and diagnostic imaging, renal/urinary tract, ureteral obstruction, Veterinary medicine, SF600-1100
Abstract

Abstract Urothelial carcinoma (UC) occurs uncommonly in cats and no association has previously been observed with long‐term indwelling urinary implants. An 18‐year‐old male castrated domestic shorthair cat initially was presented for hematuria, leading to the diagnosis of a right‐sided ureterolithiasis and severe pyelectasia on ultrasound examination, prompting right‐sided subcutaneous ureteral bypass (SUB) device placement. The cat subsequently had intermittent hematuria and dysuria, without ultrasonographic abnormality of the bladder or positive urine culture. Thirteen months later the patient developed refractory lower urinary tract signs, azotemia, a proliferative mass in the region of the cystostomy tube component of the SUB device and evidence of left ureteral obstruction. Cystostomy tube revision and left‐sided SUB device placement were performed, as well as a partial cystectomy for removal of the mass. Upon histopathology, the mass was diagnosed as a UC. To our knowledge, UC associated with a long‐term indwelling cystostomy catheter component of a SUB device has not been reported in veterinary medicine.

Published
2024
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4. The STING agonist IMSA101 enhances chimeric antigen receptor T cell function by inducing IL-18 secretion

Author

Ugur Uslu, Lijun Sun, Sofia Castelli, Amanda V. Finck, Charles-Antoine Assenmacher, Regina M. Young, Zhijian J. Chen, and Carl H. June

Subjects
Science
Abstract

Abstract As a strategy to improve the therapeutic success of chimeric antigen receptor T cells (CART) directed against solid tumors, we here test the combinatorial use of CART and IMSA101, a newly developed stimulator of interferon genes (STING) agonist. In two syngeneic tumor models, improved overall survival is observed when mice are treated with intratumorally administered IMSA101 in addition to intravenous CART infusion. Transcriptomic analyses of CART isolated from tumors show elevated T cell activation, as well as upregulated cytokine pathway signatures, in particular IL-18, in the combination treatment group. Also, higher levels of IL-18 in serum and tumor are detected with IMSA101 treatment. Consistent with this, the use of IL-18 receptor negative CART impair anti-tumor responses in mice receiving combination treatment. In summary, we find that IMSA101 enhances CART function which is facilitated through STING agonist-induced IL-18 secretion.

Published
2024
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5. Automated Nuclear Morphometry: A Deep Learning Approach for Prognostication in Canine Pulmonary Carcinoma to Enhance Reproducibility

Author

Imaine Glahn, Andreas Haghofer, Taryn A. Donovan, Brigitte Degasperi, Alexander Bartel, Theresa Kreilmeier-Berger, Philip S. Hyndman, Hannah Janout, Charles-Antoine Assenmacher, Florian Bartenschlager, Pompei Bolfa, Michael J. Dark, Andrea Klang, Robert Klopfleisch, Sophie Merz, Barbara Richter, F. Yvonne Schulman, Jonathan Ganz, Josef Scharinger, Marc Aubreville, Stephan M. Winkler, and Christof A. Bertram

Subjects
anisokaryosis, artificial intelligence, dog, image processing, mitotic count, nuclear pleomorphism, Veterinary medicine, SF600-1100
Abstract

The integration of deep learning-based tools into diagnostic workflows is increasingly prevalent due to their efficiency and reproducibility in various settings. We investigated the utility of automated nuclear morphometry for assessing nuclear pleomorphism (NP), a criterion of malignancy in the current grading system in canine pulmonary carcinoma (cPC), and its prognostic implications. We developed a deep learning-based algorithm for evaluating NP (variation in size, i.e., anisokaryosis and/or shape) using a segmentation model. Its performance was evaluated on 46 cPC cases with comprehensive follow-up data regarding its accuracy in nuclear segmentation and its prognostic ability. Its assessment of NP was compared to manual morphometry and established prognostic tests (pathologists’ NP estimates (n = 11), mitotic count, histological grading, and TNM-stage). The standard deviation (SD) of the nuclear area, indicative of anisokaryosis, exhibited good discriminatory ability for tumor-specific survival, with an area under the curve (AUC) of 0.80 and a hazard ratio (HR) of 3.38. The algorithm achieved values comparable to manual morphometry. In contrast, the pathologists’ estimates of anisokaryosis resulted in HR values ranging from 0.86 to 34.8, with slight inter-observer reproducibility (k = 0.204). Other conventional tests had no significant prognostic value in our study cohort. Fully automated morphometry promises a time-efficient and reproducible assessment of NP with a high prognostic value. Further refinement of the algorithm, particularly to address undersegmentation, and application to a larger study population are required.

Published
2024
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6. Desmoplastic stroma restricts T cell extravasation and mediates immune exclusion and immunosuppression in solid tumors

Author

Zebin Xiao, Leslie Todd, Li Huang, Estela Noguera-Ortega, Zhen Lu, Lili Huang, Meghan Kopp, Yue Li, Nimisha Pattada, Wenqun Zhong, Wei Guo, John Scholler, Maria Liousia, Charles-Antoine Assenmacher, Carl H. June, Steven M. Albelda, and Ellen Puré

Subjects
Science
Abstract

Abstract The desmoplastic stroma in solid tumors presents a formidable challenge to immunotherapies that rely on endogenous or adoptively transferred T cells, however, the mechanisms are poorly understood. To define mechanisms involved, here we treat established desmoplastic pancreatic tumors with CAR T cells directed to fibroblast activation protein (FAP), an enzyme highly overexpressed on a subset of cancer-associated fibroblasts (CAFs). Depletion of FAP+ CAFs results in loss of the structural integrity of desmoplastic matrix. This renders these highly treatment-resistant cancers susceptible to subsequent treatment with a tumor antigen (mesothelin)-targeted CAR T cells and to anti-PD-1 antibody therapy. Mechanisms include overcoming stroma-dependent restriction of T cell extravasation and/or perivascular invasion, reversing immune exclusion, relieving T cell suppression, and altering the immune landscape by reducing myeloid cell accumulation and increasing endogenous CD8+ T cell and NK cell infiltration. These data provide strong rationale for combining tumor stroma- and malignant cell-targeted therapies to be tested in clinical trials.

Published
2023
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11. 261 Synergistic antitumor effects of mouse mesothelin-directed CAR (mmeso-CAR) T cells and αCD40 in a syngeneic model of PDAC

Author

Carl H June, John Scholler, Joseph A Fraietta, Andrew Rech, Daniel Martinez, David Mai, Omar Johnson, Khatuna Gabunia, Regina M Young, Charles-Antoine Assenmacher, Enrico Radaelli, Giulia Golinelli, Ting-Jia Fan, Jordan Reff, Zachary Ferraro, Decheng Song, Aasha Gupta, Mansi Deshmukh, He N Xu, Wesley V Wilson, Julia C Tchou, and Bruce L Levine

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Published
2023
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13. Anti-inflammatory effects of hunger are transmitted to the periphery via projection-specific AgRP circuits

Author

Michelle L. Klima, Kayla A. Kruger, Nitsan Goldstein, Santiago Pulido, Aloysius Y.T. Low, Charles-Antoine Assenmacher, Amber L. Alhadeff, and J. Nicholas Betley

Subjects
CP: Neuroscience, Biology (General), QH301-705.5
Abstract

Summary: Caloric restriction has anti-inflammatory effects. However, the coordinated physiological actions that lead to reduced inflammation in a state of caloric deficit (hunger) are largely unknown. Using a mouse model of injury-induced peripheral inflammation, we find that food deprivation reduces edema, temperature, and cytokine responses that occur after injury. The magnitude of the anti-inflammatory effect that occurs during hunger is more robust than that of non-steroidal anti-inflammatory drugs. The effects of hunger are recapitulated centrally by activity in nutrient-sensing hypothalamic agouti-related protein (AgRP)-expressing neurons. We find that AgRP neurons projecting to the paraventricular nucleus of the hypothalamus rapidly and robustly reduce inflammation and mediate the majority of hunger’s anti-inflammatory effects. Intact vagal efferent signaling is required for the anti-inflammatory action of hunger, revealing a brain-to-periphery pathway for this reduction in inflammation. Taken together, these data begin to unravel a potent anti-inflammatory pathway engaged by hypothalamic AgRP neurons to reduce inflammation.

Published
2023
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14. The IAP antagonist birinapant enhances chimeric antigen receptor T cell therapy for glioblastoma by overcoming antigen heterogeneity

Author

Edward Z. Song, Xin Wang, Benjamin I. Philipson, Qian Zhang, Radhika Thokala, Logan Zhang, Charles-Antoine Assenmacher, Zev A. Binder, Guo-li Ming, Donald M. O’Rourke, Hongjun Song, and Michael C. Milone

Subjects
IAP antagonist, birinapant, CAR T cell, glioblastoma, antigen heterogeneity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Antigen heterogeneity that results in tumor antigenic escape is one of the major obstacles to successful chimeric antigen receptor (CAR) T cell therapies in solid tumors including glioblastoma multiforme (GBM). To address this issue and improve the efficacy of CAR T cell therapy for GBM, we developed an approach that combines CAR T cells with inhibitor of apoptosis protein (IAP) antagonists, a new class of small molecules that mediate the degradation of IAPs, to treat GBM. Here, we demonstrated that the IAP antagonist birinapant could sensitize GBM cell lines and patient-derived primary GBM organoids to apoptosis induced by CAR T cell-derived cytokines, such as tumor necrosis factor. Therefore, birinapant could enhance CAR T cell-mediated bystander death of antigen-negative GBM cells, thus preventing tumor antigenic escape in antigen-heterogeneous tumor models in vitro and in vivo. In addition, birinapant could promote the activation of NF-κB signaling pathways in antigen-stimulated CAR T cells, and with a birinapant-resistant tumor model we showed that birinapant had no deleterious effect on CAR T cell functions in vitro and in vivo. Overall, we demonstrated the potential of combining the IAP antagonist birinapant with CAR T cells as a novel and feasible approach to overcoming tumor antigen heterogeneity and enhancing CAR T cell therapy for GBM.

Published
2022
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15. Can Sequential Images from the Same Object Be Used for Training Machine Learning Models? A Case Study for Detecting Liver Disease by Ultrasound Radiomics

Author

Laith R. Sultan, Theodore W. Cary, Maryam Al-Hasani, Mrigendra B. Karmacharya, Santosh S. Venkatesh, Charles-Antoine Assenmacher, Enrico Radaelli, and Chandra M. Sehgal

Subjects
medical imaging, quantitative ultrasound, machine learning, independent data, liver disease, Electronic computers. Computer science, QA75.5-76.95
Abstract

Machine learning for medical imaging not only requires sufficient amounts of data for training and testing but also that the data be independent. It is common to see highly interdependent data whenever there are inherent correlations between observations. This is especially to be expected for sequential imaging data taken from time series. In this study, we evaluate the use of statistical measures to test the independence of sequential ultrasound image data taken from the same case. A total of 1180 B-mode liver ultrasound images with 5903 regions of interests were analyzed. The ultrasound images were taken from two liver disease groups, fibrosis and steatosis, as well as normal cases. Computer-extracted texture features were then used to train a machine learning (ML) model for computer-aided diagnosis. The experiment resulted in high two-category diagnosis using logistic regression, with AUC of 0.928 and high performance of multicategory classification, using random forest ML, with AUC of 0.917. To evaluate the image region independence for machine learning, Jenson–Shannon (JS) divergence was used. JS distributions showed that images of normal liver were independent from each other, while the images from the two disease pathologies were not independent. To guarantee the generalizability of machine learning models, and to prevent data leakage, multiple frames of image data acquired of the same object should be tested for independence before machine learning. Such tests can be applied to real-world medical image problems to determine if images from the same subject can be used for training.

Published
2022
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16. Mitochondrial defects caused by PARL deficiency lead to arrested spermatogenesis and ferroptosis

Author

Enrico Radaelli, Charles-Antoine Assenmacher, Jillian Verrelle, Esha Banerjee, Florence Manero, Salim Khiati, Anais Girona, Guillermo Lopez-Lluch, Placido Navas, and Marco Spinazzi

Subjects
PARL, ferroptosis, GPX4, coenzyme Q, spermatogenesis, mitochondria, Medicine, Science, Biology (General), QH301-705.5
Abstract

Impaired spermatogenesis and male infertility are common manifestations associated with mitochondrial diseases, yet the underlying mechanisms linking these conditions remain elusive. In this study, we demonstrate that mice deficient for the mitochondrial intra-membrane rhomboid protease PARL, a recently reported model of the mitochondrial encephalopathy Leigh syndrome, develop early testicular atrophy caused by a complete arrest of spermatogenesis during meiotic prophase I, followed by degeneration and death of arrested spermatocytes. This process is independent of neurodegeneration. Interestingly, genetic modifications of PINK1, PGAM5, and TTC19 – three major substrates of PARL with important roles in mitochondrial homeostasis – fail to reproduce or modify this severe phenotype, indicating that the spermatogenic arrest arises from distinct molecular pathways. We further observed severe abnormalities in mitochondrial ultrastructure in PARL-deficient spermatocytes, along with prominent electron transfer chain defects, disrupted coenzyme Q (CoQ) biosynthesis, and metabolic rewiring. These mitochondrial defects are associated with a germ cell-specific decrease in GPX4 expression leading arrested spermatocytes to ferroptosis – a regulated cell death modality characterized by uncontrolled lipid peroxidation. Our results suggest that mitochondrial defects induced by PARL depletion act as an initiating trigger for ferroptosis in primary spermatocytes through simultaneous effects on GPX4 and CoQ – two major inhibitors of ferroptosis. These findings shed new light on the potential role of ferroptosis in the pathogenesis of mitochondrial diseases and male infertility warranting further investigation.

Published
2023
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17. Influence of Inter-Annotator Variability on Automatic Mitotic Figure Assessment.

Author

Frauke Wilm, Christof A. Bertram, Christian Marzahl, Alexander Bartel, Taryn A. Donovan, Charles-Antoine Assenmacher, Kathrin Becker, Mark Bennett, Sarah Corner, Brieuc Cossic, Daniela Denk, Martina Dettwiler, Beatriz Garcia Gonzalez, Corinne Gurtner, Annabelle Heier, Annika Lehmbecker, Sophie Merz, Stephanie Plog, Anja Schmidt, Franziska Sebastian, Rebecca C. Smedley, Marco Tecilla, Tuddow Thaiwong, Katharina Breininger, Matti Kiupel, Andreas Maier 0001, Robert Klopfleisch, and Marc Aubreville

Published
2021
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18. Post Mortem Study on the Effects of Routine Handling and Manipulation of Laboratory Mice

Author

Charles-Antoine Assenmacher, Matthew Lanza, James C Tarrant, Kristin L Gardiner, Eric Blankemeyer, and Enrico Radaelli

Subjects
laboratory mouse, handling, restraint, manipulation, osteoarticular trauma, histopathology, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Routine handling and manipulation of laboratory mice are integral components of most preclinical studies. Any type of handling and manipulation may cause stress and result in physical harm to mice, potentially leading to unintended consequences of experimental outcomes. Nevertheless, the pathological effects of these interventions are poorly documented and assumed to have a negligible effect on experimental variables. In that context, we provide a comprehensive post mortem overview of the main pathological changes associated with routine interventions (i.e., restraint, blood drawing, and intraperitoneal injections) of laboratory mice with an emphasis on presumed traumatic osteoarticular lesions. A total of 1000 mice from various studies were included, with 864 animals being heavily manipulated and 136 being handled for routine husbandry procedures only. The most common lesions observed were associated with blood collection or intraperitoneal injections, as well as a series of traumatic osteoarticular lesions likely resulting from restraint. Osteoarticular lesions were found in 62 animals (61 heavily manipulated; 1 unmanipulated) with rib fractures and avulsion of the dens of the axis being over-represented. Histopathology and micro-CT confirmed the traumatic nature of the rib fractures. While these lesions might be unavoidable if mice are manipulated according to the current standards, intentional training of research personnel on appropriate mouse handling and restraint techniques could help reduce their frequency and the impact on animal wellbeing as well as study reproducibility.

Published
2022
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19. Plasma and tissue angiotensin‐converting enzyme 2 activity and plasma equilibrium concentrations of angiotensin peptides in dogs with heart disease

Author

Éva Larouche‐Lebel, Kerry A. Loughran, Mark A. Oyama, Phil F. Solter, Danielle S. Laughlin, Melissa D. Sánchez, Charles‐Antoine Assenmacher, Philip R. Fox, and Ryan C. Fries

Subjects
angiotensin 1‐7, angiotensin II, degenerative mitral valve disease, renin‐angiotensin‐aldosterone system, Veterinary medicine, SF600-1100
Abstract

Abstract Background Angiotensin‐converting enzyme 2 (ACE2) is a homologue of angiotensin‐converting enzyme (ACE) and produces angiotensin peptides (APs), such as angiotensin 1‐9 and 1‐7 that are vasodilatory and natriuretic, and act to counterbalance angiotensin II. Hypothesis Evidence of ACE2 can be found in tissues and plasma of dogs. Equilibrium concentrations of renin angiotensin aldosterone system (RAAS) APs differ in dogs with heart disease compared to healthy dogs and recombinant human ACE2 (rhACE2) alters relative concentrations of APs. Animals Forty‐nine dogs with and 34 dogs without heart disease. Methods Immunohistochemistry and assays for tissue and plasma ACE2 activity and equilibrium concentrations of plasma RAAS APs were performed. Results Immunolabeling for ACE2 was present in kidney and myocardial tissue. Median plasma ACE2 activity was significantly increased in dogs with congestive heart failure (CHF; 6.9 mU/mg; interquartile range [IQR], 5.1‐12.1) as compared to control (2.2 mU/mg; IQR, 1.8‐3.0; P = .0003). Plasma equilibrium analysis of RAAS APs identified significant increases in the median concentrations of beneficial APs, such as angiotensin 1‐7, in dogs with CHF (486.7 pg/mL; IQR, 214.2‐1168) as compared to those with preclinical disease (41.0 pg/mL; IQR, 27.4‐45.1; P

Published
2019
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20. Inflammatory monocytes promote granuloma control of Yersinia infection

Author

Daniel Sorobetea, Rina Matsuda, Stefan T. Peterson, James P. Grayczyk, Indira Rao, Elise Krespan, Matthew Lanza, Charles-Antoine Assenmacher, Matthias Mack, Daniel P. Beiting, Enrico Radaelli, and Igor E. Brodsky

Subjects
Microbiology (medical), Immunology, Genetics, Cell Biology, Applied Microbiology and Biotechnology, Microbiology
Published
2023

21. Spontaneous early-onset neurodegeneration in the brainstem and spinal cord of NSG, NOG, and NXG mice

Author

Giovanni Finesso, Elinor Willis, James Carmine Tarrant, Matthew Lanza, Justin Sprengers, Jillian Verrelle, Esha Banerjee, Els Hermans, Charles-Antoine Assenmacher, and Enrico Radaelli

Subjects
General Veterinary
Abstract

The spectrum of background, incidental, and experimentally induced lesions affecting NSG and NOG mice has been the subject of intense investigation. However, comprehensive studies focusing on the spontaneous neuropathological changes of these immunocompromised strains are lacking. This work describes the development of spontaneous early-onset neurodegeneration affecting both juvenile and adult NSG, NOG, and NXG mice. The study cohort consisted of 367 NSG mice of both sexes (including 33 NSG-SGM3), 61 NOG females (including 31 NOG-EXL), and 4 NXG females. These animals were primarily used for preclinical CAR T-cell testing, generation of humanized immune system chimeras, and/or tumor xenograft transplantation. Histopathology of brain and spinal cord and immunohistochemistry (IHC) for AIF-1, GFAP, CD34, and CD45 were performed. Neurodegenerative changes were observed in 57.6% of the examined mice (affected mice age range was 6-36 weeks). The lesions were characterized by foci of vacuolation with neuronal degeneration/death and gliosis distributed throughout the brainstem and spinal cord. IHC confirmed the development of gliosis, overexpression of CD34, and a neuroinflammatory component comprised of CD45-positive monocyte-derived macrophages. Lesions were significantly more frequent and severe in NOG mice. NSG males were considerably more affected than NSG females. Increased lesion frequency and severity in older animals were also identified. These findings suggest that NSG, NOG, and NXG mice are predisposed to the early development of identical neurodegenerative changes. While the cause of these lesions is currently unclear, potential associations with the genetic mutations shared by NSG, NOG, and NXG mice as well as unidentified viral infections are considered.

Published
2023

22. A TNF-IL-1 circuit controlsYersiniawithin intestinal granulomas

Author

Rina Matsuda, Sorobetea Daniel, Jenna Zhang, Stefan T. Peterson, James P. Grayczyk, Beatrice Herrmann, Winslow Yost, Rosemary O’Neill, Andrea C. Bohrer, Matthew Lanza, Charles-Antoine Assenmacher, Katrin D. Mayer-Barber, Sunny Shin, and Igor E. Brodsky

Abstract

SummaryMonocytes restrictYersiniainfection within intestinal granulomas. Here, we report that monocyte-intrinsic TNF signaling drives production of IL-1 that signals to non-hematopoietic cells to control intestinalYersiniainfection within granulomas.Tumor necrosis factor (TNF) is a pleiotropic inflammatory cytokine that mediates antimicrobial defense and granuloma formation in response to infection by numerous pathogens.Yersinia pseudotuberculosiscolonizes the intestinal mucosa and induces recruitment of neutrophils and inflammatory monocytes into organized immune structures termed pyogranulomas that control the bacterial infection. Inflammatory monocytes are essential for control and clearance ofYersiniawithin intestinal pyogranulomas, but how monocytes mediateYersiniarestriction is poorly understood. Here, we demonstrate that TNF signaling in monocytes is required for bacterial containment following entericYersiniainfection. We further show that monocyte-intrinsic TNFR1 signaling drives production of monocyte-derived interleukin-1 (IL-1), which signals through IL-1 receptor on non-hematopoietic cells to enable pyogranuloma-mediated control ofYersiniainfection. Altogether, our work reveals a monocyte-intrinsic TNF-IL-1 collaborative circuit as a crucial driver of intestinal granuloma function, and defines the cellular target of TNF signaling that restricts intestinalYersiniainfection.

Published
2023

23. Tumor-restrictive type III collagen in the breast cancer microenvironment: prognostic and therapeutic implications

Author

Susan Volk, Becky Brisson, Bassil Dekky, Ashton Berger, Elizabeth Mauldin, Claudia Loebel, William Yen, Daniel Stewart, Deborah Gillette, Charles-Antoine Assenmacher, Edna Cukierman, Jason Burdick, and Virginia Borges

Abstract

Collagen plays a critical role in regulating breast cancer progression and therapeutic resistance. An improved understanding of both the features and drivers of tumor-permissive and -restrictive collagen matrices are critical to improve prognostication and develop more effective therapeutic strategies. In this study, using a combination of in vitro, in vivo and in silico experiments, we show that type III collagen (Col3) plays a tumor-restrictive role in human breast cancer. We demonstrate that Col3-deficient, human fibroblasts produce tumor-permissive collagen matrices that drive cell proliferation and suppress apoptosis in noninvasive and invasive breast cancer cell lines. In human TNBC biopsy samples, we demonstrate elevated deposition of Col3 relative to type I collagen (Col1) in noninvasive compared to invasive regions. Similarly, in silico analyses of over 1000 breast cancer patient biopsies from The Cancer Genome Atlas BRCA cohort revealed that patients with higher Col3:Col1 bulk tumor expression had improved overall, disease-free and progression-free survival relative to those with higher Col1:Col3 expression. Using an established 3D culture model, we show that Col3 increases spheroid formation and induces formation of lumen-like structures that resemble non-neoplastic mammary acini. Finally, our in vivo study shows co-injection of murine breast cancer cells (4T1) with rhCol3-supplemented hydrogels limits tumor growth and decreases pulmonary metastatic burden compared to controls. Taken together, these data collectively support a tumor-suppressive role for Col3 in human breast cancer and suggest that strategies that increase Col3 may provide a safe and effective modality to limit recurrence in breast cancer patients.

Published
2023

24. Supplementary Figures 1-6 from Tumor-Suppressive and Immune-Stimulating Roles of Cholesterol 25-hydroxylase in Pancreatic Cancer Cells

Author

Serge Y. Fuchs, Hallgeir Rui, Ben Z. Stanger, Anil K. Rustgi, Edna Cukierman, Igor Astsaturov, Jason R. Pitarresi, Jinyang Li, Hongru Zhang, Zhen Lu, Pengfei Yu, Anne Devine, Clarice Pavlak, Charles-Antoine Assenmacher, Enrico Radaelli, Amy R. Peck, Farima Zahedi, Jinyun Chen, Christina Cho, and Noreen McBrearty

Abstract

S1. Frequency of Pan-IN lesion types in KC versus KCC mice. S2. Re-expression of Ch25h in PDAC cell lines. S3. Presence of exogenous lipids diminishes effect of Ch25h re-expression in PDAC. S4. Re-expression of Ch25h does not affect Ras localization. S5. CH25H decreases autophagic flux in PDAC cells. S6. Ch25h slows PDAC tumor growth.

Published
2023

25. Supplementary Table 1 from Tumor-Suppressive and Immune-Stimulating Roles of Cholesterol 25-hydroxylase in Pancreatic Cancer Cells

Author

Serge Y. Fuchs, Hallgeir Rui, Ben Z. Stanger, Anil K. Rustgi, Edna Cukierman, Igor Astsaturov, Jason R. Pitarresi, Jinyang Li, Hongru Zhang, Zhen Lu, Pengfei Yu, Anne Devine, Clarice Pavlak, Charles-Antoine Assenmacher, Enrico Radaelli, Amy R. Peck, Farima Zahedi, Jinyun Chen, Christina Cho, and Noreen McBrearty

Abstract

Supplementary Table 1: List of oligonucleotides used for qPCR

Published
2023

26. Data from Tumor-Suppressive and Immune-Stimulating Roles of Cholesterol 25-hydroxylase in Pancreatic Cancer Cells

Author

Serge Y. Fuchs, Hallgeir Rui, Ben Z. Stanger, Anil K. Rustgi, Edna Cukierman, Igor Astsaturov, Jason R. Pitarresi, Jinyang Li, Hongru Zhang, Zhen Lu, Pengfei Yu, Anne Devine, Clarice Pavlak, Charles-Antoine Assenmacher, Enrico Radaelli, Amy R. Peck, Farima Zahedi, Jinyun Chen, Christina Cho, and Noreen McBrearty

Abstract

Cholesterol dependence is an essential characteristic of pancreatic ductal adenocarcinoma (PDAC). Cholesterol 25-hydroxylase (CH25H) catalyzes monooxygenation of cholesterol into 25-hydroxycholesterol, which is implicated in inhibiting cholesterol biosynthesis and in cholesterol depletion. Here, we show that, within PDAC cells, accumulation of cholesterol was facilitated by the loss of CH25H. Methylation of the CH25H gene and decreased levels of CH25H expression occurred in human pancreatic cancers and was associated with poor prognosis. Knockout of Ch25h in mice accelerated progression of Kras-driven pancreatic intraepithelial neoplasia. Conversely, restoration of CH25H expression in human and mouse PDAC cells decreased their viability under conditions of cholesterol deficit, and decelerated tumor growth in immune competent hosts. Mechanistically, the loss of CH25H promoted autophagy resulting in downregulation of MHC-I and decreased CD8+ T-cell tumor infiltration. Re-expression of CH25H in PDAC cells combined with immune checkpoint inhibitors notably inhibited tumor growth. We discuss additional benefits that PDAC cells might gain from inactivation of CH25H and the potential translational importance of these findings for therapeutic approaches to PDAC.Implications:Loss of CH25H by pancreatic cancer cells may stimulate tumor progression and interfere with immunotherapies.

Published
2023

27. Supplemental #2 from FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Theresa M. Busch, Amit Maity, Keith A. Cengel, Constantinos Koumenis, James Metz, Lei Dong, Eric Diffenderfer, Jennifer Huck, Enrico Radaelli, Charles-Antoine Assenmacher, Matthew Lanza, Mary Putt, Andy J. Minn, Artemis G. Hatzigeorgiou, Ling Qin, Lutian Yao, Kelley Varner, Michelle Cerullo, June Chiango, Khayrullo Shoniyozov, Ioannis I. Verginadis, Sarah Hagan, Denisa Goia, Giorgos Skoufos, Michele M. Kim, Gwendolyn M. Cramer, Ilias V. Karagounis, and Anastasia Velalopoulou

Abstract

Supplemental Methods

Published
2023

28. Table ST2 from FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Theresa M. Busch, Amit Maity, Keith A. Cengel, Constantinos Koumenis, James Metz, Lei Dong, Eric Diffenderfer, Jennifer Huck, Enrico Radaelli, Charles-Antoine Assenmacher, Matthew Lanza, Mary Putt, Andy J. Minn, Artemis G. Hatzigeorgiou, Ling Qin, Lutian Yao, Kelley Varner, Michelle Cerullo, June Chiango, Khayrullo Shoniyozov, Ioannis I. Verginadis, Sarah Hagan, Denisa Goia, Giorgos Skoufos, Michele M. Kim, Gwendolyn M. Cramer, Ilias V. Karagounis, and Anastasia Velalopoulou

Abstract

Table S2. Genes that are upregulated in the S-PRT-treated bone revealed by RNASeq analysis

Published
2023

29. Figure SF1 from FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Theresa M. Busch, Amit Maity, Keith A. Cengel, Constantinos Koumenis, James Metz, Lei Dong, Eric Diffenderfer, Jennifer Huck, Enrico Radaelli, Charles-Antoine Assenmacher, Matthew Lanza, Mary Putt, Andy J. Minn, Artemis G. Hatzigeorgiou, Ling Qin, Lutian Yao, Kelley Varner, Michelle Cerullo, June Chiango, Khayrullo Shoniyozov, Ioannis I. Verginadis, Sarah Hagan, Denisa Goia, Giorgos Skoufos, Michele M. Kim, Gwendolyn M. Cramer, Ilias V. Karagounis, and Anastasia Velalopoulou

Abstract

Figure S1 A) Gene Ontology (GO) enrichment analysis of the differentially expressed (upregulated) genes in the F-PRT-treated mouse skin. (B) Gene Ontology (GO) enrichment analysis of the differentially expressed (downregulated) genes in the S-PRT-treated mouse leg skin. (C) Gene Ontology (GO) enrichment analysis of the differentially expressed (downregulated) genes in the F-PRT-treated mouse skin. N=4 in all analyses.

Published
2023

30. Data from FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Theresa M. Busch, Amit Maity, Keith A. Cengel, Constantinos Koumenis, James Metz, Lei Dong, Eric Diffenderfer, Jennifer Huck, Enrico Radaelli, Charles-Antoine Assenmacher, Matthew Lanza, Mary Putt, Andy J. Minn, Artemis G. Hatzigeorgiou, Ling Qin, Lutian Yao, Kelley Varner, Michelle Cerullo, June Chiango, Khayrullo Shoniyozov, Ioannis I. Verginadis, Sarah Hagan, Denisa Goia, Giorgos Skoufos, Michele M. Kim, Gwendolyn M. Cramer, Ilias V. Karagounis, and Anastasia Velalopoulou

Abstract

In studies of electron and proton radiotherapy, ultrahigh dose rates of FLASH radiotherapy appear to produce fewer toxicities than standard dose rates while maintaining local tumor control. FLASH-proton radiotherapy (F-PRT) brings the spatial advantages of PRT to FLASH dose rates (>40 Gy/second), making it important to understand if and how F-PRT spares normal tissues while providing antitumor efficacy that is equivalent to standard-proton radiotherapy (S-PRT). Here we studied PRT damage to skin and mesenchymal tissues of muscle and bone and found that F-PRT of the C57BL/6 murine hind leg produced fewer severe toxicities leading to death or requiring euthanasia than S-PRT of the same dose. RNA-seq analyses of murine skin and bone revealed pathways upregulated by S-PRT yet unaltered by F-PRT, such as apoptosis signaling and keratinocyte differentiation in skin, as well as osteoclast differentiation and chondrocyte development in bone. Corroborating these findings, F-PRT reduced skin injury, stem cell depletion, and inflammation, mitigated late effects including lymphedema, and decreased histopathologically detected myofiber atrophy, bone resorption, hair follicle atrophy, and epidermal hyperplasia. F-PRT was equipotent to S-PRT in control of two murine sarcoma models, including at an orthotopic intramuscular site, thereby establishing its relevance to mesenchymal cancers. Finally, S-PRT produced greater increases in TGFβ1 in murine skin and the skin of canines enrolled in a phase I study of F-PRT versus S-PRT. Collectively, these data provide novel insights into F-PRT-mediated tissue sparing and support its ongoing investigation in applications that would benefit from this sparing of skin and mesenchymal tissues.Significance:These findings will spur investigation of FLASH radiotherapy in sarcoma and additional cancers where mesenchymal tissues are at risk, including head and neck cancer, breast cancer, and pelvic malignancies.

Published
2023

31. Supplemental Methods from FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Theresa M. Busch, Amit Maity, Keith A. Cengel, Constantinos Koumenis, James Metz, Lei Dong, Eric Diffenderfer, Jennifer Huck, Enrico Radaelli, Charles-Antoine Assenmacher, Matthew Lanza, Mary Putt, Andy J. Minn, Artemis G. Hatzigeorgiou, Ling Qin, Lutian Yao, Kelley Varner, Michelle Cerullo, June Chiango, Khayrullo Shoniyozov, Ioannis I. Verginadis, Sarah Hagan, Denisa Goia, Giorgos Skoufos, Michele M. Kim, Gwendolyn M. Cramer, Ilias V. Karagounis, and Anastasia Velalopoulou

Abstract

Supplemental Materials & Methods

Published
2023

32. Chimeric antigen receptor T cells as adjuvant therapy for unresectable adenocarcinoma

Author

Ugur Uslu, Tong Da, Charles-Antoine Assenmacher, John Scholler, Regina M. Young, Julia Tchou, and Carl H. June

Subjects
Multidisciplinary
Abstract

Incomplete surgery of solid tumors is a risk factor for primary treatment failure. Here, we have investigated whether chimeric antigen receptor T cells (CARTs) could be used as an adjuvant therapy to clear residual cancer cells. We tested the feasibility of this approach in two partial resection xenograft models using mesothelin-specific CARTs. In addition, we developed a previously unexplored in vivo toxicity model to evaluate safety and effects on wound healing in immunocompetent C57BL/6 mice. We found that the local delivery of CARTs in a fibrin glue–based carrier was effective in clearing residual cancer cells following incomplete surgery. This resulted in significantly longer overall survival when compared to mice treated with surgery and CARTs without fibrin glue. On-target off-tumor toxicity was diminished, and wound healing complications were not seen in any of the mice. On the basis of these observations, a clinical trial in patients with locally advanced breast cancer is planned.

Published
2023

33. Mitochondrial defects leading to arrested spermatogenesis and ferroptosis in a mouse model of Leigh Syndrome

Author

Enrico Radaelli, Charles-Antoine Assenmacher, Esha Banerjee, Florence Manero, Salim Khiati, Anais Girona, Guillermo Lopez-Lluch, Placido Navas, and Marco Spinazzi

Abstract

Impaired spermatogenesis and male infertility are common manifestations of mitochondrial diseases, but the underlying mechanisms are unclear. Here we show that mice deficient for PARL, the mitochondrial rhomboid protease, a recently reported model of Leigh syndrome, develop postpubertal testicular atrophy caused by arrested spermatogenesis and germ cell death independently of neurodegeneration. Genetic modifications of PINK1, PGAM5, and TTC19, three major substrates of PARL with important roles in mitochondrial homeostasis, do not reproduce or modify this phenotype. PARL deficiency in testis mitochondria leads to severe mitochondrial electron transfer chain defects, alterations in Coenzyme Q biosynthesis and redox status, and abrogates GPX4 expression specifically in spermatocytes leading to massive ferroptosis, an iron-dependent regulated cell death modality characterized by uncontrolled lipid peroxidation. Thus, mitochondrial defects can initiate ferroptosisin vivoin specific cell types by simultaneous effects on GPX4 and Coenzyme Q. These results highlight the importance of ferroptosis and cell-type specific downstream responses to mitochondrial deficits with respect to specific manifestations of mitochondrial diseases.

Published
2022

34. Tumor suppressive and immune-stimulating roles of cholesterol 25-hydroxylase in pancreatic cancer cells

Author

Noreen McBrearty, Christina Cho, Jinyun Chen, Farima Zahedi, Amy R. Peck, Enrico Radaelli, Charles-Antoine Assenmacher, Clarice Pavlak, Anne Devine, Pengfei Yu, Zhen Lu, Hongru Zhang, Jinyang Li, Jason R. Pitarresi, Igor Astsaturov, Edna Cukierman, Anil K. Rustgi, Ben Z. Stanger, Hallgeir Rui, and Serge Y. Fuchs

Subjects
Cancer Research, Oncology, Molecular Biology
Abstract

Cholesterol dependence is an essential characteristic of pancreatic ductal adenocarcinoma (PDAC). Cholesterol 25-hydroxylase (CH25H) catalyzes monooxygenation of cholesterol into 25-hydroxycholesterol, which is implicated in inhibiting cholesterol biosynthesis and in cholesterol depletion. Here, we show that, within PDAC cells, accumulation of cholesterol was facilitated by the loss of CH25H. Methylation of the CH25H gene and decreased levels of CH25H expression occurred in human pancreatic cancers and was associated with poor prognosis. Knockout of Ch25h in mice accelerated progression of Kras-driven pancreatic intraepithelial neoplasia. Conversely, restoration of CH25H expression in human and mouse PDAC cells decreased their viability under conditions of cholesterol deficit, and decelerated tumor growth in immune competent hosts. Mechanistically, the loss of CH25H promoted autophagy resulting in downregulation of MHC-I and decreased CD8+ T-cell tumor infiltration. Re-expression of CH25H in PDAC cells combined with immune checkpoint inhibitors notably inhibited tumor growth. We discuss additional benefits that PDAC cells might gain from inactivation of CH25H and the potential translational importance of these findings for therapeutic approaches to PDAC.Implications:Loss of CH25H by pancreatic cancer cells may stimulate tumor progression and interfere with immunotherapies.

Published
2022

36. Increased tumor-infiltrating lymphocyte density is associated with favorable outcomes in a comparative study of canine histiocytic sarcoma

Author

Victoria Costa, Jennifer A Lenz, Robert G. Maki, Matthew J. Atherton, Katie L Louka, Paul J. Zhang, Suzanne Rau, Charles-Antoine Assenmacher, Nicholas S. Keuler, Amy C. Durham, and Enrico Radaelli

Subjects
Cancer Research, Biopsy, medicine.medical_treatment, T cell, CD3, Immunology, Histiocytic sarcoma, Article, Dogs, Lymphocytes, Tumor-Infiltrating, Canine Histiocytic Sarcoma, medicine, Animals, Immunology and Allergy, Dog Diseases, medicine.diagnostic_test, biology, business.industry, Tumor-infiltrating lymphocytes, Immunogenicity, Immunotherapy, medicine.disease, medicine.anatomical_structure, Oncology, Cancer research, biology.protein, Histiocytic Sarcoma, business, Spleen
Abstract

Histiocytic sarcoma (HS) is a rare and aggressive tumor in humans with no universally agreed Standard of care therapy. Spontaneous canine HS exhibits increased prevalence in specific breeds, shares key genetic and biologic similarities with the human disease, and occurs in an immunocompetent setting. Previous data alludes to the immunogenicity of this disease in both species, highlighting the potential for their successful treatment with immunotherapy. Quantification of CD3 tumor infiltrating lymphocytes (TIL) in five cases of human HS revealed variable intra-tumoral T cell infiltration. Due to the paucity of human cases and lack of current model systems in which to appraise associations between anti-tumor immunity and treatment-outcome in HS, we analyzed clinical data and quantified TIL in 18 dogs that were previously diagnosed with localized HS and treated with curative-intent tumor resection with or without adjuvant chemotherapy. As in humans, assessment of TIL in biopsy tissues taken at diagnosis reveal a spectrum of immunologically “cold” to “hot” tumors. Importantly, we show that increased CD3 and granzyme B TIL are positively associated with favorable outcomes in dogs following surgical resection. NanoString transcriptional analyses revealed increased T cell and antigen presentation transcripts associated with prolonged survival in canine pulmonary HS and a decreased tumor immunogenicity profile associated with shorter survivals in splenic HS. Based on these findings, we propose that spontaneous canine HS is an accessible and powerful novel model to study tumor immunology and will provide a unique platform to preclinically appraise the efficacy and tolerability of anti-cancer immunotherapies for HS.

Published
2021

37. Pathology of macrophage activation syndrome in humanized NSGS mice

Author

Zev A. Binder, Mattia Bugatti, James C. Tarrant, Charles-Antoine Assenmacher, Gwenn Danet-Desnoyers, Enrico Radaelli, Natalie Hoepp, Xiaochuan Shan, Brona N Ranieri, Joost van den Oord, Donald M. O'Rourke, and William Vermi

Subjects
Male, Epstein-Barr Virus Infections, Herpesvirus 4, Human, Pathology, medicine.medical_specialty, Chimeric mouse, Myeloid, 040301 veterinary sciences, Transgene, CD34, Antigens, CD34, Spleen, DNA-Activated Protein Kinase, Mice, SCID, NSGS, Humanized model, Inflammasome, 0403 veterinary science, Mice, 03 medical and health sciences, Mice, Inbred NOD, NSG-SGM3, medicine, Animals, Humans, HLH, Macrophage activation syndrome, PDX model, 030304 developmental biology, Stem Cell Factor, 0303 health sciences, General Veterinary, business.industry, Macrophages, Hematopoietic Stem Cell Transplantation, Granulocyte-Macrophage Colony-Stimulating Factor, 04 agricultural and veterinary sciences, Hematopoietic Stem Cells, medicine.disease, Recombinant Proteins, Transplantation, Haematopoiesis, medicine.anatomical_structure, Bone marrow, business, Histiocytosis, Interleukin Receptor Common gamma Subunit
Abstract

“Humanized” immunodeficient mice generated via the transplantation of CD34+ human hematopoietic stem cells (hHSC) are an important preclinical model system. The triple transgenic NOD.Cg-PrkdcscidIl2rgtm1Wjl Tg(CMV-IL3,CSF2,KITLG)1Eav/MloySzJ (NSGS) mouse line is increasingly used as recipient for CD34+ hHSC engraftment. NSGS mice combine the features of the highly immunodeficient NSG mice with transgenic expression of the human myeloid stimulatory cytokines GM-CSF, IL-3, and Kit ligand. While generating humanized NSGS (huNSGS) mice from two independent cohorts, we encountered a fatal macrophage activation syndrome (MAS)-like phenotype resulting from the transplantation of CD34+ hHSC. huNSGS mice exhibiting this phenotype declined clinically starting at approximately 10 weeks following CD34+ hHSC engraftment, with all mice requiring euthanasia by 16 weeks. Gross changes comprised small, irregular liver, splenomegaly, cardiomegaly, and generalized pallor. Hematological abnormalities included severe thrombocytopenia and anemia. Pathologically, huNSGS spontaneously developed a disseminated histiocytosis with infiltrates of activated macrophages and hemophagocytosis predominantly affecting the liver, spleen, bone marrow, and pancreas. The infiltrates were chimeric with a mixture of human and mouse macrophages. Immunohistochemistry suggested activation of the inflammasome in both human and murine macrophages. Active Epstein-Barr virus infection was not a feature. Although the affected mice exhibited robust chimerism of the spleen and bone marrow, the phenotype often developed in the face of low chimerism of the peripheral blood. Given the high penetrance and early lethality associated with the MAS-like phenotype here described, we urge caution when considering the use of huNSGS mice for the development of long-term studies.

Published
2021

38. A long-term study of AAV gene therapy in dogs with hemophilia A identifies clonal expansions of transduced liver cells

Author

Hayley Raymond, Samita Kafle, Jacob S. Leiby, Timothy C. Nichols, Charles A. Assenmacher, Denise E. Sabatino, Haig H. Kazazian, C. Tyler Long, Giang N. Nguyen, Frederic D. Bushman, John K. Everett, Elizabeth P. Merricks, Christian M. Wood, and Aoife M. Roche

Subjects
Fviii activity, 0303 health sciences, Liver cytology, Genetic enhancement, Cell, Biomedical Engineering, Bioengineering, Biology, Applied Microbiology and Biotechnology, Virology, 03 medical and health sciences, genomic DNA, 0302 clinical medicine, medicine.anatomical_structure, Long term learning, hemic and lymphatic diseases, medicine, Molecular Medicine, Liver function, Gene, 030217 neurology & neurosurgery, 030304 developmental biology, Biotechnology
Abstract

Nine dogs with hemophilia A were treated with adeno-associated viral (AAV) gene therapy and followed for up to 10 years. Administration of AAV8 or AAV9 vectors expressing canine factor VIII (AAV-cFVIII) corrected the FVIII deficiency to 1.9-11.3% of normal FVIII levels. In two of nine dogs, levels of FVIII activity increased gradually starting about 4 years after treatment. None of the dogs showed evidence of tumors or altered liver function. Analysis of integration sites in liver samples from six treated dogs identified 1,741 unique AAV integration events in genomic DNA and expanded cell clones in five dogs, with 44% of the integrations near genes involved in cell growth. All recovered integrated vectors were partially deleted and/or rearranged. Our data suggest that the increase in FVIII protein expression in two dogs may have been due to clonal expansion of cells harboring integrated vectors. These results support the clinical development of liver-directed AAV gene therapy for hemophilia A, while emphasizing the importance of long-term monitoring for potential genotoxicity.

Published
2020

39. Metastatic Mixed Germ Cell Tumour with Embryonal Carcinoma and Choriocarcinoma in a Female Eurasian Harvest Mouse (Micromys minutus)

Author

Enrico Radaelli, James C. Tarrant, Brona N Ranieri, John G. Trupkiewicz, Lucia Minoli, Molly E. Church, and Charles A. Assenmacher

Subjects
CD30, 040301 veterinary sciences, Ki-1 Antigen, Context (language use), Ovary, 030308 mycology & parasitology, Pathology and Forensic Medicine, Rodent Diseases, 0403 veterinary science, Embryonal carcinoma, Mice, 03 medical and health sciences, Carcinoma, Embryonal, medicine, Animals, Micromys minutus, Choriocarcinoma, 0303 health sciences, General Veterinary, biology, Wnt signaling pathway, 04 agricultural and veterinary sciences, Neoplasms, Germ Cell and Embryonal, medicine.disease, biology.organism_classification, medicine.anatomical_structure, Cancer research, Female, Germ cell
Abstract

Mixed germ cell tumours occur rarely in veterinary species. This report describes a case of metastatic mixed germ cell tumour in a female Eurasian harvest mouse (Micromys minutus). The tumour was extensive in one ovary and the uterus, and was characterized by two distinct tumour cell populations with features typical of embryonal carcinoma (EC) and choriocarcinoma (CC). Metastases of CC to the lungs and liver were observed. The exact origin of the CC was unclear, but the possibility of a non-gestational CC is favoured, given the context of a mixed germ cell tumour and lack of p53 expression. EC diagnosis was confirmed by immunohistochemical labelling of CD30 and lack of immunoreactivity for c-Kit. In addition, membranous β-catenin expression was present in the EC component, indicating an inactive Wnt/β-catenin pathway, which is required for the maintenance of pluripotency.

Published
2020

40. Krabbe disease successfully treated via monotherapy of intrathecal gene therapy

Author

Ernesto R. Bongarzone, Charles A. Assenmacher, G. Diane Shelton, Keiko Miyadera, Gary P. Swain, Charles H. Vite, Xuntian Jiang, Erik Lykken, Duc Nguyen, Jill Pesayco Salvador, Jessica H. Bagel, Patricia O'Donnell, Arielle Ostrager, Steven J. Gray, Rebecka S. Hess, Mark S. Sands, Allison M. Bradbury, Daniel S. Ory, and Ian J. Hendricks

Subjects
0301 basic medicine, medicine.medical_treatment, Genetic enhancement, Inflammation, Hematopoietic stem cell transplantation, Cisterna magna, 03 medical and health sciences, Dogs, 0302 clinical medicine, Galactosylceramidase, medicine, Animals, business.industry, Leukodystrophy, Genetic Therapy, General Medicine, Dependovirus, medicine.disease, Leukodystrophy, Globoid Cell, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Peripheral nervous system, Immunology, Krabbe disease, medicine.symptom, business, Research Article
Abstract

Globoid cell leukodystrophy (GLD; Krabbe disease) is a progressive, incurable neurodegenerative disease caused by deficient activity of the hydrolytic enzyme galactosylceramidase (GALC). The ensuing cytotoxic accumulation of psychosine results in diffuse central and peripheral nervous system (CNS, PNS) demyelination. Presymptomatic hematopoietic stem cell transplantation (HSCT) is the only treatment for infantile-onset GLD; however, clinical outcomes of HSCT recipients often remain poor, and procedure-related morbidity is high. There are no effective therapies for symptomatic patients. Herein, we demonstrate in the naturally occurring canine model of GLD that presymptomatic monotherapy with intrathecal AAV9 encoding canine GALC administered into the cisterna magna increased GALC enzyme activity, normalized psychosine concentration, improved myelination, and attenuated inflammation in both the CNS and PNS. Moreover, AAV-mediated therapy successfully prevented clinical neurological dysfunction, allowing treated dogs to live beyond 2.5 years of age, more than 7 times longer than untreated dogs. Furthermore, we found that a 5-fold lower dose resulted in an attenuated form of disease, indicating that sufficient dosing is critical. Finally, postsymptomatic therapy with high-dose AAV9 also significantly extended lifespan, signifying a treatment option for patients for whom HSCT is not applicable. If translatable to patients, these findings would improve the outcomes of patients treated either pre- or postsymptomatically.

Published
2020

41. Inflammatory monocytes promote pyogranuloma formation to counteract Yersinia blockade of host defense

Author

Daniel Sorobetea, Rina Matsuda, Stefan T. Peterson, James P. Grayczyk, Indira Rao, Elise Krespan, Matthew Lanza, Charles-Antoine Assenmacher, Daniel Beiting, Enrico Radaelli, and Igor Brodsky

Abstract

Granulomas are organized immune cell aggregates that form in response to chronic infection or antigen persistence. Yersinia pseudotuberculosis (Yp) blocks innate inflammatory signaling and phagocytosis, inducing formation of neutrophil-rich pyogranulomas within lymphoid tissues. Here, we uncover that Yp triggers pyogranuloma formation within the murine intestinal mucosa, a site not known to contain such structures. Mice lacking circulating monocytes fail to form defined pyogranulomas, have defects in neutrophil activation, and succumb to Yp infection. Yersinia lacking the virulence factors that block phagocytosis did not induce pyogranulomas, indicating that intestinal pyogranulomas form in response to Yp disruption of phagocytosis. Notably, mutation of a single anti-phagocytic virulence factor, YopH, restored pyogranuloma formation and control of Yp infection in monocyte-deficient mice, demonstrating that monocytes override YopH-dependent blockade of innate immune defense. This work reveals an unappreciated site of Yersinia intestinal invasion, and defines host and pathogen drivers of intestinal granuloma formation.

Published
2022

42. Computer-assisted mitotic count using a deep learning-based algorithm improves interobserver reproducibility and accuracy

Author

Christof A. Bertram, Marc Aubreville, Taryn A. Donovan, Alexander Bartel, Frauke Wilm, Christian Marzahl, Charles-Antoine Assenmacher, Kathrin Becker, Mark Bennett, Sarah Corner, Brieuc Cossic, Daniela Denk, Martina Dettwiler, Beatriz Garcia Gonzalez, Corinne Gurtner, Ann-Kathrin Haverkamp, Annabelle Heier, Annika Lehmbecker, Sophie Merz, Erica L. Noland, Stephanie Plog, Anja Schmidt, Franziska Sebastian, Dodd G. Sledge, Rebecca C. Smedley, Marco Tecilla, Tuddow Thaiwong, Andrea Fuchs-Baumgartinger, Donald J. Meuten, Katharina Breininger, Matti Kiupel, Andreas Maier, and Robert Klopfleisch

Subjects
Pathologists, Deep Learning, Dogs, General Veterinary, Artificial Intelligence, Animals, Humans, Reproducibility of Results, Algorithms
Abstract

The mitotic count (MC) is an important histological parameter for prognostication of malignant neoplasms. However, it has inter- and intraobserver discrepancies due to difficulties in selecting the region of interest (MC-ROI) and in identifying or classifying mitotic figures (MFs). Recent progress in the field of artificial intelligence has allowed the development of high-performance algorithms that may improve standardization of the MC. As algorithmic predictions are not flawless, computer-assisted review by pathologists may ensure reliability. In the present study, we compared partial (MC-ROI preselection) and full (additional visualization of MF candidates and display of algorithmic confidence values) computer-assisted MC analysis to the routine (unaided) MC analysis by 23 pathologists for whole-slide images of 50 canine cutaneous mast cell tumors (ccMCTs). Algorithmic predictions aimed to assist pathologists in detecting mitotic hotspot locations, reducing omission of MFs, and improving classification against imposters. The interobserver consistency for the MC significantly increased with computer assistance (interobserver correlation coefficient, ICC = 0.92) compared to the unaided approach (ICC = 0.70). Classification into prognostic stratifications had a higher accuracy with computer assistance. The algorithmically preselected hotspot MC-ROIs had a consistently higher MCs than the manually selected MC-ROIs. Compared to a ground truth (developed with immunohistochemistry for phosphohistone H3), pathologist performance in detecting individual MF was augmented when using computer assistance (F1-score of 0.68 increased to 0.79) with a reduction in false negatives by 38%. The results of this study demonstrate that computer assistance may lead to more reproducible and accurate MCs in ccMCTs.

Published
2021

43. A human orthogonal IL-2 and IL-2Rβ system enhances CAR T cell expansion and antitumor activity in a murine model of leukemia

Author

Qian Zhang, Morgan E. Hresko, Lora K. Picton, Leon Su, Michael J. Hollander, Selene Nunez-Cruz, Zheng Zhang, Charles-Antoine Assenmacher, Jonathan T. Sockolosky, K. Christopher Garcia, and Michael C. Milone

Subjects
endocrine system, Leukemia, integumentary system, organic chemicals, T-Lymphocytes, Antigens, CD19, General Medicine, Immunotherapy, Adoptive, Xenograft Model Antitumor Assays, Article, Disease Models, Animal, Mice, Animals, Humans, Interleukin-2, Cell Proliferation
Abstract

Interleukin (IL)-2 is a central T cell cytokine that promotes T cell proliferation and effector function; however, toxicity due to its pluripotency limits its application to enhance CAR T cell immunotherapy. Previously, mouse IL-2 and its cognate receptor were engineered to create an orthogonal (ortho) cytokine-cytokine receptor pair capable of delivering a IL-2 signal without toxicity. Here we engineered a human orthogonal IL-2 (ortho-hIL-2) and human orthogonal IL-2Rβ (ortho-hIL-2Rβ) pair, containing human-specific mutations. Ortho-hIL-2 is selective towards ortho-hIL-2Rβ expressing cells with no appreciable signaling on wild-type T cells. Ortho-hIL-2 induces IL-2 receptor signaling and supports proliferation of both an IL-2-dependent cell line and primary T cells transduced to express the ortho-hIL-2Rβ. Using CD19-specific chimeric antigen receptor (CAR) T cells, we show that ortho-hIL-2 induces a dose-dependent increase in ortho-hIL-2Rβ(+) CAR T cell expansion in vivo by as much as 1000-fold at two weeks following adoptive transfer into immunodeficient mice bearing CD19(+) Nalm6 leukemia xenografts. Ortho-hIL-2 can rescue the anti-leukemic effect of an otherwise suboptimal CAR T cell dose. In addition, ortho-hIL-2 administration initiated at the time of leukemic relapse following CAR T cell therapy can rescue an otherwise failed anti-leukemic response. These data highlight the potential of combining an ortho cytokine approach with T cell-based immunotherapies to augment the anti-tumor efficacy of engineered T cells.

Published
2021

44. Computer-Assisted Mitotic Count Using a Deep Learning-based Algorithm Improves Inter-Observer Reproducibility and Accuracy in canine cutaneous mast cell tumors

Author

Annika Lehmbecker, Robert Klopfleisch, Daniela Denk, Sarah Corner, Dodd G. Sledge, Matti Kiupel, Brieuc Cossic, Heier A, Rebecca C. Smedley, Andreas Maier, Mark Bennett, Christof A. Bertram, Tuddow Thaiwong, Donovan Ta, Haverkamp A, Marco Tecilla, Charles-Antoine Assenmacher, Beatriz Garcia Gonzalez, Christian Marzahl, Sophie Merz, Anja Schmidt, Alexander Bartel, Kathrin Becker, Frauke Wilm, D. J. Meuten, Katharina Breininger, Stephanie Plog, Erica L. Noland, Corinne Gurtner, Andrea Fuchs-Baumgartinger, Martina Dettwiler, Marc Aubreville, and Sebastian F

Subjects
Inter observer reproducibility, Computer assistance, business.industry, Computer science, Region of interest, Deep learning, Mitotic Figure, Artificial intelligence, business, Algorithm, Mast cell tumors, Mitotic Count, Visualization
Abstract

The mitotic count (MC) is an important histological parameter for prognostication of malignant neoplasms. However, it has inter- and intra-observer discrepancies due to difficulties in selecting the region of interest (MC-ROI) and in identifying/classifying mitotic figures (MFs). Recent progress in the field of artificial intelligence has allowed the development of high-performance algorithms that may improve standardization of the MC. As algorithmic predictions are not flawless, the computer-assisted review by pathologists may ensure reliability. In the present study we have compared partial (MC-ROI preselection) and full (additional visualization of MF candidate proposal and display of algorithmic confidence values) computer-assisted MC analysis to the routine (unaided) MC analysis by 23 pathologists for whole slide images of 50 canine cutaneous mast cell tumors (ccMCTs). Algorithmic predictions aimed to assist pathologists in detecting mitotic hotspot locations, reducing omission of MF and improving classification against imposters. The inter-observer consistency for the MC significantly increased with computer assistance (interobserver correlation coefficient, ICC = 0.92) compared to the unaided approach (ICC = 0.70). Classification into prognostic stratifications had a higher accuracy with computer assistance. The algorithmically preselected MC-ROIs had a consistently higher MCs than the manually selected MC-ROIs. Compared to a ground truth (developed with immunohistochemistry for phosphohistone H3), pathologist performance in detecting individual MF was augmented when using computer assistance (F1-score of 0.68 increased to 0.79) with a reduction in false negatives by 38%. The results of this study prove that computer assistance may lead to a more reproducible and accurate MCs in ccMCTs.

Published
2021

45. Abstract 1344: Immune transcriptional profiling in a large animal model of histiocytic sarcoma reveals putative drivers and tumor suppressors

Author

Jennifer A. Lenz, Charles-Antoine Assenmacher, Enrico Radaelli, and Matthew J. Atherton

Subjects
Cancer Research, Oncology
Abstract

Histiocytic sarcoma (HS) is a rare, yet lethal malignancy with a median overall survival of six months and no universally agreed standard of care therapy. Due to the paucity of human cases, there is a drive to develop model systems to improve our understanding of the pathology underlying this disease and screen new treatment strategies. Spontaneous canine HS exhibits increased prevalence in specific breeds, shares key genetic and biologic similarities with the human disease, and occurs in an immunocompetent setting. Our previous studies revealed a spectrum of hot and cold immune tumor microenvironments (TME) based on tumor infiltrating lymphocyte (TIL) quantification in 18 canine and 5 human HS cases. In dogs, increased TIL densities were positively associated with longer survival times. Despite this association, the disease course of HS in our veterinary patient cohort was nearly uniformly fatal. To evaluate for potential inhibitors of T cell immunity in the TME and identify putative drivers and suppressors of HS, we performed immune transcription profiling. Tumors were selected from 3 short-lived cases of splenic HS that were sparsely infiltrated with TIL and 3 long-lived cases of pulmonary HS that were T cell inflamed. Tumors were compared to corresponding grossly healthy splenic and lung tissues collected from 3 dogs without neoplasia undergoing routine post-mortem examination. RNA was extracted from formalin-fixed paraffin embedded tissues and immune transcription profiling was performed using the NanoString nCounter Canine IO Panel. Analyses of all tumors compared to normal tissues, and subset analyses of tissues stratified based on tissue origin site, revealed enrichment of ITGAX (CD11c) expression in the HS tumor samples consistent with histiocytic origin. In each subset analysis, SPP1 (osteopontin) was highly expressed in HS tumors compared with normal tissues. Osteopontin has been shown to be protumorigenic in a variety of cancers, is a potent chemokine for macrophages, and can suppress T cell activation through ligation of CD44, thus acting as a T cell checkpoint. Additionally, we found decreased expression of TXNIP in HS tumors compared to healthy tissues. TXNIP is an established tumor suppressor gene in various tumor types, including acute myeloid leukemia. Future studies will interrogate the functional implications of these transcriptional changes with the aim of developing novel therapeutic strategies for HS in both species. Citation Format: Jennifer A. Lenz, Charles-Antoine Assenmacher, Enrico Radaelli, Matthew J. Atherton. Immune transcriptional profiling in a large animal model of histiocytic sarcoma reveals putative drivers and tumor suppressors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1344.

Published
2022

46. FLASH Proton Radiotherapy Spares Normal Epithelial and Mesenchymal Tissues While Preserving Sarcoma Response

Author

Enrico Radaelli, Gwendolyn M. Cramer, Denisa Goia, Sarah Hagan, Lutian Yao, Andy J. Minn, Lei Dong, Michele M. Kim, Amit Maity, Artemis G. Hatzigeorgiou, Eric S. Diffenderfer, James M. Metz, Anastasia Velalopoulou, Charles-Antoine Assenmacher, Keith A. Cengel, Mary E. Putt, Ioannis I. Verginadis, Michelle Cerullo, Theresa M. Busch, Giorgos Skoufos, Ling Qin, Ilias V. Karagounis, Kelley M. Varner, June Chiango, Khayrullo Shoniyozov, Matthew R. Lanza, Jennifer L. Huck, and Constantinos Koumenis

Subjects
Cancer Research, medicine.medical_treatment, Bone resorption, Bone and Bones, Epithelium, Article, Mice, Breast cancer, Dogs, Osteoclast, Proton Therapy, Medicine, Animals, Humans, Radiation Injuries, Skin, integumentary system, business.industry, Gene Expression Profiling, Muscles, Mesenchymal stem cell, food and beverages, Radiotherapy Dosage, Sarcoma, Hair follicle, medicine.disease, Radiation therapy, Disease Models, Animal, medicine.anatomical_structure, Treatment Outcome, Oncology, Cancer research, Female, Stem cell, Morbidity, business, Organ Sparing Treatments
Abstract

In studies of electron and proton radiotherapy, ultrahigh dose rates of FLASH radiotherapy appear to produce fewer toxicities than standard dose rates while maintaining local tumor control. FLASH-proton radiotherapy (F-PRT) brings the spatial advantages of PRT to FLASH dose rates (>40 Gy/second), making it important to understand if and how F-PRT spares normal tissues while providing antitumor efficacy that is equivalent to standard-proton radiotherapy (S-PRT). Here we studied PRT damage to skin and mesenchymal tissues of muscle and bone and found that F-PRT of the C57BL/6 murine hind leg produced fewer severe toxicities leading to death or requiring euthanasia than S-PRT of the same dose. RNA-seq analyses of murine skin and bone revealed pathways upregulated by S-PRT yet unaltered by F-PRT, such as apoptosis signaling and keratinocyte differentiation in skin, as well as osteoclast differentiation and chondrocyte development in bone. Corroborating these findings, F-PRT reduced skin injury, stem cell depletion, and inflammation, mitigated late effects including lymphedema, and decreased histopathologically detected myofiber atrophy, bone resorption, hair follicle atrophy, and epidermal hyperplasia. F-PRT was equipotent to S-PRT in control of two murine sarcoma models, including at an orthotopic intramuscular site, thereby establishing its relevance to mesenchymal cancers. Finally, S-PRT produced greater increases in TGFβ1 in murine skin and the skin of canines enrolled in a phase I study of F-PRT versus S-PRT. Collectively, these data provide novel insights into F-PRT-mediated tissue sparing and support its ongoing investigation in applications that would benefit from this sparing of skin and mesenchymal tissues. Significance: These findings will spur investigation of FLASH radiotherapy in sarcoma and additional cancers where mesenchymal tissues are at risk, including head and neck cancer, breast cancer, and pelvic malignancies.

Published
2021

47. Lentiviral vector ALS20 yields high hemoglobin levels with low genomic integrations for treatment of beta-globinopathies

Author

Tobias Raabe, Janet L. Kwiatkowski, Aoife M. Doto, Alisa Dong, Frederic D. Bushman, Charles A. Assenmacher, Enrico Radaelli, John K. Everett, Carla Casu, Danuta Jarocha, Kim Smith-Whitley, Osheiza Abdulmalik, Xiaochuan Shan, Laura Breda, James C. Tarrant, Yasuhiro Ikawa, Ryo Kurita, Virginia Guzikowski, Gwenn Danet-Desnoyers, Naoto Tanaka, Natalie Hoepp, Stefano Rivella, Yukio Nakamura, and Valentina Ghiaccio

Subjects
Pharmacology, 0303 health sciences, Genetic enhancement, Biology, Genome, Viral vector, 03 medical and health sciences, 0302 clinical medicine, Cell culture, 030220 oncology & carcinogenesis, Drug Discovery, Genetics, Cancer research, Molecular Medicine, Cytotoxic T cell, Original Article, Molecular Biology, Gene, Hypersensitive site, Locus control region, 030304 developmental biology
Abstract

Ongoing clinical trials for treatment of beta-globinopathies by gene therapy involve the transfer of the beta-globin gene, which requires integration of three to four copies per genome in most target cells. This high proviral load may increase genome toxicity, potentially limiting the safety of this therapy and relegating its use to total body myeloablation. We hypothesized that introducing an additional hypersensitive site from the locus control region, the complete sequence of the second intron of the beta-globin gene, and the ankyrin insulator may enhance beta-globin expression. We identified a construct, ALS20, that synthesized significantly higher adult hemoglobin levels than those of other constructs currently used in clinical trials. These findings were confirmed in erythroblastic cell lines and in primary cells isolated from sickle cell disease patients. Bone marrow transplantation studies in beta-thalassemia mice revealed that ALS20 was curative at less than one copy per genome. Injection of human CD34(+) cells transduced with ALS20 led to safe, long-term, and high polyclonal engraftment in xenograft experiments. Successful treatment of beta-globinopathies with ALS20 could potentially be achieved at less than two copies per genome, minimizing the risk of cytotoxic events and lowering the intensity of myeloablation.

Published
2021

48. Influence of Inter-Annotator Variability on Automatic Mitotic Figure Assessment

Author

Rebecca C. Smedley, Mark Bennett, Frauke Wilm, Charles-Antoine Assenmacher, Brieuc Cossic, Alexander Bartel, Christian Marzahl, Katharina Breininger, Kathrin Becker, Daniela Denk, Sarah Corner, Robert Klopfleisch, Andreas Maier, Franziska Sebastian, Matti Kiupel, Stephanie Plog, Beatriz Garcia Gonzalez, Taryn A. Donovan, Marco Tecilla, Annabelle Heier, Annika Lehmbecker, Christof A. Bertram, Tuddow Thaiwong, Marc Aubreville, Corinne Gurtner, Martina Dettwiler, Sophie Merz, and Anja Schmidt

Subjects
business.industry, Computer science, Deep learning, Mitotic Figure, Gold standard (test), Artificial intelligence, business, Machine learning, computer.software_genre, computer
Abstract

Density of mitotic figures in histologic sections is a prognostically relevant characteristic for many tumours. Due to high interpathologist variability, deep learning-based algorithms are a promising solution to improve tumour prognostication. Pathologists are the gold standard for database development, however, labelling errors may hamper development of accurate algorithms. In the present work we evaluated the benefit of multi-expert consensus (n = 3, 5, 7, 9, 11) on algorithmic performance. While training with individual databases resulted in highly variable F1 scores, performance was notably increased and more consistent when using the consensus of three annotators. Adding more annotators only resulted in minor improvements. We conclude that databases by few pathologists and high label precision may be the best compromise between high algorithmic performance and time investment.

Published
2021

49. Classification and Grading of Melanocytic Lesions in a Mouse Model of NRAS-driven Melanomagenesis

Author

Charles-Antoine Assenmacher, Enrico Radaelli, Sara F Santagostino, Mark A. Oyama, Jean-Christophe Marine, and Elise Bonvin

Subjects
0301 basic medicine, Neuroblastoma RAS viral oncogene homolog, medicine.medical_specialty, Pathology, Histology, Mice, Transgenic, Biology, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, Biomarkers, Tumor, Animals, Grading (tumors), Melanoma, Cell Proliferation, Monomeric GTP-Binding Proteins, Articles, Nestin, Microphthalmia-associated transcription factor, medicine.disease, Disease Models, Animal, 030104 developmental biology, Real-time polymerase chain reaction, 030220 oncology & carcinogenesis, Immunohistochemistry, Histopathology, Anatomy
Abstract

The mouse line carrying the Tg(Tyr-NRAS*Q61K)1Bee transgene is widely used to model in vivo NRAS-driven melanomagenesis. Although the pathological features of this model are well described, classification and interpretation of the resulting proliferative lesions—including their origin, evolution, grading, and pathobiological significance—are still unclear and not supported by molecular and biological evidence. Focusing on their classification and grading, this work combines histopathology and expression analysis (using both immunohistochemistry [IHC] and quantitative PCR) of selected biomarkers to study the full spectrum of cutaneous and lymph nodal melanocytic proliferations in the Tg(Tyr-NRAS*Q61K)1Bee mouse. The analysis of cutaneous and lymph nodal melanocytic proliferations has demonstrated that a linear correlation exists between tumor grade and Ki-67, microphthalmia-associated transcription factor (MITF), gp100, and nestin IHC, with a significantly increased expression in high-grade lesions compared with low-grade lesions. The accuracy of the assessment of MITF IHC in melanomas was also confirmed by quantitative PCR analysis. In conclusion, we believe the incorporation of MITF, Ki-67, gp100, and nestin analysis into the histopathological classification/grading scheme of melanocytic proliferations described for this model will help to assess with accuracy the nature and evolution of the phenotype, monitor disease progression, and predict response to experimental treatment or other preclinical manipulations.

Published
2020

50. Antigen-specific B cell depletion for precision therapy of mucosal pemphigus vulgaris

Author

Xuming Mao, Daniel K. Lundgren, Oh Sangwook, Joseph A. Fraietta, Michael C. Milone, Wang Baomei, Jinmin Lee, Enrico Radaelli, Aimee S. Payne, Erik F. Williams, Christoph T. Ellebrecht, Silvio Manfredo-Vieira, Charles-Antoine Assenmacher, and Selene Nunez-Cruz

Subjects
0301 basic medicine, Adult, Male, Isoantigens, medicine.medical_treatment, Cell, Mice, SCID, Biology, Epitope, Lymphocyte Depletion, 03 medical and health sciences, Interferon-gamma, Mice, 0302 clinical medicine, Immune system, Mice, Inbred NOD, medicine, Cytotoxic T cell, Animals, Humans, Precision Medicine, education, Autoantibodies, education.field_of_study, B-Lymphocytes, Desmoglein 3, Pemphigus vulgaris, Concise Communication, Autoantibody, General Medicine, Immunotherapy, medicine.disease, Adoptive Transfer, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer research, Female, Pemphigus
Abstract

Desmoglein 3 chimeric autoantibody receptor T cells (DSG3-CAART) expressing the pemphigus vulgaris (PV) autoantigen DSG3 fused to CD137-CD3ζ signaling domains, represent a precision cellular immunotherapy approach for antigen-specific B cell depletion. Here, we present definitive preclinical studies enabling a first-in-human trial of DSG3-CAART for mucosal PV. DSG3-CAART specifically lysed human anti-DSG3 B cells from PV patients and demonstrated activity consistent with a threshold dose in vivo, resulting in decreased target cell burden, decreased serum and tissue-bound autoantibodies, and increased DSG3-CAART engraftment. In a PV active immune model with physiologic anti-DSG3 IgG levels, DSG3-CAART inhibited antibody responses against pathogenic DSG3 epitopes and autoantibody binding to epithelial tissues, leading to clinical and histologic resolution of blisters. DSG3 autoantibodies stimulated DSG3-CAART IFN-γ secretion and homotypic clustering, consistent with an activated phenotype. Toxicology screens using primary human cells and high-throughput membrane proteome arrays did not identify off-target cytotoxic interactions. These preclinical data guided the trial design for DSG3-CAART and may help inform CAART preclinical development for other antibody-mediated diseases.

Published
2020

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