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1. Functional diversities within neurons and astrocytes in the adult rat auditory cortex revealed by single-nucleus RNA sequencing

Author

Aysegul Gungor Aydin, Alexander Lemenze, and Kasia M. Bieszczad

Subjects
Auditory cortex, Learning & memory, Astrocytes, Rat, Transcriptomics, Synaptic plasticity, Medicine, Science
Abstract

Abstract The mammalian cerebral cortex is composed of a rich diversity of cell types. Sensory cortical cells are organized into networks that rely on their functional diversity to ultimately carry out a variety of sophisticated cognitive functions for perception, learning, and memory. The auditory cortex (AC) has been most extensively studied for its experience-dependent effects, including for perceptual learning and associative memory. Here, we used single-nucleus RNA sequencing (snRNA-seq) in the AC of the adult rat to investigate the breadth of transcriptionally diverse cell types that likely support the role of AC in experience-dependent functions. A variety of unique excitatory and inhibitory neuron subtypes were identified that harbor unique transcriptional profiles of genes with putative relevance for the adaptive neuroplasticity of cortical microcircuits. In addition, we report for the first time a diversity of astrocytes in AC that may represent functionally unique subtypes, including those that could integrate experience-dependent adult neuroplasticity at cortical synapses. Together, these results pave the way for building models of how cortical neurons work in concert with astrocytes to fulfill dynamic and experience-dependent cognitive functions.

Published
2024
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3. Use of high throughput DNA analysis to characterize the nodule-associated bacterial community from four ages of Inga punctata trees in a Costa Rican cloud forest

Author

William D. Eaton, Debra A. Hamilton, Wen Chen, Alexander Lemenze, and Patricia Soteropoulos

Subjects
root nodule bacteria, root nodule-associated bacterial community, inga punctata root nodules, plant growth-promoting bacteria, bradyrhizobium diazoefficiens, dna analysis of root nodule bacteria, Microbiology, QR1-502
Abstract

Leguminous tree root nodule nitrogen-fixing bacteria are critical for recuperation of soil C and N cycle processes after disturbance in tropical forests, while other nodule-associated bacteria (NAB) may enhance nodule development and activity, and plant growth. However, little is known of these root nodule microbiomes. Through DNA analysis, we evaluated the bacterial taxa associated with the root nodules of the 1-year-old, 2-year-old, 13-year-old, and old growth Inga punctata trees in a cloud forest. Bradyrhizobium diazoefficiens was the dominant taxon found in all nodules at 63.16% to 85.71% mean percent sequences (MPS) of the total nodule bacterial DNA and was found in the youngest nodules examined (1 year old), suggesting that it is the primary nodular bacteria. There were 26 other NAB genera with collective MPS levels between 7.4% to 12.2%, while 15 of these genera were found in the Bulk Forest soils at collective MPS levels of 4.6%. These bacterial community compositions were different between the NAB and Bulk Forest soils, suggesting the NAB became concentrated within the root nodules, resulting in communities with different compositions from the Bulk Forest soils. Twenty-three of the 26 NAB genera were previously identified with the potential to perform 9 plant growth promoting (PGP) activities, suggesting their importance in root nodule development and plant growth. These NAB communities appeared to successionally develop over time into more complex taxonomic communities, which is consistent with the outcome of advanced microbial communities following succession. The presence of both B. diazoefficiens and the NAB communities in the nodules across all ages of tree roots, and the potential for PGP activities linked with most of the NAB genera, suggest the importance of B. diazoefficiens and the NAB community for nodule development and enhanced development and growth of I. punctata throughout its lifespan, and most critically in the younger plants.

Published
2024
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4. Aberrant zonal recycling of germinal center B cells impairs appropriate selection in lupus

Author

Gina M. Sanchez, Eden S. Hirsch, Arthur VanValkenburg, Daniel P. Mayer, Komi Gbedande, Rebecca L. Francis, Wenzhi Song, Olivia Q. Antao, Kyleigh E. Brimmer, Alexander Lemenze, Robin Stephens, W. Evan Johnson, and Jason S. Weinstein

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

Summary: Autoimmune diseases such as lupus are characterized by polyclonal B cell activation, leading to the production of autoantibodies. The mechanism leading to B cell dysregulation is unclear; however, the defect may lie in selection within germinal centers (GCs). GC B cells cycle between proliferation and mutation in the dark zone and selection in the light zone (LZ). Temporal assessment of GCs from mice with either persistent infection or lupus showed an accumulation of LZ B cells. Yet, only in lupus, GC B cells exhibited reduced proliferation and progressive loss of MYC and FOXO1, which regulate zonal recycling and differentiation. As lupus progressed, decreased mutational frequency and repertoire diversity were associated with reduced responsiveness to CD40 signaling, despite accumulation of plasma cells. Collectively, these findings suggest that lupus disease progression coincides with an intrinsic defect in LZ B cell signaling, altering the zonal recycling, selection, and differentiation of autoreactive B cells.

Published
2024
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5. Innate cells and STAT1-dependent signals orchestrate vaccine-induced protection against invasive Cryptococcus infection

Author

Keyi Wang, Vanessa Espinosa, Yina Wang, Alexander Lemenze, Yosuke Kumamoto, Chaoyang Xue, and Amariliz Rivera

Subjects
immunization, Cryptococcus neoformans, antifungal therapy, innate immunity, monocytes, neutrophils, Microbiology, QR1-502
Abstract

ABSTRACT Fungal pathogens are underappreciated causes of significant morbidity and mortality worldwide. In previous studies, we determined that a heat-killed, Cryptococcus neoformans fbp1-deficient strain (HK-fbp1) is a potent vaccine candidate. We determined that vaccination with HK-fbp1 confers protective immunity against lethal Cryptococcosis in an interferon γ (IFNγ)-dependent manner. In this study, we set out to uncover cellular sources and relevant targets of the protective effects of IFNγ in response to the HK-fbp1 vaccine. We found that early IFNγ production peaks at day 3 and that monocytes and neutrophils are important sources of this cytokine after vaccination. Neutralization of IFNγ at day 3 results in impaired CCR2+ monocyte recruitment and reduced differentiation into monocyte-derived dendritic cells (Mo-DC). In turn, depletion of CCR2+ cells prior to immunization results in impaired activation of IFNγ-producing CD4 and CD8 T cells. Thus, monocytes are important targets of innate IFNγ and help promote further IFNγ production by lymphocytes. We employed monocyte-fate mapper and conditional STAT1 knockout mice to uncover that STAT1 activation in CD11c+ cells, including alveolar macrophages, Mo-DCs, and monocyte-derived macrophages (Mo-Mac) is essential for HK-fbp1 vaccine-induced protection. Altogether, our aggregate findings suggest critical roles for innate cells as orchestrators of vaccine-induced protection against Cryptococcus infection.IMPORTANCEThe number of patients susceptible to invasive fungal infections across the world continues to rise at an alarming pace yet current antifungal drugs are often inadequate. Immune-based interventions and novel antifungal vaccines hold the promise of significantly improving patient outcomes. In previous studies, we identified a Cryptococcus neoformans mutant strain (Fbp1-deficient) as a potent, heat-inactivated vaccine candidate capable of inducing homologous and heterologous antifungal protection. In this study, we used a combination of methods together with a cohort of conditional knockout mouse strains to interrogate the roles of innate cells in the orchestration of vaccine-induced antifungal protection. We uncovered novel roles for neutrophils and monocytes as coordinators of a STAT1-dependent cascade of responses that mediate vaccine-induced protection against invasive cryptococcosis. This new knowledge will help guide the future development of much-needed antifungal vaccines.

Published
2024
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6. Dendritic Cells Pulsed with HAM/TSP Exosomes Sensitize CD4 T Cells to Enhance HTLV-1 Infection, Induce Helper T-Cell Polarization, and Decrease Cytotoxic T-Cell Response

Author

Julie Joseph, Thomas A. Premeaux, Ritesh Tandon, Edward L. Murphy, Roberta Bruhn, Christophe Nicot, Bobby Brooke Herrera, Alexander Lemenze, Reem Alatrash, Prince Baffour Tonto, Lishomwa C. Ndhlovu, and Pooja Jain

Subjects
HAM/TSP, exosomes, HTLV-1, dendritic cells, T cells, Microbiology, QR1-502
Abstract

HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP) is a progressive demyelinating disease of the spinal cord due to chronic inflammation. Hallmarks of disease pathology include dysfunctional anti-viral responses and the infiltration of HTLV-1-infected CD4+ T cells and HTLV-1-specific CD8+ T cells in the central nervous system. HAM/TSP individuals exhibit CD4+ and CD8+ T cells with elevated co-expression of multiple inhibitory immune checkpoint proteins (ICPs), but ICP blockade strategies can only partially restore CD8+ T-cell effector function. Exosomes, small extracellular vesicles, can enhance the spread of viral infections and blunt anti-viral responses. Here, we evaluated the impact of exosomes isolated from HTLV-1-infected cells and HAM/TSP patient sera on dendritic cell (DC) and T-cell phenotypes and function. We observed that exosomes derived from HTLV-infected cell lines (OSP2) elicit proinflammatory cytokine responses in DCs, promote helper CD4+ T-cell polarization, and suppress CD8+ T-cell effector function. Furthermore, exosomes from individuals with HAM/TSP stimulate CD4+ T-cell polarization, marked by increased Th1 and regulatory T-cell differentiation. We conclude that exosomes in the setting of HAM/TSP are detrimental to DC and T-cell function and may contribute to the progression of pathology with HTLV-1 infection.

Published
2024
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8. A comprehensive update to the Mycobacterium tuberculosis H37Rv reference genome

Author

Poonam Chitale, Alexander D. Lemenze, Emily C. Fogarty, Avi Shah, Courtney Grady, Aubrey R. Odom-Mabey, W. Evan Johnson, Jason H. Yang, A. Murat Eren, Roland Brosch, Pradeep Kumar, and David Alland

Subjects
Science
Abstract

H37Rv is the most widely used Mycobacterium tuberculosis strain, and its genome is the reference sequence for this pathogen. Here, Chitale et al. present a bioinformatic pipeline for accurate assembly of bacterial genome sequences, and use it to provide important updates to the M. tuberculosis reference genome.

Published
2022
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14. Monocyte-regulated interleukin 12 production drives clearance of Staphylococcus aureus.

Author

Peignier, Adeline, Kim, Jisun, Lemenze, Alexander, and Parker, Dane

Subjects
KILLER cells, ALVEOLAR macrophages, SKIN infections, REACTIVE oxygen species, RESPIRATORY diseases
Abstract

Staphylococcus aureus is a versatile bacterium responsible for conditions ranging from mild skin and soft-tissue infections to serious disorders such as pneumonia and sepsis. Monocytes play a role in protection against pathogens by migrating to inflamed tissues and differentiating into macrophages but their specific role in the context of S. aureus pulmonary infection has not been fully elucidated. Using a CCR2-DTR transgenic mouse model we demonstrate that over the course of infection monocyte depletion resulted in worse airway clearance of S. aureus. The bronchoalveolar lavage fluid (BALF) of CCR2-DTR mice after S. aureus infection displayed significant decreases in interleukin-12 (IL-12), IFN-γ, IP-10, MIG and RANTES, all IFN-γ regulated, compared to wild-type (WT) infected controls. NK cells were identified as the main producers of IFN-γ, but both NK cells and IFN-γ were dispensable for clearance. We demonstrated through cytokine production and RNA-seq analysis that IL-12 and IL-12 regulated genes are strongly induced in monocytes upon S. aureus infection. Administration of IL-12 during infection restored the bacterial burdens in the BALF and lungs of monocyte-depleted CCR2-DTR mice to the levels of WT mice, independent of IFN-γ. In the absence of monocytes, alveolar macrophages are the primary phagocytic cells, and IL-12 influences their capacity to produce reactive oxygen species and clear S. aureus. These results show that production of IL-12 contributes to the control of S. aureus via its influence on alveolar macrophage function. Author summary: Staphylococcus aureus is an important cause of infections across numerous bodily sites. One area of significant disease is the respiratory tract, leading to pneumonia. The monocyte is a cell of the immune system that is recruited to the airway during infection. The full role this cell plays during S. aureus infection is not completely understood. We show here that it is important for clearance of S. aureus from the airway. We also demonstrate that its role is not in direct bacterial clearance but through effects exerted upon another cell, the alveolar macrophage. We show that monocytes secrete important signaling molecules, including one, IL-12, that impacts the capacity of the alveolar macrophage kill S. aureus. This work demonstrates that different cells of the immune system can accentuate the antimicrobial ability of other cell types during infection. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Dendritic Cells Pulsed with HAM/TSP Exosomes Sensitize CD4 T Cells to Enhance HTLV-1 Infection, Induce Helper T-Cell Polarization, and Decrease Cytotoxic T-Cell Response.

Author

Joseph, Julie, Premeaux, Thomas A., Tandon, Ritesh, Murphy, Edward L., Bruhn, Roberta, Nicot, Christophe, Herrera, Bobby Brooke, Lemenze, Alexander, Alatrash, Reem, Baffour Tonto, Prince, Ndhlovu, Lishomwa C., and Jain, Pooja

Subjects
IMMUNE checkpoint proteins, SPINAL cord diseases, EXTRACELLULAR vesicles, PATHOLOGY, T cells, T helper cells
Abstract

HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP) is a progressive demyelinating disease of the spinal cord due to chronic inflammation. Hallmarks of disease pathology include dysfunctional anti-viral responses and the infiltration of HTLV-1-infected CD4+ T cells and HTLV-1-specific CD8+ T cells in the central nervous system. HAM/TSP individuals exhibit CD4+ and CD8+ T cells with elevated co-expression of multiple inhibitory immune checkpoint proteins (ICPs), but ICP blockade strategies can only partially restore CD8+ T-cell effector function. Exosomes, small extracellular vesicles, can enhance the spread of viral infections and blunt anti-viral responses. Here, we evaluated the impact of exosomes isolated from HTLV-1-infected cells and HAM/TSP patient sera on dendritic cell (DC) and T-cell phenotypes and function. We observed that exosomes derived from HTLV-infected cell lines (OSP2) elicit proinflammatory cytokine responses in DCs, promote helper CD4+ T-cell polarization, and suppress CD8+ T-cell effector function. Furthermore, exosomes from individuals with HAM/TSP stimulate CD4+ T-cell polarization, marked by increased Th1 and regulatory T-cell differentiation. We conclude that exosomes in the setting of HAM/TSP are detrimental to DC and T-cell function and may contribute to the progression of pathology with HTLV-1 infection. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Breast tumor IGF1R regulates cell adhesion and metastasis: alignment of mouse single cell and human breast cancer transcriptomics

Author

Alison E. Obr, Joseph J. Bulatowicz, Yun-Juan Chang, Virginia Ciliento, Alexander Lemenze, Krystopher Maingrette, Quan Shang, Emily J. Gallagher, Derek LeRoith, and Teresa L. Wood

Subjects
insulin-like growth factor receptor, metastasis, breast cancer, adhesion, cadherin, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

IntroductionThe acquisition of a metastatic phenotype is the critical event that determines patient survival from breast cancer. Several receptor tyrosine kinases have functions both in promoting and inhibiting metastasis in breast tumors. Although the insulin-like growth factor 1 receptor (IGF1R) has been considered a target for inhibition in breast cancer, low levels of IGF1R expression are associated with worse overall patient survival.MethodsTo determine how reduced IGF1R impacts tumor phenotype in human breast cancers, we used weighted gene co-expression network analysis (WGCNA) of Molecular Taxonomy of Breast Cancer International Consortium (METABRIC) patient data to identify gene modules associated with low IGF1R expression. We then compared these modules to single cell gene expression analyses and phenotypes of mouse mammary tumors with reduced IGF1R signaling or expression in a tumor model of triple negative breast cancer.ResultsWGCNA from METABRIC data revealed gene modules specific to cell cycle, adhesion, and immune cell signaling that were inversely correlated with IGF1R expression in human breast cancers. Integration of human patient data with single cell sequencing data from mouse tumors revealed similar pathways necessary for promoting metastasis in basal-like mammary tumors with reduced signaling or expression of IGF1R. Functional analyses revealed the basis for the enhanced metastatic phenotype including alterations in E- and P-cadherins.DiscussionHuman breast and mouse mammary tumors with reduced IGF1R are associated with upregulation of several pathways necessary for promoting metastasis supporting the conclusion that IGF1R normally helps maintain a metastasis suppressive tumor microenvironment. We further found that reduced IGF1R signaling in tumor epithelial cells dysregulates cadherin expression resulting in reduced cell adhesion.

Published
2022
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19. Development and Internal Validation of a Novel Pre-Transplant Biomarker Panel to Predict Post-Transplant Mortality in Liver Transplant Recipients

Author

Panayotova, Guergana G., primary, Simonishvili, Sopio, additional, Nguyen, Duc T., additional, Graviss, Edward A., additional, Aware, Nikita, additional, Manner, Carl J., additional, Minze, Laurie J., additional, Ayorinde, Tumininu, additional, Qin, Yong, additional, Jin, Lianhua, additional, Lemenze, Alexander, additional, Mysore, Krupa R., additional, Moore, Linda, additional, Paterno, Flavio, additional, Saharia, Ashish, additional, Mobley, Constance M., additional, Amin, Arpit, additional, Hobeika, Mark J., additional, Pyrsopoulos, Nikolaos, additional, Li, Xian C., additional, Guarrera, James V., additional, Ghobrial, R. Mark, additional, and Lunsford, Keri E., additional

Published
2024
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21. Use of high throughput DNA analysis to characterize the nodule-associated bacterial community from four ages of Inga punctata trees in a Costa Rican cloud forest.

Author

Eaton, William D., Hamilton, Debra A., Wen Chen, Lemenze, Alexander, and Soteropoulos, Patricia

Subjects
CLOUD forests, DNA analysis, NITROGEN fixation, RHIZOBIUM, BACTERIAL communities, ROOT-tubercles, FOREST soils
Abstract

Leguminous tree root nodule nitrogen-fixing bacteria are critical for recuperation of soil C and N cycle processes after disturbance in tropical forests, while other nodule-associated bacteria (NAB) may enhance nodule development and activity, and plant growth. However, little is known of these root nodule microbiomes. Through DNA analysis, we evaluated the bacterial taxa associated with the root nodules of the 1-year-old, 2-year-old, 13-year-old, and old growth Inga punctata trees in a cloud forest. Bradyrhizobium diazoefficiens was the dominant taxon found in all nodules at 63.16% to 85.71% mean percent sequences (MPS) of the total nodule bacterial DNA and was found in the youngest nodules examined (1 year old), suggesting that it is the primary nodular bacteria. There were 26 other NAB genera with collective MPS levels between 7.4% to 12.2%, while 15 of these genera were found in the Bulk Forest soils at collective MPS levels of 4.6%. These bacterial community compositions were different between the NAB and Bulk Forest soils, suggesting the NAB became concentrated within the root nodules, resulting in communities with different compositions from the Bulk Forest soils. Twenty-three of the 26 NAB genera were previously identified with the potential to perform 9 plant growth promoting (PGP) activities, suggesting their importance in root nodule development and plant growth. These NAB communities appeared to successionally develop over time into more complex taxonomic communities, which is consistent with the outcome of advanced microbial communities following succession. The presence of both B. diazoefficiens and the NAB communities in the nodules across all ages of tree roots, and the potential for PGP activities linked with most of the NAB genera, suggest the importance of B. diazoefficiens and the NAB community for nodule development and enhanced development and growth of I. punctata throughout its lifespan, and most critically in the younger plants. [ABSTRACT FROM AUTHOR]

Published
2024
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25. The impact of ovarian stimulation on the human endometrial microenvironment.

Author

Chemerinski, Anat, Shen, May, Valero-Pacheco, Nuriban, Zhao, Qingshi, Murphy, Trystn, George, Lea, Lemenze, Alex, Sherman, Lauren, Heller, Debra, Chen, Xiaowei, Wu, Tracy, McGovern, Peter G, Morelli, Sara S, Arora, Ripla, Beaulieu, Aimee M, and Douglas, Nataki C

Subjects
INDUCED ovulation, B cells, FROZEN human embryos, EMBRYO implantation, GENE expression, MANN Whitney U Test, MENSTRUAL cycle, CELL populations
Abstract

STUDY QUESTION How does ovarian stimulation (OS), which is used to mature multiple oocytes for ART procedures, impact the principal cellular compartments and transcriptome of the human endometrium in the periovulatory and mid-secretory phases? SUMMARY ANSWER During the mid-secretory window of implantation, OS alters the abundance of endometrial immune cells, whereas during the periovulatory period, OS substantially changes the endometrial transcriptome and impacts both endometrial glandular and immune cells. WHAT IS KNOWN ALREADY Pregnancies conceived in an OS cycle are at risk of complications reflective of abnormal placentation and placental function. OS can alter endometrial gene expression and immune cell populations. How OS impacts the glandular, stromal, immune, and vascular compartments of the endometrium, in the periovulatory period as compared to the window of implantation, is unknown. STUDY DESIGN, SIZE, DURATION This prospective cohort study carried out between 2020 and 2022 included 25 subjects undergoing OS and 25 subjects in natural menstrual cycles. Endometrial biopsies were performed in the proliferative, periovulatory, and mid-secretory phases. PARTICIPANTS/MATERIALS, SETTING, METHODS Blood samples were processed to determine serum estradiol and progesterone levels. Both the endometrial transcriptome and the principal cellular compartments of the endometrium, including glands, stroma, immune, and vasculature, were evaluated by examining endometrial dating, differential gene expression, protein expression, cell populations, and the three-dimensional structure in endometrial tissue. Mann–Whitney U tests, unpaired t -tests or one-way ANOVA and pairwise multiple comparison tests were used to statistically evaluate differences. MAIN RESULTS AND THE ROLE OF CHANCE In the periovulatory period, OS induced high levels of differential gene expression, glandular-stromal dyssynchrony, and an increase in both glandular epithelial volume and the frequency of endometrial monocytes/macrophages. In the window of implantation during the mid-secretory phase, OS induced changes in endometrial immune cells, with a greater frequency of B cells and a lower frequency of CD4 effector T cells. LARGE SCALE DATA The data underlying this article have been uploaded to the Genome Expression Omnibus/National Center for Biotechnology Information with accession number GSE220044. LIMITATIONS, REASONS FOR CAUTION A limited number of subjects were included in this study, although the subjects within each group, natural cycle or OS, were homogenous in their clinical characteristics. The number of subjects utilized was sufficient to identify significant differences; however, with a larger number of subjects and additional power, we may detect additional differences. Another limitation of the study is that proliferative phase biopsies were collected in natural cycles, but not in OS cycles. Given that the OS cycle subjects did not have known endometrial factor infertility, and the comparisons involved subjects who had a similar and robust response to stimulation, the findings are generalizable to women with a normal response to OS. WIDER IMPLICATIONS OF THE FINDINGS OS substantially altered the periovulatory phase endometrium, with fewer transcriptomic and cell type-specific changes in the mid-secretory phase. Our findings show that after OS, the endometrial microenvironment in the window of implantation possesses many more similarities to that of a natural cycle than does the periovulatory endometrium. Further investigation of the immune compartment and the functional significance of this cellular compartment under OS conditions is warranted. STUDY FUNDING/COMPETING INTERESTS Research reported in this publication was supported by the National Institute of Allergy and Infectious Diseases (R01AI148695 to A.M.B. and N.C.D.), Eunice Kennedy Shriver National Institute of Child Health and Human Development (R01HD109152 to R.A.), and the March of Dimes (5-FY20-209 to R.A.). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health or March of Dimes. All authors declare no conflict of interest. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Interferon ɛ restricts Zika virus infection in the female reproductive tract

Author

Xu, Chuan, primary, Wang, Annie, additional, Ebraham, Laith, additional, Sullivan, Liam, additional, Tasker, Carley, additional, Pizutelli, Vanessa, additional, Couret, Jennifer, additional, Hernandez, Cyril, additional, Kolli, Priyanka, additional, Deb, Pratik Q, additional, Fritzky, Luke, additional, Subbian, Selvakumar, additional, Gao, Nan, additional, Lo, Yungtai, additional, Salvatore, Mirella, additional, Rivera, Amariliz, additional, Lemenze, Alexander, additional, Fitzgerald-Bocarsly, Patricia, additional, Tyagi, Sanjay, additional, Lu, Wuyuan, additional, Beaulieu, Aimee, additional, and Chang, Theresa L, additional

Published
2023
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27. Development and Internal Validation of a Novel Pre-Transplant Biomarker Panel to Predict Post-Liver Transplant Mortality

Author

Panayotova, Guergana G., primary, Simonishvili, Sopio, additional, Nguyen, Duc T., additional, Graviss, Edward A., additional, Aware, Nikita, additional, Manner, Carl J., additional, Minze, Laurie J., additional, Ayorinde, Tumininu, additional, Qin, Yong, additional, Jin, Lianhua, additional, Lemenze, Alexander, additional, Mysore, Krupa R., additional, Moore, Linda, additional, Paterno, Flavio, additional, Saharia, Ashish, additional, Mobley, Constance M., additional, Amin, Arpit, additional, Hobeika, Mark J., additional, Pyrsopoulos, Nikolaos, additional, Li, Xian C., additional, Guarrera, James V., additional, Ghobrial, R. Mark, additional, and Lunsford, Keri E., additional

Published
2023
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29. Genotypic analysis of the female BPH/5 mouse, a model of superimposed preeclampsia.

Author

Jenny L Sones, Christina C Yarborough, Valerie O'Besso, Alexander Lemenze, and Nataki C Douglas

Subjects
Medicine, Science
Abstract

Animal models that recapitulate human diseases and disorders are widely used to investigate etiology, diagnosis, and treatment of those conditions in people. Disorders during pregnancy are particularly difficult to explore as interventions in pregnant women are not easily performed. Therefore, models that allow for pre-conception investigations are advantageous for elucidating the mechanisms involved in adverse pregnancy outcomes that are responsible for both maternal and fetal morbidity, such as preeclampsia. The Blood Pressure High (BPH)/5 mouse model has been used extensively to study the pathogenesis of preeclampsia. The female BPH/5 mouse is obese with increased adiposity and borderline hypertension, both of which are exacerbated with pregnancy making it a model of superimposed preeclampsia. Thus, the BPH/5 model shares traits with a large majority of women with pre-existing conditions that predisposes them to preeclampsia. We sought to explore the genome of the BPH/5 female mouse and determine the genetic underpinnings that may contribute to preeclampsia-associated phenotypes in this model. Using a whole genome sequencing approach, we are the first to characterize the genetic mutations in BPH/5 female mice that make it unique from the closely related BPH/2 model and the normotensive background strain, C57Bl/6. We found the BPH/5 female mouse to be uniquely different from BPH/2 and C57Bl/6 mice with a genetically complex landscape. The majority of non-synonymous consequences within the coding region of BPH/5 females were missense mutations found most abundant on chromosome X when comparing BPH/5 and BPH/2, and on chromosome 8 when comparing BPH/5 to C57Bl/6. Genetic mutations in BPH/5 females largely belong to immune system-related processes, with overlap between BPH/5 and BPH/2 models. Further studies examining each gene mutation during pregnancy are warranted to determine key contributors to the BPH/5 preeclamptic-like phenotype and to identify genetic similarities to women that develop preeclampsia.

Published
2021
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30. Gut Microbial Shifts Indicate Melanoma Presence and Bacterial Interactions in a Murine Model

Author

Marco Rossi, Salvatore M. Aspromonte, Frederick J. Kohlhapp, Jenna H. Newman, Alex Lemenze, Russell J. Pepe, Samuel M. DeFina, Nora L. Herzog, Robert Donnelly, Timothy M. Kuzel, Jochen Reiser, Jose A. Guevara-Patino, and Andrew Zloza

Subjects
gut microbiota, machine learning, statistical algorithms, co-occurrence patterns, melanoma, Medicine (General), R5-920
Abstract

Through a multitude of studies, the gut microbiota has been recognized as a significant influencer of both homeostasis and pathophysiology. Certain microbial taxa can even affect treatments such as cancer immunotherapies, including the immune checkpoint blockade. These taxa can impact such processes both individually as well as collectively through mechanisms from quorum sensing to metabolite production. Due to this overarching presence of the gut microbiota in many physiological processes distal to the GI tract, we hypothesized that mice bearing tumors at extraintestinal sites would display a distinct intestinal microbial signature from non-tumor-bearing mice, and that such a signature would involve taxa that collectively shift with tumor presence. Microbial OTUs were determined from 16S rRNA genes isolated from the fecal samples of C57BL/6 mice challenged with either B16-F10 melanoma cells or PBS control and analyzed using QIIME. Relative proportions of bacteria were determined for each mouse and, using machine-learning approaches, significantly altered taxa and co-occurrence patterns between tumor- and non-tumor-bearing mice were found. Mice with a tumor had elevated proportions of Ruminococcaceae, Peptococcaceae.g_rc4.4, and Christensenellaceae, as well as significant information gains and ReliefF weights for Bacteroidales.f__S24.7, Ruminococcaceae, Clostridiales, and Erysipelotrichaceae. Bacteroidales.f__S24.7, Ruminococcaceae, and Clostridiales were also implicated through shifting co-occurrences and PCA values. Using these seven taxa as a melanoma signature, a neural network reached an 80% tumor detection accuracy in a 10-fold stratified random sampling validation. These results indicated gut microbial proportions as a biosensor for tumor detection, and that shifting co-occurrences could be used to reveal relevant taxa.

Published
2022
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31. Trichinella spiralis-induced mastocytosis and erythropoiesis are simultaneously supported by a bipotent mast cell/erythrocyte precursor cell.

Author

Juan M Inclan-Rico, Christina M Hernandez, Everett K Henry, Hannah G Federman, Chandler B Sy, John J Ponessa, Alexander D Lemenze, Nathanael Joseph, Patricia Soteropoulos, Aimee M Beaulieu, George S Yap, and Mark C Siracusa

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Anti-helminth responses require robust type 2 cytokine production that simultaneously promotes worm expulsion and initiates the resolution of helminth-induced wounds and hemorrhaging. However, how infection-induced changes in hematopoiesis contribute to these seemingly distinct processes remains unknown. Recent studies have suggested the existence of a hematopoietic progenitor with dual mast cell-erythrocyte potential. Nonetheless, whether and how these progenitors contribute to host protection during an active infection remains to be defined. Here, we employed single cell RNA-sequencing and identified that the metabolic enzyme, carbonic anhydrase (Car) 1 marks a predefined bone marrow-resident hematopoietic progenitor cell (HPC) population. Next, we generated a Car1-reporter mouse model and found that Car1-GFP positive progenitors represent bipotent mast cell/erythrocyte precursors. Finally, we show that Car1-expressing HPCs simultaneously support mast cell and erythrocyte responses during Trichinella spiralis infection. Collectively, these data suggest that mast cell/erythrocyte precursors are mobilized to promote type 2 cytokine responses and alleviate helminth-induced blood loss, developmentally linking these processes. Collectively, these studies reveal unappreciated hematopoietic events initiated by the host to combat helminth parasites and provide insight into the evolutionary pressure that may have shaped the developmental relationship between mast cells and erythrocytes.

Published
2020
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37. Interferon epsilon restricts Zika virus infection in the female reproductive tract

Author

Xu, Chuan, primary, Wang, Annie, additional, Ebraham, Laith, additional, Sullivan, Liam, additional, Tasker, Carley, additional, Pizutelli, Vanessa, additional, Couret, Jennifer, additional, Hernandez, Cyril, additional, Deb, Pratik Q, additional, Fritzky, Luke, additional, Subbian, Selvakumar, additional, Gao, Nan, additional, Lo, Yungtai, additional, Salvatore, Mirella, additional, Rivera, Amariliz, additional, Lemenze, Alexander, additional, Fitzgerald-Bocarsly, Patricia, additional, Tyagi, Sanjay, additional, Lu, Wuyuan, additional, Beaulieu, Aimee, additional, and Chang, Theresa L, additional

Published
2023
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38. Interferon ε restricts Zika virus infection in the female reproductive tract

Author

Chuan Xu, Annie Wang, Laith Ebraham, Liam Sullivan, Carley Tasker, Vanessa Pizutelli, Jennifer Couret, Cyril Hernandez, Pratik Q. Deb, Luke Fritzky, Selvakumar Subbian, Nan Gao, Yungtai Lo, Mirella Salvatore, Amariliz Rivera, Alexander Lemenze, Patricia Fitzgerald-Bocarsly, Sanjay Tyagi, Wuyuan Lu, Aimee Beaulieu, and Theresa L. Chang

Abstract

Interferon ε (IFNε) is a unique type I IFN that has been implicated in host defense against sexually transmitted infections (STIs). Zika virus (ZIKV), an emerging pathogen, can infect the female reproductive tract (FRT) and cause devastating diseases, particularly in pregnant women. How IFNε contributes to protection against ZIKV infectionin vivois unknown. Here, we show that IFNε plays a critical role in host protection against vaginal ZIKV infection in mice. We found that IFNε was expressed not only by epithelial cells in the FRT, but also by certain immune and other cells at baseline or after exposure to viruses or specific TLR agonists. IFNε-deficient mice exhibited abnormalities in the epithelial border and underlying tissue in the cervicovaginal tract, and these defects were associated with increased susceptibility to vaginal, but not subcutaneous ZIKV infection. IFNε-deficiency resulted in an increase in magnitude, duration, and depth of ZIKV infection in the FRT. Critically, intravaginal administration of recombinant IFNε protectedIfnε-/-mice and highly susceptibleIfnar1-/-mice against vaginal ZIKV infection, indicating that IFNε was sufficient to provide protection even in the absence of signals from other type I IFNs and in an IFNAR1-independent manner. Our findings reveal a potentially critical role for IFNε in mediating protection against transmission of ZIKV in the context of sexual contact.SignificanceInterferon ε (IFNε), a unique Type I IFN that is highly expressed in the epithelium of the female reproductive tract (FRT), is thought to protect the host against sexually transmitted infections (STIs) but the mechanism of action is not defined. Zika virus (ZIKV), a causative agent for preterm birth and other severe diseases in pregnant women, can be spread through vaginal transmission. Here, we show that mice lacking theIfnεgene have abnormal epithelial development and tissue architecture in the cervicovaginal tract. The role of IFNε in protecting host against ZIKV is FRT-specific and is independent of IFNAR1 signaling. Our findings suggest potential preventive strategies based on harnessing mucosal immunity against STIs.

Published
2023

39. Monocytes maintain central nervous system homeostasis following helminth-induced inflammation

Author

Jianya Peng, Chandler B. Sy, John J. Ponessa, Alexander D. Lemenze, Christina M. Hernandez, Juan M. Inclan-Rico, Arman Sawhney, Hannah G. Federman, Krupa Chavan, Vanessa Espinosa, Sergei V. Kotenko, Amariliz Rivera, and Mark C. Siracusa

Subjects
Mice, Multidisciplinary, Neuroimmunomodulation, Lectins, Animals, Brain, Encephalitis, Homeostasis, Trichinellosis, Microglia, Monocytes, beta-N-Acetylhexosaminidases, Trichinella spiralis
Abstract

Neuroimmune interactions are crucial for regulating immunity and inflammation. Recent studies have revealed that the central nervous system (CNS) senses peripheral inflammation and responds by releasing molecules that limit immune cell activation, thereby promoting tolerance and tissue integrity. However, the extent to which this is a bidirectional process, and whether peripheral immune cells also promote tolerance mechanisms in the CNS remains poorly defined. Here we report that helminth-induced type 2 inflammation promotes monocyte responses in the brain that are required to inhibit excessive microglial activation and host death. Mechanistically, infection-induced monocytes express YM1 that is sufficient to inhibit tumor necrosis factor production from activated microglia. Importantly, neuroprotective monocytes persist in the brain, and infected mice are protected from subsequent lipopolysaccharide-induced neuroinflammation months after infection-induced inflammation has resolved. These studies demonstrate that infiltrating monocytes promote CNS homeostasis in response to inflammation in the periphery and demonstrate that a peripheral infection can alter the immunologic landscape of the host brain.

Published
2023

43. CD103 fate mapping reveals that intestinal CD103 − tissue-resident memory T cells are the primary responders to secondary infection

Author

Helen Y. Fung, Matthew Teryek, Alexander D. Lemenze, and Tessa Bergsbaken

Subjects
Immunology, General Medicine
Abstract

Tissue-resident memory T (T RM ) cells remain poised in the tissue and mediate robust protection from secondary infection. T RM cells within the intestine and other tissues are heterogeneous in their phenotype and function; however, the contributions of these T RM subsets to secondary infection remain poorly defined. To address the plasticity of intestinal T RM subsets and their role in local and systemic immunity, we generated mice to fate map intestinal CD103 + T RM cells and track their location and function during secondary infection with Yersinia pseudotuberculosis . We found that CD103 + T RM cells remained lodged in the tissue and were poorly reactivated during secondary challenge. CD103 − T RM cells were the primary responders to secondary infection and expanded within the tissue, with limited contribution from circulating memory T cells. The transcriptional profile of CD103 − T RM cells demonstrated maintenance of a gene signature similar to circulating T cells along with increased cytokine production and migratory potential. CD103 − T RM cells also expressed genes associated with T cell receptor (TCR) activation and displayed enhanced TCR-mediated reactivation both in vitro and in vivo compared with their CD103 + counterparts. These studies reveal the limited recall potential of CD103 + T RM subsets and the role of CD103 − T RM cells as central memory–like T cells within peripheral tissues.

Published
2022

44. A helminth mimic of TGF-β, TGM, enhances regenerative cutaneous wound healing and modulates immune cell recruitment and activation

Author

Katherine E. Lothstein, Fei Chen, Pankaj Mishra, Danielle J. Smyth, Wenhui Wu, Alexander Lemenze, Yosuke Kumamoto, Rick M. Maizels, and William C. Gause

Abstract

Intestinal helminth parasites express excretory/secretory (ES) molecules, which modulate the type-2 immune response including anti-inflammatory and tissue repair pathways. TGF-β mimic (TGM), an ES molecule secreted by Heligmosomoides polygyrus (Hp), binds TGF-β receptors yet lacks structural homology to TGF-β and exhibits distinct receptor interactions. We demonstrate TGM treatment enhanced wound healing and tissue regeneration in an in vivo wound biopsy model. TGM, in a 1.5% carboxymethylcellulose solution, was topically administered beneath a Tegaderm layer. Through histological analysis, increased restoration of normal tissue structure in the wound beds of TGM-treated mice was observed during mid- to late-stage wound healing. These observations included accelerated re-epithelialization and hair follicle regeneration, without increased scarring. Flow cytometric and gene expression analysis showed differential expansion of myeloid populations at different stages of wound healing. This included enhanced early accumulation and persistence of macrophages in TGM-treated wounds during the initial inflammatory phase. Additionally, the percentage of alternatively activated (M2) macrophages expressing CD206 was reduced with TGM treatment during early and mid-stage wound healing. scRNAseq analysis of TGM-treated wounds indicate upregulation of multiple wound healing-associated genes without expression of CD206 within macrophage subsets. Experiments with truncated TGM constructs revealed that the TGFβ-R binding domain was essential in enhancing the wound healing response. In summary, TGM can accelerate skin wound healing and pro-restorative maturation through its interaction with the TGF-β receptor and stimulate the recruitment and reprogramming of specific macrophage subsets. This study indicates a role for TGM as a potential novel therapeutic option for enhanced wound healing.One-Sentence SummaryA helminth-derived protein leads to rapid wound closure, skin regeneration, and reprogramming of macrophage activation through TGF-βR binding.

Published
2022

46. Bone Marrow- and Umbilical Cord-Derived Mesenchymal Stem Cell Secretome Alters Gene Expression and Upregulates Motility of Human Endometrial Stromal Cells

Author

Zhao, Qingshi, primary, Larios, Karla, additional, Naaldijk, Yahaira, additional, Sherman, Lauren, additional, Chemerinski, Anat, additional, Okereke, Kennisha, additional, Rameshwar, Pranela, additional, Lemenze, Alexander, additional, Douglas, Nataki C., additional, and Morelli, Sara S., additional

Published
2022
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47. LBMON186 Beta-agonist Profiling Reveals Novel Biased Signaling Phenotypes For The Beta 2-adrenergic Receptor With Implications In The Treatment Of Asthma

Author

Pascali, Francesco D, primary, Ippolito, Michael, additional, Wolfe, Emily, additional, Komolov, Konstantin E, additional, Hopfinger, Nathan, additional, Lemenze, Douglas, additional, Kim, Nicholas, additional, Armen, Roger S, additional, An, Steven S, additional, Scott, Charles P, additional, and Benovic, Jeffrey L, additional

Published
2022
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50. Monocytes maintain central nervous system homeostasis following helminth-induced inflammation

Author

Peng, Jianya, primary, Sy, Chandler B., additional, Ponessa, John J., additional, Lemenze, Alexander D., additional, Hernandez, Christina M., additional, Inclan-Rico, Juan M., additional, Sawhney, Arman, additional, Federman, Hannah G., additional, Chavan, Krupa, additional, Espinosa, Vanessa, additional, Kotenko, Sergei V., additional, Rivera, Amariliz, additional, and Siracusa, Mark C., additional

Published
2022
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