Search

Your search keyword '"Katherine N. Gibson-Corley"' showing total 27 results
Start Over Author "Katherine N. Gibson-Corley" Publication Year Range Last 3 years
27 results on '"Katherine N. Gibson-Corley"'

3. Deficiency of the lipid flippase ATP10A causes diet-induced dyslipidemia in female mice

Author

Adriana C. Norris, Eugenia M. Yazlovitskaya, Lin Zhu, Bailey S. Rose, Jody C. May, Katherine N. Gibson-Corley, John A. McLean, John M. Stafford, and Todd R. Graham

Subjects
Medicine, Science
Abstract

Abstract Genetic association studies have linked ATP10A and closely related type IV P-type ATPases (P4-ATPases) to insulin resistance and vascular complications, such as atherosclerosis. ATP10A translocates phosphatidylcholine and glucosylceramide across cell membranes, and these lipids or their metabolites play important roles in signal transduction pathways regulating metabolism. However, the influence of ATP10A on lipid metabolism in mice has not been explored. Here, we generated gene-specific Atp10A knockout mice and show that Atp10A −/− mice fed a high-fat diet did not gain excess weight relative to wild-type littermates. However, Atp10A −/− mice displayed female-specific dyslipidemia characterized by elevated plasma triglycerides, free fatty acids and cholesterol, as well as altered VLDL and HDL properties. We also observed increased circulating levels of several sphingolipid species along with reduced levels of eicosanoids and bile acids. The Atp10A −/− mice also displayed hepatic insulin resistance without perturbations to whole-body glucose homeostasis. Thus, ATP10A has a sex-specific role in regulating plasma lipid composition and maintaining hepatic liver insulin sensitivity in mice.

Published
2024
Full Text
View/download PDF

4. Genomic control of inflammation in experimental atopic dermatitis

Author

Yan Liu, Jozef Zienkiewicz, Huan Qiao, Katherine N. Gibson-Corley, Kelli L. Boyd, Ruth Ann Veach, and Jacek Hawiger

Subjects
Medicine, Science
Abstract

Abstract Atopic Dermatitis (AD) or eczema, a recurrent allergic inflammation of the skin, afflicts 10–20% of children and 5% adults of all racial and ethnic groups globally. We report a new topical treatment of AD by a Nuclear Transport Checkpoint Inhibitor (NTCI), which targets two nuclear transport shuttles, importin α5 and importin β1. In the preclinical model of AD, induced by the active vitamin D3 analog MC903 (calcipotriol), NTCI suppressed the expression of keratinocyte-derived cytokine, Thymic Stromal Lymphopoietin (TSLP), the key gene in AD development. Moreover, the genes encoding mediators of TH2 response, IL-4 and its receptor IL-4Rα were also silenced together with the genes encoding cytokines IL-1β, IL-6, IL-13, IL-23α, IL-33, IFN-γ, GM-CSF, VEGF A, the chemokines RANTES and IL-8, and intracellular signal transducers COX-2 and iNOS. Consequently, NTCI suppressed skin infiltration by inflammatory cells (eosinophils, macrophages, and CD4 + T lymphocytes), and reduced MC903-evoked proliferation of Ki-67-positive cells. Thus, we highlight the mechanism of action and the potential utility of topical NTCI for treatment of AD undergoing Phase 1/2 clinical trial (AMTX-100 CF, NCT04313400).

Published
2022
Full Text
View/download PDF

5. Prognostic Role of Combined EGFR and Tumor-Infiltrating Lymphocytes in Oral Squamous Cell Carcinoma

Author

Wattawan Wongpattaraworakul, Katherine N. Gibson-Corley, Allen Choi, Marisa R. Buchakjian, Emily A. Lanzel, Anand Rajan KD, and Andrean L. Simons

Subjects
OSCC, EGFR, CD3, TIL, microarray, biomarker, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundEpidermal growth factor receptor (EGFR) is well known as a general prognostic biomarker for head and neck tumors, however the specific prognostic value of EGFR in oral squamous cell carcinoma (OSCC) is controversial. Recently, the presence of tumor-infiltrating T cells has been associated with significant survival advantages in a variety of disease sites. The present study will determine if the inclusion of T cell specific markers (CD3, CD4 and CD8) would enhance the prognostic value of EGFR in OSCCs.MethodsTissue microarrays containing 146 OSCC cases were analyzed for EGFR, CD3, CD4 and CD8 expression using immunohistochemical staining. EGFR and T cell expression scores were correlated with clinicopathological parameters and survival outcomes.ResultsResults showed that EGFR expression had no impact on overall survival (OS), but EGFR-positive (EGFR+) OSCC patients demonstrated significantly worse progression free survival (PFS) compared to EGFR-negative (EGFR-) patients. Patients with CD3, CD4 and CD8-positive tumors had significantly better OS compared to CD3, CD4 and CD8-negative patients respectively, but no impact on PFS. Combined EGFR+/CD3+ expression was associated with cases with no nodal involvement and significantly more favorable OS compared to EGFR+/CD3- expression. CD3 expression had no impact on OS or PFS in EGFR- patients. Combinations of EGFR/CD8 and EGFR/CD4 expression showed no significant differences in OS or PFS among the expression groups.ConclusionAltogether these results suggest that the expression of CD3+ tumor-infiltrating T cells can enhance the prognostic value of EGFR expression and warrants further investigation as prognostic biomarkers for OSCC.

Published
2022
Full Text
View/download PDF

6. Biocompatibility of Human Induced Pluripotent Stem Cell–Derived Retinal Progenitor Cell Grafts in Immunocompromised Rats

Author

Ian C. Han, Laura R. Bohrer, Katherine N. Gibson-Corley, Luke A. Wiley, Arwin Shrestha, Brynnon E. Harman, Chunhua Jiao, Elliott H. Sohn, Rion Wendland, Brittany N. Allen, Kristan S. Worthington, Robert F. Mullins, Edwin M. Stone, and Budd A. Tucker

Subjects
Medicine
Abstract

Loss of photoreceptor cells is a primary feature of inherited retinal degenerative disorders including age-related macular degeneration and retinitis pigmentosa. To restore vision in affected patients, photoreceptor cell replacement will be required. The ideal donor cells for this application are induced pluripotent stem cells (iPSCs) because they can be derived from and transplanted into the same patient obviating the need for long-term immunosuppression. A major limitation for retinal cell replacement therapy is donor cell loss associated with simple methods of cell delivery such as subretinal injections of bolus cell suspensions. Transplantation with supportive biomaterials can help maintain cellular integrity, increase cell survival, and encourage proper cellular alignment and improve integration with the host retina. Using a pig model of retinal degeneration, we recently demonstrated that polycaprolactone (PCL) scaffolds fabricated with two photon lithography have excellent local and systemic tolerability. In this study, we describe rapid photopolymerization-mediated production of PCL-based bioabsorbable scaffolds, a technique for loading iPSC-derived retinal progenitor cells onto the scaffold, methods of surgical transplantation in an immunocompromised rat model and tolerability of the subretinal grafts at 1, 3, and 6 months of follow-up ( n = 150). We observed no local or systemic toxicity, nor did we observe any tumor formation despite extensive clinical evaluation, clinical chemistry, hematology, gross tissue examination and detailed histopathology. Demonstrating the local and systemic compatibility of biodegradable scaffolds carrying human iPSC-derived retinal progenitor cells is an important step toward clinical safety trials of this approach in humans.

Published
2022
Full Text
View/download PDF

7. Ferret models of alpha-1 antitrypsin deficiency develop lung and liver disease

Author

Nan He, Xiaoming Liu, Amber R. Vegter, T. Idil A. Evans, Jaimie S. Gray, Junfeng Guo, Shashanna R. Moll, Lydia J. Guo, Meihui Luo, Ningxia Ma, Xingshen Sun, Bo Liang, Ziying Yan, Zehua Feng, Lisi Qi, Arnav S. Joshi, Weam Shahin, Yaling Yi, Katherine N. Gibson-Corley, Eric A. Hoffman, Kai Wang, Christian Mueller, John F. Engelhardt, and Bradley H. Rosen

Subjects
Pulmonology, Medicine
Abstract

Alpha-1 antitrypsin deficiency (AATD) is the most common genetic cause and risk factor for chronic obstructive pulmonary disease, but the field lacks a large-animal model that allows for longitudinal assessment of pulmonary function. We hypothesized that ferrets would model human AATD-related lung and hepatic disease. AAT-knockout (AAT-KO) and PiZZ (E342K, the most common mutation in humans) ferrets were generated and compared with matched controls using custom-designed flexiVent modules to perform pulmonary function tests, quantitative computed tomography (QCT), bronchoalveolar lavage (BAL) proteomics, and alveolar morphometry. Complete loss of AAT (AAT-KO) led to increased pulmonary compliance and expiratory airflow limitation, consistent with obstructive lung disease. QCT and morphometry confirmed emphysema and airspace enlargement, respectively. Pathway analysis of BAL proteomics data revealed inflammatory lung disease and impaired cellular migration. The PiZ mutation resulted in altered AAT protein folding in the liver, hepatic injury, and reduced plasma concentrations of AAT, and PiZZ ferrets developed obstructive lung disease. In summary, AAT-KO and PiZZ ferrets model the progressive obstructive pulmonary disease seen in AAT-deficient patients and may serve as a platform for preclinical testing of therapeutics including gene therapy.

Published
2022
Full Text
View/download PDF

8. Cardiometabolic Consequences of Deleting the Regulator of G protein Signaling-2 (

Author

McKenzie L, Ritter, Guorui, Deng, John J, Reho, Yue, Deng, Sarah A, Sapouckey, Megan A, Opichka, Kirthikaa, Balapattabi, Kelsey K, Wackman, Daniel T, Brozoski, Ko-Ting, Lu, William J, Paradee, Katherine N, Gibson-Corley, Huxing, Cui, Pablo, Nakagawa, Lisa L, Morselli, Curt D, Sigmund, and Justin L, Grobe

Subjects
Mice, Knockout, Recombinases, Mice, Hypertension, Animals, Agouti-Related Protein, Mice, Transgenic, Receptor, Angiotensin, Type 1, RGS Proteins
Abstract

RGS (regulator of G protein signaling) family members catalyze the termination of G protein signaling cascades. Single nucleotide polymorphisms in theTo study cell-specific functions of RGS2, a novel gene-targeted mouse harboring a conditional allele for theWhereasThese results demonstrate the development of a novel mouse with conditional expression of

Published
2023

10. INTRAPULMONARY TREATMENT WITH A NOVEL TLR4 AGONIST CONFERS PROTECTION AGAINST KLEBSIELLA PNEUMONIA

Author

Antonio Hernandez, Jing Zhou, Julia K. Bohannon, Margaret A. McBride, Katherine N. Gibson-Corley, Naeem K. Patil, Allison M. Owen, Katherine R. Burelbach, and Edward R. Sherwood

Subjects
Male, Toll-Like Receptor 4, Mice, Inbred C57BL, Mice, Klebsiella pneumoniae, Pneumonia, Bacterial, Emergency Medicine, Animals, Cytokines, Disaccharides, Critical Care and Intensive Care Medicine, Lung, Klebsiella Infections
Abstract

Objectives: Nosocomial pneumonia is a common complication in critically ill patients. The goal of this study was to examine the efficacy of the Toll-like receptor 4 agonist 3-deacyl phosphorylated hexacyl disaccharide (3D PHAD), in a clinically relevant murine model of pneumonia, and assess the cellular mechanisms that mediate the protective response. Design: Mice received intrapulmonary 3D PHAD (20 μg) or vehicle for 2 consecutive days before challenge with intrapulmonary Klebsiella pneumoniae (2.3 × 10 3 colony-forming units). Mice were followed for 14-day survival, pulmonary K. pneumoniae burden, lung leukocyte profile, leukocyte phagocytic capacity, and cytokine production. Pneumonia severity and leukocyte recruitment were further assessed by histological evaluation. Setting: Research laboratory. Subjects: Wild-type, male C57BL/6 J mice. Interventions: Intrapulmonary treatment with 20 μg 3D PHAD for 2 consecutive days. Measurements and main results: Intrapulmonary treatment with 3D PHAD decreased lung K. pneumoniae colony-forming units and pneumonia severity with an associated improvement in survival compared with mice treated with vehicle. The numbers of neutrophils, monocytes, and macrophages in the lungs of 3D PHAD-treated mice were higher than those in vehicle-treated mice before infection but were not significantly different from vehicle-treated mice at 48 h after K. pneumoniae challenge. Lung innate leukocytes from 3D PHAD-treated mice had increased phagocytic capacity. Treatment with 3D PHAD alone increased cytokines in the lungs but decreased cytokines in plasma during K. pneumoniae pneumonia as compared with control. Conclusions: Intrapulmonary treatment with 3D PHAD augments innate immunity in the lung and facilitates resistance to K. pneumoniae pneumonia.

Published
2022

11. Growth factor-free, peptide-functionalized gelatin hydrogel promotes arteriogenesis and attenuates tissue damage in a murine model of critical limb ischemia

Author

Corinne W. Curry, Sarah M. Sturgeon, Brian J. O’Grady, Alexis K. Yates, Andrew Kjar, Hayden A. Paige, Lucas S. Mowery, Ketaki A. Katdare, Riya V. Patel, Kate Mlouk, Madison R. Stiefbold, Sidney Vafaie-Partin, Atsuyuki Kawabata, Rachel M. McKee, Stephanie Moore- Lotridge, Adrienne Hawkes, Jiro Kusunose, Katherine N. Gibson-Corley, Jeffrey Schmeckpeper, Jonathan G. Schoenecker, Charles F. Caskey, and Ethan S. Lippmann

Subjects
Article
Abstract

Critical limb ischemia (CLI) occurs when blood flow is restricted through the arteries, resulting in ulcers, necrosis, and chronic wounds in the downstream extremities. The development of collateral arterioles (i.e. arteriogenesis), either by remodeling of pre-existing vascular networks orde novogrowth of new vessels, can prevent or reverse ischemic damage, but it remains challenging to stimulate collateral arteriole development in a therapeutic context. Here, we show that a gelatin-based hydrogel, devoid of growth factors or encapsulated cells, promotes arteriogenesis and attenuates tissue damage in a murine CLI model. The gelatin hydrogel is functionalized with a peptide derived from the extracellular epitope of Type 1 cadherins. Mechanistically, these “GelCad” hydrogels promote arteriogenesis by recruiting smooth muscle cells to vessel structures in bothex vivoandin vivoassays. In a murine femoral artery ligation model of CLI, delivery ofin situcrosslinking GelCad hydrogels was sufficient to restore limb perfusion and maintain tissue health for 14 days, whereas mice treated with gelatin hydrogels had extensive necrosis and autoamputated within 7 days. A small cohort of mice receiving the GelCad hydrogels were aged out to 5 months and exhibited no decline in tissue quality, indicating durability of the collateral arteriole networks. Overall, given the simplicity and off-the-shelf format of the GelCad hydrogel platform, we suggest it could have utility for CLI treatment and potentially other indications that would benefit from arteriole development.

Published
2023

12. Mitochondrial-targeted antioxidant attenuates preeclampsia-like phenotypes induced by syncytiotrophoblast-specific Gq signaling

Author

Megan A. Opichka, M. Christine Livergood, Daniel T. Brozoski, Agnes B. Fogo, Katherine N. Gibson-Corley, Anne E. Kwitek, Curt D. Sigmund, Jennifer J. McIntosh, and Justin L. Grobe

Subjects
Physiology
Abstract

Generalized cellular ‘stress’ (i.e., oxidative, mitochondrial) within the syncytiotrophoblast (STB) layer of placenta is theorized to drive the pathogenesis of preeclampsia (PE), but the causes and consequences of this stress have yet to be clearly elucidated. Many hormones implicated in the disorder signal through the Gq pathway and have been associated with placental oxidative damage and maternal symptoms. Here, we provide novel evidence of elevated Gq stimulation (n=8-10 normalized area PLCB protein, control 1340±370, PE 3350±750, P=0.04) and an antioxidant response (n=8 normalized area SOD2 protein, control 3020±1160, PE 6700±1250, P=0.04) within STB cells of PE placenta. Thus, we hypothesized excess STB-specific Gq signaling would be sufficient to cause phenotypes of PE and that administration of a mitochondrial-targeted antioxidant (mitoquinone) would mitigate these effects. Activation of the Gq cascade in STB cells was achieved by crossing dams harboring a Cre-dependent Gq-coupled DREADD (hM3Dq) with Gcm1-Cre+/- sires and injecting clozapine N-oxide (CNO) or saline mid-gestation (GD12.5-14.5) before tissue collection at GD14.5. Gq stimulation increased mean arterial pressure (n=6-8, CNO 115±2mmHg, saline 110±2mmHg, GD 13-16.5, P=0.04), exacerbated urine protein excretion (n=9-11 CNO 43±4mg/d, saline 28±3mg/day, P=0.001), and elevated circulating pro-inflammatory factors (MCP5, LIX, TIMP1, MIP3B, GCSF, IL12p40, MDC, P NIH: HL134850, HL084207, DK133121, HL150340; AHA: 826132, 18EIA33890055 This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Published
2023

13. A Nanoparticle RIG-I Agonist for Cancer Immunotherapy

Author

Lihong Wang-Bishop, Mohamed Wehbe, Lucinda E. Pastora, Jinming Yang, Kyle M. Garland, Kyle W. Becker, Carcia S. Carson, Katherine N. Gibson-Corley, David Ulkoski, Venkata Krishnamurthy, Olga Fedorova, Ann Richmond, Anna Marie Pyle, and John T. Wilson

Abstract

Pharmacological activation of the retinoic acid-inducible gene I (RIG-I) pathway holds promise for increasing tumor immunogenicity and improving response to immune checkpoint inhibitors (ICI). However, the potency and clinical efficacy of 5’-triphosphate RNA (3pRNA) agonists of RIG-I is hindered by multiple pharmacological barriers, including poor pharmacokinetics, nuclease degradation, and inefficient delivery to the cytosol where RIG-I is localized. Here, we address these challenges through the design and evaluation of ionizable lipid nanoparticles (LNPs) for the delivery of 3p-modified stem-loop RNAs (SLRs). Packaging of SLRs into LNPs (SLR-LNPs) yielded surface charge-neutral nanoparticles with a size of ∼100 nm that activated RIG-I signalingin vitroandin vivo. SLR-LNPs were safely administered to mice via both intratumoral and intravenous routes, resulting in RIG-I activation in the tumor microenvironment (TME) and inhibition of tumor growth in mouse models of poorly immunogenic melanoma and breast cancer. Significantly, we found that systemic administration of SLR-LNPs reprogrammed the breast TME to enhance the infiltration of CD8+and CD4+T cells with antitumor function, resulting in enhanced response to αPD-1 ICI in an orthotopic EO771 model of triple negative breast cancer. Therapeutic efficacy was further demonstrated in a metastatic B16.F10 melanoma model, with systemically administered SLR-LNPs significantly reducing lung metastatic burden compared to combined αPD-1 + αCTLA-4 ICI. Collectively, these studies have established SLR-LNPs as a translationally promising immunotherapeutic nanomedicine for potent and selective activation of RIG-I with potential to enhance response to ICIs and other immunotherapeutic modalities.

Published
2023

14. Supplementary Figures from Integrin α3β1 Can Function to Promote Spontaneous Metastasis and Lung Colonization of Invasive Breast Carcinoma

Author

Christopher S. Stipp, Michael D. Henry, Frederick E. Domann, Melissa Teoh-Fitzgerald, Elisabeth Gustafson-Wagner, Yihan Sun, Mary E. Herndon, Katherine N. Gibson-Corley, and Bo Zhou

Abstract

PDF file, 707K, S1. Comparison of alpha3beta1 and alpha6beta4 integrin expression in 4T1 cell lines. S2. BLI of spontaneous and experimental metastasis (color) S3. Certain large primary mammary fat pad tumors exhibited substantial centralized zones of necrosis. S4. Silencing alpha3 integrin leads to fewer pulmonary metastases following mammary fat pad injection. S5. RNAi-mediated silencing of RhoC has no impact on 4T1 cell metastatic colonization. S6. Cox-2, matrix metalloproteinase, VEGF, and transendothelial migration assays. S7. MDA-MB-231 breast cancer cells do not secrete laminin-332 or laminin-511 or depend on alpha3 integrin in short term proliferation assays.

Published
2023

15. Data from Integrin α3β1 Can Function to Promote Spontaneous Metastasis and Lung Colonization of Invasive Breast Carcinoma

Author

Christopher S. Stipp, Michael D. Henry, Frederick E. Domann, Melissa Teoh-Fitzgerald, Elisabeth Gustafson-Wagner, Yihan Sun, Mary E. Herndon, Katherine N. Gibson-Corley, and Bo Zhou

Abstract

Significant evidence implicates α3β1 integrin in promoting breast cancer tumorigenesis and metastasis-associated cell behaviors in vitro and in vivo. However, the extent to which α3β1 is actually required for breast cancer metastasis remains to be determined. We used RNA interference to silence α3 integrin expression by approximately 70% in 4T1 murine mammary carcinoma cells, a model of aggressive, metastatic breast cancer. Loss of α3 integrin reduced adhesion, spreading, and proliferation on laminin isoforms, and modestly reduced the growth of orthotopically implanted cells. However, spontaneous metastasis to lung was strikingly curtailed. Experimental lung colonization after tail vein injection revealed a similar loss of metastatic capacity for the α3-silenced (α3si) cells, suggesting that critical, α3-dependent events at the metastatic site could account for much of α3β1′s contribution to metastasis in this model. Reexpressing α3 in the α3si cells reversed the loss of metastatic capacity, and silencing another target, the small GTPase RhoC, had no effect, supporting the specificity of the effect of silencing α3. Parental, α3si, and α3-rescued cells, all secreted abundant laminin α5 (LAMA5), an α3β1 integrin ligand, suggesting that loss of α3 integrin might disrupt an autocrine loop that could function to sustain metastatic growth. Analysis of human breast cancer cases revealed reduced survival in cases where α3 integrin and LAMA5 are both overexpressed.Implications: α3 integrin or downstream effectors may be potential therapeutic targets in disseminated breast cancers, especially when laminin α5 or other α3 integrin ligands are also over-expressed. Mol Cancer Res; 12(1); 143–54. ©2013 AACR.

Published
2023

19. Elevated transferrin receptor impairs T cell metabolism and function in systemic lupus erythematosus

Author

Kelsey Voss, Allison E. Sewell, Evan S. Krystofiak, Katherine N. Gibson-Corley, Arissa C. Young, Jacob H. Basham, Ayaka Sugiura, Emily N. Arner, William N. Beavers, Dillon E. Kunkle, Megan E. Dickson, Gabriel A. Needle, Eric P. Skaar, W. Kimryn Rathmell, Michelle J. Ormseth, Amy S. Major, and Jeffrey C. Rathmell

Subjects
Immunology, General Medicine
Abstract

T cells in systemic lupus erythematosus (SLE) exhibit multiple metabolic abnormalities. Excess iron can impair mitochondria and may contribute to SLE. To gain insights into this potential role of iron in SLE, we performed a CRISPR screen of iron handling genes on T cells. Transferrin receptor (CD71) was identified as differentially critical for T H 1 and inhibitory for induced regulatory T cells (iT regs ). Activated T cells induced CD71 and iron uptake, which was exaggerated in SLE-prone T cells. Cell surface CD71 was enhanced in SLE-prone T cells by increased endosomal recycling. Blocking CD71 reduced intracellular iron and mTORC1 signaling, which inhibited T H 1 and T H 17 cells yet enhanced iT regs . In vivo treatment reduced kidney pathology and increased CD4 T cell production of IL-10 in SLE-prone mice. Disease severity correlated with CD71 expression on T H 17 cells from patients with SLE, and blocking CD71 in vitro enhanced IL-10 secretion. T cell iron uptake via CD71 thus contributes to T cell dysfunction and can be targeted to limit SLE-associated pathology.

Published
2023

20. Nervous System

Author

Jessica M. Snyder, Katherine N. Gibson‐Corley, and Enrico Radaelli

Published
2021

21. Abstract 102: Mitoquinone Reduces Preeclamptic Phenotypes Associated With Syncytiotrophoblast-Specific Gq Signaling

Author

Megan A Opichka, M C Livergood, Katherine N Gibson-Corley, Agnes B Fogo, Anne E Kwitek, Curt D Sigmund, Jennifer J McIntosh, and Justin L Grobe

Subjects
Internal Medicine
Abstract

Syncytiotrophoblast (STB) stress is theorized to drive the pathogenesis of preeclampsia (PE), and Gq-activating hormones implicated in PE have been associated with placenta oxidative damage, mitochondrial dysfunction, and maternal symptomology. As the causes and consequences of STB stress remain largely unknown, we used an in vivo model to determine whether excess STB-specific Gq signaling is sufficient to cause phenotypes of PE and if a mitochondrial-targeted antioxidant (mitoquinone) mitigates these effects. Activation of Gq signaling in STB cells was achieved by crossing dams harboring a cre-dependent Gq-coupled DREADD (hM3Dq) with Gcm1 -Cre +/- sires and injecting clozapine N-oxide (CNO) or saline mid-gestation (GD12.5-14.5) before tissue collection at GD14.5. Gq activation resulted in maternal proteinuria (n=9-11 CNO 43±4 vs saline 28±3mg/day; p=0.01), mild segmental congestion of glomerular capillaries, and elevated circulating IP-10 (p=0.03), MCP-5 (p=0.04), and IL-12p40 (p=0.01). hM3Dq stimulation reduced labyrinth vascularization (n=10 Cre + 19±1%, Cre - 24±1%, saline 23±1%; p+ vs each), spiral artery diameter (n=7-11 Cre + 110±11μm, Cre - 135±9, saline 149±12 μm; p=0.03), placenta mass (n=10-13 Cre + 0.12±0.01, Cre - 0.14±0.01, saline 0.13±0.01g; p+ 0.23±0.03, Cre - 0.30±0.02, saline 0.29±0.02g; p

Published
2022

22. SEC is an antiangiogenic virulence factor that promotes Staphylococcus aureus endocarditis independent of superantigen activity

Author

Kyle J. Kinney, Sharon S. Tang, Xiao-Jun Wu, Phuong M. Tran, Nikhila S. Bharadwaj, Katherine N. Gibson-Corley, Ana N. Forsythe, Katarina Kulhankova, Jenny E. Gumperz, and Wilmara Salgado-Pabón

Subjects
Multidisciplinary
Abstract

The superantigen staphylococcal enterotoxin C (SEC) is critical for Staphylococcus aureus infective endocarditis (SAIE) in rabbits. Superantigenicity, its hallmark function, was proposed to be a major underlying mechanism driving SAIE but was not directly tested. With the use of S. aureus MW2 expressing SEC toxoids, we show that superantigenicity does not sufficiently account for vegetation growth, myocardial inflammation, and acute kidney injury in the rabbit model of native valve SAIE. These results highlight the critical contribution of an alternative function of superantigens to SAIE. In support of this, we provide evidence that SEC exerts antiangiogenic effects by inhibiting branching microvessel formation in an ex vivo rabbit aortic ring model and by inhibiting endothelial cell expression of one of the most potent mediators of angiogenesis, VEGF-A. SEC’s ability to interfere with tissue revascularization and remodeling after injury serves as a mechanism to promote SAIE and its life-threatening systemic pathologies.

Published
2022

23. IL-17A controls CNS autoimmunity by regulating gut microbiota and inducing regulatory T cells

Author

Shailesh K. Shahi, Sudeep Ghimire, Samantha N. Jensen, Peter Lehman, Nicholas Borcherding, Katherine N. Gibson-Corley, Sukirth M. Ganesan, Nitin J. Karandikar, and Ashutosh K. Mangalam

Abstract

A disrupted equilibrium between IL-17A-producing CD4 T-cells (Th17) and CD4+CD25+FoxP3+ regulatory T cells (Tregs) play an important role in the pathobiology of Multiple sclerosis (MS). Gut bacteria help in maintaining immune homeostasis by regulating the balance between anti-inflammatory Tregs and pro-inflammatory Th17 cells. Although, both gut bacteria and Tregs can regulate Th17 cells, the impact of IL-17A on gut microbiota and Tregs is unclear. Utilizing HLA-DR3 transgenic mouse model of MS, we show that IL-17A deficiency (HLA-DR3.IL17A-/- mice) expands Treg-inducing gut bacteria such as Prevotella, Parabacteroides, and Bacteroides and consequently Tregs, resulting in a milder disease in an animal model of MS. Notably, IL-17A sufficient DR3 mice develop milder disease on cohousing with IL-17A-deficient mice, highlighting a dominant role for gut microbiota in inducing Treg and reducing disease severity. Further, we observed an enrichment of bacterial-specific Treg promoting short-chain-fatty-acid metabolic pathways and induction of tolerogenic dendritic cells in HLA-DR3.IL17A-/- mice. Thus, our study shows a novel role of IL-17A in immune homeostasis and inflammation through regulation of the gut microbiota-Treg axis which can be used for the development of gut bacteria as therapeutics for MS.Significance of our workIL-17A a pro-inflammatory cytokine, is linked with pathobiology of multiple inflammatory diseases including multiple sclerosis (MS) and regulated by both gut microbiota and regulatory CD4 T cells (Tregs). However, the importance of IL-17A in the regulation of gut microbiota and Treg is unknown. Here we show that IL-17A can regulate Treg and disease phenotype by modulating gut microbiota and provide a novel mechanism by which immune-mediators such as IL-17A impact the gut microbiota to alter immune cell function and ultimately disease outcomes. Transfer of milder disease phenotype from IL-17A deficient mice to IL-17A sufficient mice on cohousing indicate a dominant role of gut microbiota in disease suppression. Thus, our study lays the foundation for future studies to unravel the interplay between immunological responses and the gut microbiota which will result in the development of microbiota-based therapeutics to treat autoimmune diseases.

Published
2022

24. Perfusion with 10% neutral-buffered formalin is equivalent to 4% paraformaldehyde for histopathology and immunohistochemistry in a mouse model of experimental autoimmune encephalomyelitis

Author

Jessica M. Snyder, Enrico Radaelli, Adam Goeken, Thomas Businga, Alexander W. Boyden, Nitin J. Karandikar, and Katherine N. Gibson-Corley

Subjects
Perfusion, Rodent Diseases, Disease Models, Animal, Fixatives, Mice, Encephalomyelitis, Autoimmune, Experimental, Tissue Fixation, General Veterinary, Polymers, Formaldehyde, Animals, Immunohistochemistry, Article
Abstract

Intravascular (IV) perfusion of tissue fixative is commonly used in the field of neuroscience as the central nervous system tissues are exquisitely sensitive to handling and fixation artifacts which can affect downstream microscopic analysis. Both 10% neutral-buffered formalin (NBF) and 4% paraformaldehyde (PFA) are used, although IV perfusion with PFA is most commonly referenced. The study objective was to compare the severity of handling and fixation artifacts, semiquantitative scores of inflammatory and neurodegenerative changes, and quantitative immunohistochemistry following terminal IV perfusion of mice with either 10% NBF or 4% PFA in a model of experimental autoimmune encephalitis (EAE). The study included 24 mice; 12 were control animals not immunized and an additional 12 were immunized with PLP139–151subcutaneously, harvested at day 20, and fixed in the same fashion. Equal numbers (4 per group) were perfused with 10% NBF or 4% PFA, and 4 were immersion-fixed in 10% NBF. NBF-perfused mice had less severe dark neuron artifact than PFA-perfused mice ( P < .001). Immersion-fixed animals had significantly higher scores for oligodendrocyte halos, dark neuron artifact, and perivascular clefts than perfusion-fixed animals. Histopathology scores in EAE mice for inflammation, demyelination, and necrosis did not differ among fixation methods. Also, no significant differences in quantitative immunohistochemistry for CD3 and Iba-1 were observed in immunized animals regardless of the method of fixation. These findings indicate that IV perfusion of mice with 10% NBF and 4% PFA are similar and adequate fixation techniques in this model.

Published
2022

25. Comparison of Interleukin-1 Ligand Expression by Human Papilloma Virus Status in HNSCCs

Author

Ishrat Nourin Khan, Katherine N. Gibson-Corley, Joseph D. Coppock, and Andrean L. Simons

Subjects
Original Paper, Squamous Cell Carcinoma of Head and Neck, Papillomavirus Infections, Alphapapillomavirus, Ligands, Pathology and Forensic Medicine, Oncology, Otorhinolaryngology, Head and Neck Neoplasms, Biomarkers, Tumor, Carcinoma, Squamous Cell, Humans, RNA, Papillomaviridae, Interleukin-1
Abstract

Interleukin-1 alpha (IL-1α) is a cytokine involved in the acute phase immune response and its expression is upregulated in a variety of solid tumors including head and neck squamous cell carcinomas (HNSCCs). Tumor expression of IL-1α is associated with increased tumor aggressiveness in HNSCCs, but this has yet to be studied in the context of human papilloma virus (HPV) status. This study is aimed at determining differences in tumor expression and subcellular localization of IL-1α in HPV-positive (HPV+) and HPV-negative (HPV−) HNSCC tumors. Tissue microarrays (TMAs) containing HPV+ (n = 31) and HPV− (n = 47) primary and metastatic HNSCCs were analyzed for IL-1α expression using immunohistochemical (IHC) staining. HPV status was confirmed using p16 IHC staining and RNA in situ hybridization (RNA ISH). Differences in IL-1α protein expression and secretion in HPV+ and HPV− HNSCC cell lines were determined by western blot and ELISA respectively. Associations between tumor IL1A expression and survival outcomes were assessed in HPV+ and HPV− HNSCC patients from publicly available gene expression datasets. Tumor expression of IL-1α was significantly increased in HPV− tumors and cell lines (as detected by IHC and western blot respectively) compared to HPV+ tumors and cell lines. There was no difference in IL-1α release between HPV+ and HPV− cell lines. IL-1α was expressed in both nuclear and cytoplasmic compartments, with predominant expression in the nucleus. Gene expression of IL1A was significantly increased in HPV-tumors/cell lines compared to HPV+ tumors/cell lines. Lastly, increased IL1A gene expression was significantly associated with worse survival in HPV- tumors but not in HPV+ tumors. Overall IL-1α expression particularly in the nucleus may possess more prognostic significance in HPV− tumors rather than HPV+ tumors. This work warrants further investigation into the role of intracellular IL-1α ligand expression in HNSCCs and may have important implications in IL-1 pathway blockade as therapeutic strategy. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s12105-022-01440-x.

Published
2022

26. PCB126 Induced Toxic Actions on Liver Energy Metabolism is Mediated by AhR in Rats

Author

Katherine N. Gibson-Corley, Nazmin Eti, Regan L. Scott, Violet E Klenov, Michael J. Soares, Khursheed Iqbal, Gabriele Ludewig, Susanne Flor, and Larry W. Robertson

Subjects
Male, medicine.medical_specialty, Glycogenolysis, Gene Expression, Toxicology, Energy homeostasis, Article, Rats, Sprague-Dawley, chemistry.chemical_compound, Gene Knockout Techniques, Sex Factors, Internal medicine, Weight Loss, medicine, Basic Helix-Loop-Helix Transcription Factors, Glucose homeostasis, Animals, Beta oxidation, chemistry.chemical_classification, Glycogen, biology, Fatty liver, Fatty Acids, Gluconeogenesis, Fatty acid, Organ Size, Aryl hydrocarbon receptor, medicine.disease, Lipid Metabolism, Polychlorinated Biphenyls, Rats, Fatty Liver, Endocrinology, chemistry, Liver, Receptors, Aryl Hydrocarbon, biology.protein, Female, Energy Metabolism
Abstract

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor involved in the regulation of biological responses to more planar aromatic hydrocarbons, like TCDD. We previously described the sequence of events following exposure of male rats to a dioxin-like polychlorinated biphenyl (PCB) congener, 3,3’,4,4’,5-pentachlorobiphenyl (PCB126), that binds avidly to the AhR and causes various types of toxicity including metabolic syndrome, fatty liver, and disruption of energy homeostasis. The purpose of this study was, to investigate the role of AhR to mediate those toxic manifestations following sub-acute exposure to PCB126 and to examine possible sex differences in effects. For this goal, we created an AhR knockout (AhR-KO) model using CRISPR/Cas9. Comparison was made to the wild type (WT) male and female Holtzman Sprague Dawley rats. Rats were injected with a single IP dose of corn oil vehicle or 5 µmol/kg PCB126 in corn oil and necropsied after 28 days. PCB126 caused significant weight loss, reduced relative thymus weights, and increased relative liver weights in WT male and female rats, but not in AhR-KO rats. Similarly, significant pathologic changes were visible which included necrosis and regeneration in female rats, micro- and macro-vesicular hepatocellular vacuolation in males, and a paucity of glycogen in livers of both sexes in WT rats only. Hypoglycemia and lower IGF1, and reduced serum non-esterified fatty acids (NEFAs) was found in serum of both sexes of WT rats, low serum cholesterol levels only in the females, and no changes in AhR-KO rats. The expression of genes encoding enzymes related to xenobiotic metabolism (e.g. CYP1A1), gluconeogenesis, glycogenolysis, and fatty acid oxidation were unaffected in the AhR-KO rats following PCB126 exposure as opposed to WT rats where expression was significantly upregulated (PPARα, females only) or downregulated suggesting a disrupted energy homeostasis. Interestingly, Acox2, Hmgcs, G6Pase and Pc were affected in both sexes, the gluconeogenesis and glucose transporter genes Pck1, Glut2, Sds, and Crem only in male WT-PCB rats. These results show the essential role of the AhR in glycogenolysis, gluconeogenesis, and fatty acid oxidation, i.e. in the regulation of energy production and homeostasis, but also demonstrate a significant difference in the effects of PCB126 in males verses females, suggesting higher vulnerability of glucose homeostasis in males and more changes in fatty acid/lipid homeostasis in females. These differences in effects, which may apply to more/all AhR agonists, should be further analyzed to identify health risks to specific groups of highly exposed human populations.

Published
2021

27. Dysregulated Transferrin Receptor Disrupts T Cell Iron Homeostasis to Drive Inflammation in Systemic Lupus Erythematosus

Author

Kelsey Voss, Arissa C. Young, Katherine N. Gibson-Corley, Allison E. Sewell, Evan S. Krystofiak, Jacob H. Bashum, William N. Beavers, Ayaka Sugiura, Eric P. Skaar, Michelle J. Ormseth, Amy S. Major, and Jeffrey C. Rathmell

Subjects
Chemistry, T cell, Transferrin receptor, Inflammation, medicine.disease_cause, medicine.anatomical_structure, immune system diseases, In vivo, Blocking antibody, medicine, Cancer research, Secretion, medicine.symptom, skin and connective tissue diseases, Oxidative stress, Intracellular
Abstract

T cells in systemic lupus erythematosus (SLE) exhibit mitochondrial abnormalities including elevated oxidative stress. Because excess iron can promote these phenotypes, we tested iron regulation of SLE T cells. A CRISPR screen identified Transferrin Receptor (CD71) as important for Th1 cells but detrimental for induced regulatory T cells (iTreg). Activated T cells induce CD71 to increase iron uptake, but this was exaggerated in T cells from SLE-prone mice which accumulated iron. Treatment of T cells from SLE-prone mice with CD71 blocking antibody reduced intracellular iron and mTORC1 signaling and restored mitochondrial physiology. While Th1 cells were inhibited, CD71 blockade enhanced iTreg. In vivo this treatment reduced pathology and increased IL-10 in SLE-prone mice. Importantly, disease severity correlated with CD71 expression on SLE patient T cells and blocking CD71 enhanced IL-10 secretion. Excess T cell iron uptake thus contributes to T cell dysfunction and can be targeted to correct SLE-associated pathology.

Published
2021

Catalog

Books, media, physical & digital resources
See catalog results