Global ETD Search

31	EXPLORING THE ROLE OF THE SYNTHETIC FOOD COLOURANT ALLURA RED AC IN THE DEVELOPMENT OF COLITIS Kwon, Yun Han January 2022 (has links) Environmental factors such as diet contribute to the pathogenesis of inflammatory bowel disease (IBD). Epidemiological evidence suggests a robust linkage between IBD and the Western diet, which is often characterized by a high intake of food additives. These additives, including synthetic colourants, are widely used, leading to significant human exposure. Allura Red AC (AR) is one of the most popular synthetic colourants, yet little is known about its impact on human health and the role of AR in the pathogenesis of colitis remains elusive. Serotonin (5-hydroxytryptamine; 5-HT), which regulates various gut physiological processes, has been shown to modulate the gut microbiota and enhance susceptibility to colitis. In this thesis, it was discovered that chronic exposure to AR, at a dose found in commonly consumed dietary products, exacerbated dextran sulfate sodium (DSS)-induced colitis and triggered early onset of disease in the CD4+CD45RBhigh T cell-induced colitis model. AR also induced low grade colonic inflammation in naïve C57BL/6 mice. Exposure to AR was associated with increased colonic 5-HT levels and impaired intestinal barrier function via activation of the myosin light chain kinase (MLCK) pathway. However, AR did not promote colitis in mice lacking tryptophan hydroxylase 1 (Tph1), the rate-limiting enzyme responsible for colonic 5-HT synthesis. Further, AR increased colonic 5-HT levels in germ-free (GF) mice and perturbed the gut microbiota composition in specific pathogen-free (SPF) mice. Transfer of this altered microbiota from the dye-exposed SPF mice to GF mice conferred enhanced susceptibility to DSS-induced colitis. Mechanistically, AR induced reactive oxygen species (ROS) generation and promoted 5-HT secretion via the NF-κB pathway in BON cells. Data in this thesis indicate that the widely used synthetic colourant, AR, promotes colitis via colonic 5-HT in microbiota-dependent and -independent pathways. Collectively, these findings provide important information on enhancing public awareness of its detrimental effects on human health. / Thesis / Candidate in Philosophy / Epidemiological and experimental studies suggest a potential link between inflammatory bowel disease (IBD) and diet. The Western diet, often characterized by a high intake of processed foods, is associated with the growing incidence of IBD. Allura Red AC (AR) is a popular artificial food dye found in highly common processed foods, yet little is known about its impact on human health and disease. Serotonin, a key molecule in the gut, has been implicated in large bowel inflammation. Herein, the potential role of AR in the development of colitis was examined. Across multiple models, AR exposure heightened vulnerability to colitis in mice, an effect attenuated by reduced serotonin production in the gut. The effect of AR in enhancing colitis vulnerability occurred via gut microbiota-dependent and -independent pathways. These studies have identified how AR promotes colitis, findings that may advance public health awareness and impact the health of patients with IBD. Inflammatory bowel disease Colitis Enterochromaffin cell Serotonin Synthetic food colourant Allura Red AC Myosin light chain kinase Intestinal organoids
32	Kinase pathways underlying muscarinic activation of colonic longitudinal muscle Anderson, Charles Dudley, Jr. 22 April 2011 (has links) The longitudinal muscle layer in gut is the functional opponent to the circular muscle layer during the peristalsis reflex. Differences in innervation of the layers allow for the contraction of one layer that corresponds with the simultaneous relaxation of the other, enabling the passage of gut contents in a controlled fashion. Differences in development have given the cells of the two layers differences in receptor populations, membrane lipid handling, and calcium handling profiles/behaviors. The kinase signaling differences between the two layers is not as well characterized. Upon activation of cells from the circular muscle layer, it is known that Rho kinase and ERK1/2 promote contraction, while CaMKK/AMPK and CaMKII perform inhibitory/self-inhibitory roles. Such behaviors are poorly understood in the longitudinal muscle layer. In longitudinal muscle strips, we measured muscarinic receptor-mediated contraction following incubation with kinase inhibitors. Upon comparison to control, contributions of Rho Kinase and ERK1/2 were similar to those seen in circular muscle. Inhibition of both of these enzymes leads to diminished contraction. However, CaMKK/AMPK and CaMKII have effects in longitudinal muscle opposite to their regulation in circular muscle – their inhibition also diminishes the contractile response. These contractile data from strips were supported by immunokinase assay measurements of MLCK activity from strip homogenates with and without kinase inhibition. Therefore, we suggest that the activities of CaMKK/AMPK and CaMKII in longitudinal muscle are indeed different from their regulatory roles in circular muscle, perhaps a consequence of the different calcium handling modalities of the two muscle types. Longitudinal Muscle Kinase Cascade Myosin light chain phosphorylation MLCK MLCP Colonic Muscle Rho Kinase ERK1/2 CaMKII AMPK CaMKK Muscarinic Receptors Life Sciences Physiology
33	Desenvolvimento de vetores não virais para entrega gênica baseados na cadeia leve de dineína Rp3 = Development of non viral vectors for gene delivery based on dynein light chain Rp3 / Development of non viral vectors for gene delivery based on dynein light chain Rp3 Favaro, Marianna Teixeira de Pinho, 1986- 07 November 2012 (has links) Orientadores: Adriano Rodrigues Azzoni, Anete Pereira de Souza / Texto em português e inglês / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T01:06:03Z (GMT). No. of bitstreams: 1 Favaro_MariannaTeixeiradePinho_M.pdf: 18876970 bytes, checksum: 4953fcf4a875c09d8246f6deb457b544 (MD5) Previous issue date: 2012 / Resumo: Entrega gênica é uma estratégia muito promissora com grande potencial médico, que consiste na introdução de ácidos nucléicos exógenos, e pode ser aplicada tanto para terapia gênica quanto para vacina de DNA. Contudo seu uso ainda é limitado pela falta de um vetor de entrega ideal, que seja ao mesmo tempo eficiente e seguro. Embora muito mais eficientes, os vetores virais ainda despertam preocupações a respeito de sua segurança. Por outro lado, vetores não-virais são muito mais seguros e facilmente manipuláveis, ainda que menos eficientes. Neste contexto, "vírus artificiais" são uma opção interessante, uma vez que são vetores não-virais desenvolvidos para explorar a arquitetura celular de uma forma eficiente, superando uma série de barreiras físicas, enzimáticas e difusionais, mas mantendo a segurança do DNA plasmidial (pDNA). O principal objetivo da abordagem estudada é explorar os motores moleculares, como dineína, para transportar cargas da periferia para o centrossoma de células de mamíferos através da rede de microtúbulos. Para isso, a cadeia leve Rp3 da dineína foi fusionada a um domínio de interação com DNA (DNA-binding) no N-terminal, e ao peptídeo membrano-ativo TAT no C-terminal. A proteína, nomeada T-Rp3, tem ainda um His-Tag. Esta proteína recombinante construída contém então diferentes domínios para promover condensação do pDNA (DNA binding), para facilitar a entrada na célula e no núcleo (TAT) e para aumentar o escape endossomal (His- Tag), além da própria Rp3 que deve assistir no tráfego intracelular, agindo assim diretamente na maioria dos principais obstáculos intracelulares enfrentados pelos vetores. Estudos de expressão indicam que a proteína recombinante é corretamente expressa em E. coli BL21(DE3). Experimentos de mobilidade em gel de agarose ("gel retardation assay") combinados com estudos de espalhamento de luz e potencial zeta indicam que a proteína efetivamente interage com o pDNA, formando complexos que são pequenos (~95 nm) e positivamente carregados (+28 mV na relação molar de pDNA:proteína 1:8000). Ensaios de transfecção em cultura de células HeLa indicam que T-Rp3 atinge uma eficiência de transfecção muito maior que a proteína nuclear Protamina (aqui usada como controle), chegando a ser 900 vezes maior a expressão relativa do gene repórter na relação molar de pDNA:proteína 1:8000. Na comparação com Lipofectamina 2000TM, um reagente bem caracterizado de transfecção aqui usado como controle positivo, a T-Rp3 demonstrou atingir níveis similares de eficiência, com a vantagem adicional de ser menos citotóxica, conforme evidenciado em ensaios de viabilidade celular. Transfecções realizadas na presença da droga Nocodazol indicam que a eficiência da T-Rp3 depende fortemente da rede de microtúbulos, uma vez que a eficiência é reduzida em 92% quando os microtúbulos estão despolimerizados. A partir das transfecções na presença da droga Cloroquina, pudemos observar que o aprisionamento no endossomo ainda é um fator limitante. Finalmente, ensaios de cromatografia de afinidade realizados com o domínio da cadeia intermediária de dineína imobilizado indicam que a cadeia leve recombinante T-Rp3 mantém a capacidade de interagir com o complexo da dineína. Analisados em conjunto, os resultados apontam para uma grande participação da rede de microtúbulos na eficiência de transfecção de T-Rp3, objetivo inicial deste trabalho / Abstract: Gene delivery is a promising technique with great medical potential that consists in the introduction of exogenous nucleic acids, and can be applied for gene therapy as well as DNA vaccination. However, its use is still limited by the lack of an ideal delivery vector, which is both safe and efficient. Although much more effective, viral vectors still raise several concerns about its safety. On the other hand, non-viral vectors are safer and easier to manipulate, but less efficient. In this context "artificial viruses" are an interesting option, since they are non-viral vectors intended to explore the cell's architecture in an efficient way, to overcome a series of physical, enzymatic and diffusional barriers, while still preserving the safety of plasmid DNA (pDNA) vectors. The main objective herein is to exploit molecular motors, like dynein, to transport cargoes from the periphery to the centrosome of mammalian cells via the microtubule network. For that, human dynein light chain Rp3 was fusioned to a N-terminal DNA binding domain and a C-terminal membrane active peptide, TAT. The protein, named T-Rp3, has additionally a His.Tag. The shuttle protein built contains therefore different domains to promote pDNA condensation (DNA binding), to increase cell and nucleus penetration (TAT) and to enhance endosomal escape (His.Tag), besides the Rp3 to assist in the cytosol trafficking, thus covering most of the major obstacles to the vectors in intracellular level. Expression studies indicate that the fusion protein was correctly expressed in soluble form using E. coli BL21(DE3) strain. Gel retardation assays, dynamic light scattering and zeta potential studies indicate an efficient complex formation between pDNA and the fusion protein, resulting in a particle that is both small (~95 nm) and potivelly charged (+28 mV in the molar ratio of pDNA:protein 1:8000) Transfection of cultured HeLa cells indicates that T-Rp3 has a much higher transfection efficiency when compared to the nuclear protein Protamine (here used as a control), reaching a 900-fold increase in expression of transfected reporter gene, both in the same molar ratio of pDNA:protein 1:8000. When compared to Lipofectamine 2000TM, a well-known transfection reagent here used as a control, T-Rp3 showed to reach similar levels of efficiency, but with the further advantage of being less cytotoxic, as observed in cell viability assays. Transfections performed in the presence of the drug Nocodazole indicate that T-Rp3 efficiency largely depends on the microtubule network, since its efficiency is reduced by 92% when microtubules are depolymerized. From transfections in the presence of Choroquine we can deduce that endosomal entrapment remains a limiting factor. Finally, affinity chromatography experiments performed with the immobilized domain of dynein intermediate chain demonstrate that the recombinant light chain T-Rp3 retains the ability to interact with the dynein complex. Taken together, these results point to a strong participation of the microtubule network in the enhanced efficiency of T-Rp3 / Mestrado / Genetica de Microorganismos / Mestre em Genética e Biologia Molecular Terapia genética Dineínas Cadeia leve de dineína Rp3 Virus artificiais Entrega gênica Gene therapy Dynein light chain Rp3 Dyneins Artificial virus Gene delivery
34	Yet Another Amyloidosis Means, Robert T. 01 February 2022 (has links) No description available. amyloidosis kidney diseases liver diseases amyloid neuropathies familial amyloid beta-peptides humans immunoglobulin light chains immunoglobulin light-chain amyloidosis prealbumin Internal Medicine
35	ALTERATIONS IN MYOSIN AND MYOCYTE STRUCTURE IN AN EXTREMLY LONG TERM PACING MODEL OF CANINE DILATED CARDIOMYOPATHY Fuller, Geraldine Anne 20 December 2002 (has links) No description available. dilated cardiomyopathy
36	Studies on Signal Transduction Mechanisms in Rhabdomyosarcoma Durbin, Adam 06 August 2010 (has links) Rhabdomyosarcoma (RMS) is the most common soft-tissue sarcoma of childhood, with two predominant histologic subtypes: embryonal and alveolar. These histologies display distinct clinical courses, and despite refinements in dose and duration of multimodality therapy, the 5-year overall survival of patients diagnosed with metastatic RMS remains <30%. Thus, there is an urgent need to define novel targets for therapeutic intervention. Interrogation of cancer cell signal transduction pathways that regulate the pathogenic behaviours of tumor cells has been successful in defining targets in numerous tumor types. These have ultimately yielded clinically-relevant drugs that have improved the disease-free and overall survival of patients diagnosed with cancer. Work contained in this thesis describes the interrogation of several potential targets for inhibition in RMS. Interruption of RMS cell proliferation, survival and apoptosis is examined through disruption of the protein kinase integrin-linked kinase (ILK) and the nuclear receptor estrogen-receptor β. ILK, in particular, is demonstrated to have dual competing functions through the regulation of c-jun amino-terminal kinase (JNK) signaling: an oncogene in alveolar, and a tumor suppressor in embryonal RMS. These findings are recapitulated in other tumor cell lines, indicating that expression levels of JNK1 correlate with ILK function in a broad spectrum of tumor types. Furthermore, interruption of rhabdomyosarcoma cell migration as a surrogate marker of metastasis is examined through disruption of the stromal-cell derived factor 1α/chemokine (CXC)receptor 4 signaling network, as well as through cooperative interactions between ILK and the mammalian target of rapamycin. Finally, we demonstrate that the insulin-like growth factor pathway is a potential target for therapeutic inhibition, which also distinguishes tumors of embryonal and alveolar histology. These studies provide a rationale for the development of novel agents, as well as the use of established drugs targeting these pathways in rhabdomyosarcoma. rhabdomyosarcoma cell signaling tumor suppressor oncogene metastasis insulin-like growth factor chemokine cancer translocation signal transduction estrogen receptor integrin-linked kinase JNK c-jun embryonal alveolar mTOR myosin light chain 0992 0379 0307
37	Studies on Signal Transduction Mechanisms in Rhabdomyosarcoma Durbin, Adam 06 August 2010 (has links) Rhabdomyosarcoma (RMS) is the most common soft-tissue sarcoma of childhood, with two predominant histologic subtypes: embryonal and alveolar. These histologies display distinct clinical courses, and despite refinements in dose and duration of multimodality therapy, the 5-year overall survival of patients diagnosed with metastatic RMS remains <30%. Thus, there is an urgent need to define novel targets for therapeutic intervention. Interrogation of cancer cell signal transduction pathways that regulate the pathogenic behaviours of tumor cells has been successful in defining targets in numerous tumor types. These have ultimately yielded clinically-relevant drugs that have improved the disease-free and overall survival of patients diagnosed with cancer. Work contained in this thesis describes the interrogation of several potential targets for inhibition in RMS. Interruption of RMS cell proliferation, survival and apoptosis is examined through disruption of the protein kinase integrin-linked kinase (ILK) and the nuclear receptor estrogen-receptor β. ILK, in particular, is demonstrated to have dual competing functions through the regulation of c-jun amino-terminal kinase (JNK) signaling: an oncogene in alveolar, and a tumor suppressor in embryonal RMS. These findings are recapitulated in other tumor cell lines, indicating that expression levels of JNK1 correlate with ILK function in a broad spectrum of tumor types. Furthermore, interruption of rhabdomyosarcoma cell migration as a surrogate marker of metastasis is examined through disruption of the stromal-cell derived factor 1α/chemokine (CXC)receptor 4 signaling network, as well as through cooperative interactions between ILK and the mammalian target of rapamycin. Finally, we demonstrate that the insulin-like growth factor pathway is a potential target for therapeutic inhibition, which also distinguishes tumors of embryonal and alveolar histology. These studies provide a rationale for the development of novel agents, as well as the use of established drugs targeting these pathways in rhabdomyosarcoma. rhabdomyosarcoma cell signaling tumor suppressor oncogene metastasis insulin-like growth factor chemokine cancer translocation signal transduction estrogen receptor integrin-linked kinase JNK c-jun embryonal alveolar mTOR myosin light chain 0992 0379 0307
38	Detection of new allotypic variants of bovine antibody λ-light chain and IgG-heavy chain constant regions / Detection of new allotypic variants of bovine antibody λ-light chain and IgG-heavy chain constant regions Aboelhassan, Dalia 03 February 2012 (has links) No description available. 000 Allgemeines Wissenschaft Agricultural Sciences Bos taurus Rind Immunglobulin konstante Region allotypische Variante IGλ leichten Kette schweren Kette von IgG Bos taurus cattle immunoglobulin constant region allotypic variant IGλ light chain IgG heavy chain Immunogenetics Immunogenetics
39	Identification and characterization of miRNA-133b as a novel regulator of death receptor mediated apoptosis Arcila, Juan Pablo Patrón 25 November 2010 (has links) MicroRNAs (miRNAs) sind endogenene kurze RNA-Moleküle, die zentrale Aufgaben bei der Regulation der eukaryotischen Zellhomöostase erfüllen. MiRNAs wurden bereits als potente Immunregulatoren beschrieben. Trotz dieser Erkenntnisse blieb die Rolle dieser kurzen RNA Moleküle in Infektionen mit Mycobacterium tuberculosis weitgehend unerforscht. Im Rahmen dieser Arbeit wurde ein miRNA-Expressionsprofil von Makrophagen generiert, die mit Mycobacterium tuberculosis infiziert waren. Dies ermöglichte die Identifizierung von miRNAs, welche bei der Infektion differenziell reguliert waren. Anhand eines ex-vivo-Modells von Todesrezeptor-induzierter Apoptose konnte gezeigt werden, dass miRNA-133b apoptoseresitente Zellen empfindlich gegen Tumornekrosefaktor-alpha (TNFalpha), TNF-related apoptosis-inducing ligand (TRAIL) oder CD95 ligand (Fas/APO1 ligand) induzierte Zytotoxizität machte. Eine umfassende Studie führte zur Identifizierung der anti-apoptotischen Proteine Fas apoptosis inhibitory molecule (FAIM) und glutathione-S-transferase pi (GSTP1) als direkte Zielgene für miRNA-133b. Desweiteren zeigte sich die Expression von Osteoprotegerin (OPG) und Fettsäuresynthase (FASN), als miRNA-133b abhängig. Dies unterstrich die pleiotrope Art der pro-apoptotischen Aktivität dieser miRNA. Die Expression von miRNA-133b wurde durch Mitglieder der Toll-like Rezeptor (TLR)-Familie aktiviert. MiRNA-133b Transfektion führte zu einer verstärkten Aktivierung des Transkriptionsfaktors nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). Diese resultierte in erhöhten Mengen an Interleukinen 6 und 8 (IL6/8). Diese Ergebnisse stellen die erste detaillierte Charakterisierung von miRNA-133b im Zusammenhang der Todesrezeptor-vermittelten Apoptose und der angeborenen Immunität dar. Die erforschten molekularen Wechselwirkungen ergänzen und bereichern das Verständnis über die regulatorischen molekularen Mechanismen, die mit der Tumorentstehung und Entzündung verbunden sind. / MicroRNAs (miRNAs) are endogenous short RNA molecules which perform essential tasks in the regulation of eukaryotic cell homeostasis. During the past few years miRNAs have emerged as very potent immune regulators. Despite the consequences of this discovery for our understanding of immune response regulation hitherto virtually nothing is known about miRNA function during innate immunity to Mycobacterium tuberculosis. Herein, a miRNA expression profile of human macrophages infected with Mycobacterium tuberculosis was generated. This led to the identification of miRNAs being differentially regulated during infection. By using an experimental ex-vivo model of death receptor (DR)-induced apoptosis it could be demonstrated that miRNA-133b rendered apoptosis-resistant cells sensitive to tumor necrosis factor-alpha (TNFalpha)-, TNF-related apoptosis-inducing ligand (TRAIL)- or CD95 ligand (Fas/APO1 ligand)-activated cytotoxicity. Comprehensive analysis led to the discovery of the anti-apoptotic proteins Fas apoptosis inhibitory molecule (FAIM) and glutathione-S-transferase pi (GSTP1) as direct miRNA-133b targets. Moreover, underlining the pleiotropic and synergistic nature of miRNA activity, the expression of osteoprotegerin (OPG) and fatty acid synthase (FASN) could be further proven as miRNA-133b dependent. Expression of miRNA-133b increased following innate immune activation by members of the Toll-like receptor (TLR) family. MiRNA-133b enhanced the activity of the transcription factor nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). This translated into increased levels of the pro-inflammatory interleukins 6 and 8 (IL6/8). The results presented in this work represent the first detailed characterization of miRNA-133b in the context of DR-mediated apoptosis and innate immunity. The molecular interactions dissected herein improve the understanding of the regulatory processes associated with tumorigenesis and the immune response. Mycobacterium tuberculosis Toll-like Rezeptor Immunantwort microRNA Todesrezeptor-induzierte Apoptose miRNA-133b Tumornekrosefaktor-alpha TNF-related apoptosis-inducing ligand CD95 ligand Tumorgenese. Mycobacterium tuberculosis Toll-like receptor immune response microRNA death receptor-induced apoptosis miRNA-133b tumor necrosis factor-alpha TNF-related apoptosis-inducing ligand CD95 ligand tumorigenesis. 570 Biowissenschaften, Biologie 32 Biologie WD 5355 ddc:570
40	CELLULAR AND MOLECULAR MECHANISM OF LISTERIA ADHESION PROTEIN-MEDIATED BACTERIAL CROSSING OF THE INTESTINAL BARRIER Rishi Drolia (5929649) 14 January 2021 (has links) <p>The crossing of host barriers (intestinal, blood-brain, and placental) is a critical step for systemic infections caused by entero-invasive pathogens. In the intestine, the epithelial cells are the first line of defense against enteric pathogens. <i>Listeria monocytogenes</i> is a facultative-intracellular foodborne pathogen that first crosses the intestinal barrier to cause a systemic infection. However, the underlying mechanism is not well understood.</p><p><br></p> <p>We demonstrate that <i>Listeria</i> adhesion protein (LAP) promotes the translocation of <i>L. monocytogenes </i>across the intestinal barrier in mouse models (A/J and C57BL/6). Relative to the wild-type (WT; serotype 4b) or the isogenic bacterial invasion protein Internalin A mutant (Δ<i>inlA</i>) strain, the <i>lap<sup>─</sup></i> strain showed significant defect in translocation across the intestinal barrier and colonization of the mesenteric-lymph nodes, liver and spleen in the early phase of infection (24 h and 48 h). LAP induces intestinal epithelial barrier dysfunction for increased translocation as evidenced by increased permeability to 4-kDa FITC-dextran (FD4), a marker of paracellular permeability, in the serum and urine of WT and Δ<i>inlA</i>- infected mice and across Caco-2 cell barrier, but not the <i>lap<sup>─</sup></i> mutant strain. Microscopic examination confirmed localization of the WT and Δ<i>inlA</i> strains in the tight junction, a crucial barrier of intestinal paracellular permeability, in the mouse ileal tissue but the <i>lap<sup>─</sup></i> strain remained confined in the lumen. LAP also upregulates TNF-α and IL-6 in intestinal epithelia of mice and in Caco-2 cells for increased permeability. </p><p><br></p> <p>Investigation of the underlying molecular mechanisms of LAP-mediated increase in intestinal permeability by using <i>lap<sup>─</sup></i> mutant strain, purified LAP and shRNA-mediated Hsp60 suppression, we demonstrate that LAP interacts with its host receptor, Hsp60, and activates the canonical NF-κB signaling, which in turn facilitates myosin light-chain kinase (MLCK)-mediated opening of the epithelial barrier via the cellular redistribution of major epithelial junctional proteins claudin-1, occludin, and E-cadherin. Pharmacological inhibition of NF-κB or MLCK in cells or genetic ablation of MLCK in mice (C57BL/6) prevents mislocalization of epithelial junctional proteins, intestinal permeability and <i>L. monocytogenes</i> translocation across the intestinal barrier.</p> <p><br></p><p>Furthermore, LAP also promotes <i>L. monocytogenes </i>translocation across the intestinal barrier and systemic dissemination in a Mongolian gerbil that are permissive to the bacterial invasion proteins; InlA-and InlB-mediated pathways; similar to that in humans. We show a direct LAP-dependent and InlA-independent pathway<i> </i>for <i>L. monocytogenes</i> paracellular translocation across the intestinal epithelial cells that do not express luminally accessible E-cadherin. Additionally, we show a functional InlA/E-cadherin interaction pathway that aids <i>L. monocytogenes</i> translocation by targeting cells with luminally accessible E-cadherin such as cells at the site of epithelial cell extrusion, epithelial folds and mucus-expelling goblet cells. Thus, <i>L. monocytogenes</i> uses LAP to exploit epithelial innate defense in the early phase of infection to cross the intestinal epithelial barrier, independent of other invasion proteins.</p><p><br></p> <p>This work fills a critical gap in our understanding of <i>L. monocytogenes </i>pathogenesis and sheds light to the complex interplay between host-pathogen interactions for bacterial crossing of the crucial intestinal barrier.</p> <br> Microbiology Cell Biology Molecular Biology Immunology Infectious Diseases Host-Parasite Interactions Infectious Agents Listeria monocytogenes listeria adhesion protein (LAP) Internalin A(InlA) Nuclear factor κB (NF-κB) Intestinal epithelial barrier crossing Myosin Light Chain Kinase (MLCK) Foodborne infection Food safety Heat Shock Protein 60 (Hsp60) Gut barrier integrity M-cells

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