Pages that link to "Q36121769"

The following pages link to Human epithelial cells establish direct antifungal defense through TLR4-mediated signaling (Q36121769):

Displaying 50 items.

• Candida albicans interactions with epithelial cells and mucosal immunity (Q24635287) (← links)
• State-of-the-art of 3D cultures (organs-on-a-chip) in safety testing and pathophysiology (Q26852097) (← links)
• Targeting toll-like receptors: promising therapeutic strategies for the management of sepsis-associated pathology and infectious diseases (Q27010345) (← links)
• Candida albicans pathogenicity and epithelial immunity (Q27026059) (← links)
• Blood platelets in the progression of Alzheimer's disease (Q27318080) (← links)
• The evolutionary history of TLR4 polymorphisms in Europe (Q28249601) (← links)
• Evaluation of the role of Candida albicans agglutinin-like sequence (Als) proteins in human oral epithelial cell interactions (Q28731372) (← links)
• A peptide derived from the highly conserved protein GAPDH is involved in tissue protection by different antifungal strategies and epithelial immunomodulation (Q29871450) (← links)
• Mucosal candidiasis elicits NF-κB activation, proinflammatory gene expression and localized neutrophilia in zebrafish (Q30543923) (← links)
• The expression of the beta-defensins hBD-2 and hBD-3 is differentially regulated by NF-kappaB and MAPK/AP-1 pathways in an in vitro model of Candida esophagitis (Q33467053) (← links)
• CXCR1 and SLC11A1 polymorphisms affect susceptibility to cutaneous leishmaniasis in Brazil: a case-control and family-based study (Q33525373) (← links)
• Chitin modulates innate immune responses of keratinocytes (Q33839502) (← links)
• Candida albicans yeast and hyphae are discriminated by MAPK signaling in vaginal epithelial cells. (Q34075437) (← links)
• A biphasic innate immune MAPK response discriminates between the yeast and hyphal forms of Candida albicans in epithelial cells. (Q34346630) (← links)
• Glycosylation of Candida albicans cell wall proteins is critical for induction of innate immune responses and apoptosis of epithelial cells. (Q34505465) (← links)
• Mucosal immunity and Candida albicans infection (Q35109998) (← links)
• Epithelial Cell Innate Response to Candida albicans (Q35129083) (← links)
• Modeling mucosal candidiasis in larval zebrafish by swimbladder injection. (Q35161609) (← links)
• Animal models of mucosal Candida infection (Q35629652) (← links)
• Activation of MAPK/c-Fos induced responses in oral epithelial cells is specific to Candida albicans and Candida dubliniensis hyphae (Q35670303) (← links)
• IL-17 signaling in host defense against Candida albicans (Q35671394) (← links)
• Epithelial cells and innate antifungal defense. (Q35866679) (← links)
• Candida albicans-epithelial interactions and pathogenicity mechanisms: scratching the surface. (Q36147122) (← links)
• The role of pattern recognition receptors in the innate recognition of Candida albicans (Q36147431) (← links)
• New approaches in the development of a vaccine for mucosal candidiasis: progress and challenges (Q36158337) (← links)
• Oropharyngeal Candidiasis: Fungal Invasion and Epithelial Cell Responses. (Q36247812) (← links)
• Immunological aspects of Candida and Aspergillus systemic fungal infections (Q36587261) (← links)
• Th17 cells and IL-17 receptor signaling are essential for mucosal host defense against oral candidiasis (Q37106755) (← links)
• Candida albicans triggers the expression of inflammatory genes in human umbilical vein endothelial cells (Q37204620) (← links)
• Innate immune cell response upon Candida albicans infection (Q37262877) (← links)
• Clotrimazole dampens vaginal inflammation and neutrophil infiltration in response to Candida albicans infection (Q37263727) (← links)
• Immune defence mechanisms and immunoenhancement strategies in oropharyngeal candidiasis (Q37267375) (← links)
• Quantitative expression of the Candida albicans secreted aspartyl proteinase gene family in human oral and vaginal candidiasis (Q37294287) (← links)
• Vaginal epithelial cell-derived S100 alarmins induced by Candida albicans via pattern recognition receptor interactions are sufficient but not necessary for the acute neutrophil response during experimental vaginal candidiasis (Q37546318) (← links)
• Interactions of Candida albicans with epithelial cells (Q37634125) (← links)
• Role of TLR1, TLR2 and TLR6 in the modulation of intestinal inflammation and Candida albicans elimination (Q37642952) (← links)
• Novel strategies for the prevention and treatment of Candida infections: the potential of immunotherapy (Q37763270) (← links)
• Fungal Biofilms: Relevance in the Setting of Human Disease (Q37887512) (← links)
• Candida albicans morphogenesis and host defence: discriminating invasion from colonization. (Q37967076) (← links)
• Interplay between Candida albicans and the mammalian innate host defense. (Q37976620) (← links)
• Fungal pathogens-a sweet and sour treat for toll-like receptors (Q38063202) (← links)
• Genetic basis for recurrent vulvo-vaginal candidiasis (Q38077131) (← links)
• Interplay between Candida albicans and the antimicrobial peptide armory. (Q38222087) (← links)
• Immune defence against Candida fungal infections (Q38590007) (← links)
• Interaction of Candida albicans with host cells: virulence factors, host defense, escape strategies, and the microbiota (Q38752373) (← links)
• Protection against epithelial damage during Candida albicans infection is mediated by PI3K/Akt and mammalian target of rapamycin signaling (Q39041544) (← links)
• Interaction of Candida Species with the Skin (Q39356977) (← links)
• Synthetic antimicrobial and LPS-neutralising peptides suppress inflammatory and immune responses in skin cells and promote keratinocyte migration (Q39503515) (← links)
• Immune Cell-Supplemented Human Skin Model for Studying Fungal Infections. (Q40454791) (← links)
• Dermatophytes activate skin keratinocytes via mitogen-activated protein kinase signaling and induce immune responses (Q41492905) (← links)