Desmosomal and cytoskeletal protein interactions required for cell adhesion in human keratinocytes /

Smith, Elizabeth Anne.

January 1999

Thesis (Ph. D.)--University of Chicago, Dept. of Biochemistry and Molecular Biology, June 1999. / Includes bibliographical references. Also available on the Internet.

Evaluation of the utility of probiotics for the prevention of infections in a model of the skin

Prince, Tessa

January 2012

Probiotics have been defined as “live microorganisms which when administered in adequate amounts confer a health benefit on the host”. The beneficial effects of probiotics in the gut are well described and roles including immunomodulation and colonisation resistance have been documented. Recent reports suggest that topical use of probiotic bacteria may be an effective strategy to promote skin health or inhibit disease. Therefore, in this thesis the potential of probiotics to protect skin from pathogenic bacteria was assessed using primary keratinocytes as a model system, and the skin pathogen, Staphylococcus aureus. The ability of three probiotics, L. reuteri ATCC 55730, L. rhamnosus AC413 and L. salivarius UCC118 to inhibit the growth of S. aureus was tested using well-diffusion assays and spot on the lawn assays. All three probiotics inhibited the growth of S. aureus in well-diffusion assays, though this property was dependent on growth medium. Inhibition of S. aureus growth was principally via the production of organic acids rather than bacteriocin production. Next, to determine whether probiotics could protect keratinocytes, confluent normal human epidermal keratinocytes (NHEK) were infected with S. aureus (106 CFU/ml) in the presence or absence of the probiotic (108 CFU/ml). NHEK viability was measured using trypan blue exclusion assays. L. reuteri had a significant protective effect on NHEK when applied 1h prior to (P=0.0003), or simultaneously with S. aureus (P=0.002). L. reuteri did not however protect NHEK when applied 1h after S. aureus addition. There was no change in the number of viable S. aureus in cell culture assays. To determine whether the protective effect was due to the inhibition of adhesion, NHEK were either pre-exposed to the probiotic for 1h, simultaneously exposed to the probiotic and S. aureus for 1h, or exposed to the probiotic 30 minutes after S. aureus addition for 1h. Pre-exposure of NHEK to L. reuteri (exclusion) and simultaneous exposure to L. reuteri and S. aureus (competition) resulted in significantly less staphylococci adhering to NHEK (P=0.03 and P=0.008 respectively). However when L. reuteri was added after S. aureus (displacement), the number of adherent staphylococci was not reduced. The necessity of S. aureus adherence for the inactivation of NHEK was demonstrated using a α5β1 integrin blocking antibody. Finally, to compare the innate response of NHEK to probiotics with S. capitis and S. aureus, TLR-2, antimicrobial peptide (AMP) expression and IL-8 production were measured. TLR-2 protein (but not mRNA) expression was reduced in the presence of S. aureus (P=0.018). NHEK pre-exposed to S. capitis prior to S. aureus infection however, exhibited elevated TLR-2 protein and mRNA expression (P<0.0001 and P=0.009 respectively). NHEK pre-exposed to L. reuteri prior to S. aureus had no significant change in TLR-2 expression compared to untreated controls. ELISAs demonstrated that IL-8 production was significantly increased in NHEK pre-exposed to L. reuteri prior to S. aureus infection (P=0.0001). In conclusion, L. reuteri protected NHEK from the toxic effects of S. aureus at least partly through competitive exclusion of binding sites on NHEK. Finally, NHEK innate responses to probiotic bacteria were akin to those to the skin commensal, S. capitis. L. reuteri induced expression of a neutrophil chemoattractant, suggesting it could be of importance in priming the innate immune response against S. aureus infections. Taken together, these results suggest that probiotic bacteria could be used prophylactically within skin creams and soaps to prevent S. aureus colonisation and infection in skin.

616.9

Développement d’un modèle d’étude du vieillissement tissulaire basé sur l’utilisation de cellules souches à pluripotence induite par reprogrammation cellulaire. / Development of a model for studying the tissue aging based on the use of stem cells induced pluripotent cell reprogramming.

Ait-Hamou, Nafissa

13 January 2016

En dehors du cadre pathologique, la notion de temps est la base essentielle dans le processus de vieillissement de l’organisme et des systèmes associés. Ces derniers vont progressivement présenter un déclin de leur(s) fonction(s) où de nombreux mécanismes complexes vont intervenir à différents niveaux. Parmi les premiers constats proposés, le vieillissement est la conséquence d’un processus inéluctable, d’une succession d’agressions au niveau cellulaires qui pourraient être réparées voire évitées, ouvrant ainsi la voie à de futures études qui permettront à terme de proposer une explication détaillée, complète et claire de ce processus. Pour exemple, les travaux que nous avons menés tentent d’apporter un élément de réponse afin d’établir un lien entre sénescence et vieillissement, avec pour base de générer par reprogrammation cellulaire des cellules hiPSCs à partir de cellules issues de biopsies de patients jeunes et âgées, sénescentes ou prolifératives. Outre la caractérisation de leur état pluripotent comparable à celui des cellules souches embryonnaires, nous avons également mis en évidence après une différenciation spécifique en fibroblastes, que les caractéristiques cellulaires de ces fibroblastes présentaient un effacement des marques du vieillissement, signe d’une plasticité cellulaire possible au cours du vieillissement. A présent, étendre une telle étude au modèle tissulaire cutané par la mise en place de protocoles de différenciation dans le lignage épidermique permettra à l’avenir de mieux comprendre pour mieux appréhender les pathologiques associées au vieillissement, et ainsi pouvoir offrir aux patients une médecine appropriée et concrète. / Beside the pathological context, time is the essential basis in the aging process of the body and associated systems. These will gradually introduce a decline in function(s) where many complex mechanisms will take part at different levels. Among proposed findings, aging is the result of an inevitable process, a succession of cellular stress that could be prevented or repaired, opening the way for future studies that will eventually offer an explanation detailed, clear and complete which occur. For example, our work provide a response element to establish a link between senescence and aging, based on the generation of hiPSCs by cellular reprogramming of cells from biopsies of young, older, senescent and proliferating cells patients. Further characterization of their pluripotent state comparable to that of human embryonic stem cells, we have also showed by a specific differentiation into fibroblasts, that cellular characteristics of those fibroblasts had erased aging features. Next step, is to extend such study in cutaneous tissue model by the introduction of differentiation protocols in the epidermal lineage which will able us to better understand aging-associated diseases, and thus bring the ability to propose an appropriate and cocnrete medicine to aged patients.

Vieillissement

Sénescence

Cellules souches pluripotentes

Reprogrammation cellulaire

Différenciation

Kératinocytes/peau

Aging

Senescence

Pluripotent stem cells

Cellular reprogramming

Differentiation

Keratinocytes/skin