We conclude that H(2)S can induce apoptosis in human keratinocyte stem cells, a key component of the epithelial barrier, following DNA damage and p53 activation.
The objective of this study is to standardize protocols for clinical research into oral malodor caused by volatile sulfur compounds (VSCs). To detect VSCs, a gas chromatograph (GC) using a flame photometric detector equipped with a bandpass filter (at 393 nm) is the gold standard (sensitivity: 5 × 10(-11) gS s(-1)). The baselines of VSC concentrations in mouth air varied considerably over a week. When the subjects refrained from eating, drinking and oral hygiene including mouth rinsing, the VSC concentrations remained constant until eating. Over a 6 h period after a meal, VSC concentrations decreased dramatically (p < 0.01). These results point to optimal times and conditions for sampling subjects. Several portable devices were compared with the measurements by the GCs. Portable GCs demonstrated capabilities similar to those of the GCs. We also applied the recommended protocols described below to clinical research testing the efficacy of ZnCl(2) products, and confirmed that using the recommended protocols in a randomized crossover design would provide very clear results. Proposed protocols include: (a) a short-term study rather than a long-term study is strongly recommended, since the VSC concentrations are constant in the short term; (b) a crossover study would be the best design to avoid the effects of individual specificities on each clinical intervention; (c) measurements of VSCs should preferably be carried out using either a GC or portable GCs.
Squamous cells carcinoma (SCC) is the second most frequent of the keratinocyte-derived malignancies after basal cell carcinoma and is associated with a significant psychosocial and economic burden for both the patient himself and society. Reported risk factors for the malignant transformation of keratinocytes and development of SCC include ultraviolet light exposure, followed by chronic scarring and inflammation, exposure to chemical compounds (arsenic, insecticides, and pesticides), and immune-suppression. Despite various available treatment methods and recent advances in noninvasive or minimal invasive diagnostic techniques, the risk recurrence and metastasis are far from being negligible, even in patients with negative histological margins and lymph nodes. Analyzing normal, dysplastic, and malignant keratinocyte proteome holds special promise for novel biomarker discovery in SCC that could be used in the future for early detection, risk assessment, tumor monitoring, and development of targeted therapeutic strategies.
Abstract:There is a growing interest in the development of organic nanomaterials for biomedical applications. An increasing number of studies focus on the uses of nanomaterials with organic structure for regeneration of bone, cartilage, skin or dental tissues. Solid evidence has been found for several advantages of using natural or synthetic organic nanostructures in a wide variety of dental fields, from implantology, endodontics, and periodontics, to regenerative dentistry and wound healing. Most of the research is concentrated on nanoforms of chitosan, silk fibroin, synthetic polymers or their combinations, but new nanocomposites are constantly being developed. The present work reviews in detail current research on organic nanoparticles and their potential applications in the dental field.
Oral keratinocyte stem cells reside in the basal layers of the oral epithelium, representing a minor population of cells with a great potential to self-renew and proliferate over the course of their lifetime. As a result of the potential uses of oral keratinocyte stem cells in regenerative medicine and the key roles they play in tissue homeostasis, inflammatory conditions, wound healing and tumor initiation and progression, intense scientific efforts are currently being undertaken to identify, separate and reprogram these cells. Although currently there is no specific marker that can characterize and isolate oral keratinocyte stem cells, several suggestions have been made. Thus, different stem/progenitor-cell subpopulations have been categorized based on combinations of positive and/or negative membrane-surface markers, which include integrins, clusters of differentiation and cytokeratins. Important advances have also been made in understanding the molecular pathways that govern processes such as self-renewal, differentiation, proliferation, wound healing and programmed cell death. A thorough understanding of stem-cell biology and the molecular players that govern cellular fate is paramount in the quest for using stem-cell-derived therapies in the treatment of various oral pathologies. The current review focuses on recent advances in understanding the molecular signaling pathways coordinating the behavior of these cells and in identifying suitable markers used for their isolation and characterization. Special emphasis will also be placed on the roles played by oral keratinocyte stem and progenitor cells in normal and diseased oral tissues and on their potential uses in the fields of general medicine and dentistry.
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