Age-dependent changes in insulin-like immunoreactivity in rat submandibular salivary glands.

In recent years, a growing interest had arisen in hormonal factors in salivary glands. We have investigated the changes in the content of an insulin-like immunoreactive (ILI) compound in the submandibular salivary glands of Sprague Dawley rats during physiological aging, in the range 15 days-27 months. The amount of ILI in the submandibular glands of young adult rats was found to be doubled in the post-natal period until the age of puberty and was maintained in senescence. No significant correlation was found between age-dependent variations in ILI levels of submandibular salivary glands and circulating insulin concentrations, further supporting previous indications that ILI is being synthesized in situ. It is possible that ILI could exert paracrine effects within the glands, as regards the development of other glandular structures during the first months of life, as well as the preservation of glandular function in senescent animals as well

Le facteur de croissance épidermique : un gardien potentiel de la santé oro-digestive

The integrity of oral and digestive mucosa depend on many salivary components like the Epidermal Growth Factor (EGF). Sometimes indicative, sometimes stimulated or modulated factor of oral and digestive health, EGF appears as a clinical marker in neoplastic and inflammatory diseases. As cellular growth factor, it protects the digestive mucosa with stimulation of mucus production and with inhibition of gastric secretion. Equally implicated in healing process, it enhances this one, and determines, in patients, more or less sensibility to inflammatory damages. Its strategic place in various pathologies, as stomach ulcer and tumoral process, open research prospects with a real potential of repair and pronostic.L'intégrité des muqueuses orales et digestives est sous la dépendance d'une multitude de facteurs et constituants salivaires, parmi lesquels, le facteur de croissance épidermique (EGF) tient une place particulière et controversée suivant le niveau de ses implications dans les processus physiopathologiques. Tantôt indicateur, tantôt stimulateur ou modulateur sur la santé orodigestive, l'EGF apparaît aussi comme marqueur clinique dans les affections inflammatoires et néoplasiques. En tant que facteur de croissance cellulaire, il serait un agent protecteur des muqueuses digestives par la stimulation de la synthèse de mucus et l'inhibition de la sécrétion gastrique. Impliqué également dans les processus de cicatrisation, dont il potentialise les capacités, l'EGF conditionnerait les sujets à une plus ou moins grande sensibilité aux agressions inflammatoires. Sa place stratégique, au carrefour des pathologies aussi diverses que l'ulcère gastrique et les processus tumoraux, ouvre des perspectives de recherche sur ses réelles capacités de réparateur ou de pronostic

Cellules souches dentaires : mythe ou espoir en médecine neurorégénératrice ?

International audienceThe use of dental stem cells has raised many hopes in the development of new treatments for neurodegenerative diseases. According to current statistics, about 1 in 6 people in the world would be affected by a neurological disease. This number continues to increase as the world's population ages, making neurodegenerative diseases probably the one of the major challenges of public health in the 21st century. Neurodegenerative diseases are characterized mainly by a progressive loss of cognitive abilities and patient autonomy related to loss and degeneration of neurons in brain structures. Unfortunately, today, the only treatments available for this type of disease do only relieve the symptoms, they do not treat them, and few clinical trials have been truly convincing to date. Hence, hope lies for these diseases in the development of other therapeutic approaches. As such, dental stem cells could be a promising area of research because of their rapid growth, their great capacity for differentiation into different types of cells (among neuronal ones for some of them) and how easy they can be obtained, without raising ethical issues as for example for embryonic stem cells.L’utilisation des cellules souches dentaires a fait naître de nombreux espoirs dans le développement de nouveaux traitements destinés aux maladies neurodégénératives. Si l’on se réfère aux statistiques actuelles, environ 1 personne sur 6 dans le monde serait atteinte par une maladie neurologique. Ce nombre ne cesse d’augmenter au fur et à mesure que la population mondiale vieillit, faisant des maladies neurodégénératives probablement l’un des principaux défis de la santé publique du XXIe siècle. Les maladies neurodégénératives se caractérisent principalement par une perte progressive des facultés cognitives et de l’autonomie des patients liée à une perte et une dégénérescence des neurones des structures cérébrales. Malheureusement, force est de constater que les seuls traitements disponibles actuellement pour ce type de pathologies ne font que soulager les symptômes et non les traiter et que peu d’essais cliniques à ce jour ont été véritablement probants. L’espoir réside donc pour ces maladies neurodégénératives dans le développement de nouvelles approches thérapeutiques. Les cellules souches dentaires pourraient constituer une nouvelle voie de recherche en thérapie cellulaire, de par leur croissance rapide, leur grande capacité de différenciation en différents types cellulaires (y compris en cellules neuronales pour certaines) et la facilité avec laquelle elles peuvent être obtenues sans soulever de problèmes d’éthique comme par exemple pour les cellules souches embryonnaires

Complejidad del proteoma de la saliva humana

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Influence of a major exposure surface on the development of microporous micritic limestones - Example of the Upper Mishrif Formation (Cenomanian) of the Middle East.

18 pagesInternational audienceMicroporous platform top limestones of the Cenomanian Mishrif Formation (offshore Qatar) were studied in order to investigate the diagenetic processes associated with the top-Mishrif subaerial unconformity and its influence on the development of microporosity in underlying carbonates. Petrographical and stable isotope results indicate that complex diagenetic changes occurred during subaerial exposure of the Mishrif Formation, including pervasive dissolution and meteoric cementation, as well as neomorphism of the micritic matrix. Micrites at the top of the Mishrif Formation are coarse (i.e. > 2 μm), sub-rounded and very dull luminescent under cathodoluminescence. In this uppermost part of the studied interval, the limestone matrix first underwent dissolution of unstable grains in the vadose zone, with subsequent precipitation of low-magnesium calcite (LMC) overgrowths within an oxidising phreatic setting. This process explains the poor luminescence of the micrite crystals and their relatively coarse crystallometry which results in the present day in relatively good reservoir properties. δ13C ratios within the microporous limestones are negative (up to − 4‰ V-PDB) due to the incorporation of isotopically light carbon derived from palaeosols which developed during exposure. By contrast, fine (i.e. < 2 μm), polyhedral and bright luminescent micritic matrix with higher δ13C values (up to + 4‰ V-PDB) and lower permeability are dominant within the underlying carbonate interval. These fine micrites are likely to be the product of early neomorphic recrystallisation in the lowermost part of the palaeo-aquifer associated with the Top-Mishrif Unconformity, and were precipitated from meteoric or mixed dysoxic waters which were slightly supersaturated with respect to calcite

Salivary protein profiling in type 1 diabetes using proteomic tools

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Porous silicon scaffolds for stem cells growth and osteodifferentiation.

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Salivary protein profiling in type 1 diabetes using proteomic tools

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