One- to two-electron reduction of an [FeFe]-hydrogenase active site mimic: the critical role of fluxionality of the [2Fe2S] core.

The one- to two-electron reduction of mu-(1,2-ethanedithiolato)diironhexacarbonyl that has been observed under electrochemical conditions is dependent on scan rate and temperature, suggesting activation of a structural rearrangement. This structural rearrangement is attributed to fluxionality of the [2Fe2S] core in the initially formed anion. Computations support this assessment. Upon an initial one-electron reduction, the inherent fluxionality of the [2Fe2S] complex anion allows for a second one-electron reduction at a less negative potential to form a dianionic species. The structure of this dianion is characterized by a rotated iron center, a bridging carbonyl ligand, and, most significantly, a dissociated Fe-S bond. This fluxionality of the [2Fe2S] core upon reduction has direct implications for the chemistry of [FeFe]-hydrogenase mimics and for iron-sulfur cluster chemistry in general.

Effect of periodontitis on insulin resistance and the onset of type 2 diabetes mellitus in Zucker diabetic fatty rats.

BACKGROUND: Studies indicate that an association exists between periodontitis and type 2 diabetes mellitus (T2DM) and/or obesity, with chronic inflammation hypothesized as the common denominator. The purpose of this study was to determine the causal effect of periodontitis and the concomitant impact of diet on the onset of insulin resistance (IR) and T2DM using a rat model system that simulates human obesity and T2DM. METHODS: Twenty-eight, 5-week-old female Zucker diabetic fatty (ZDF, fa/fa) rats were divided into four groups of seven animals: high-fat fed-periodontitis (HF/P), high-fat fed-no periodontitis (HF/C), low-fat fed-periodontitis (LF/P), and low-fat fed-no periodontitis (LF/C). Periodontitis was induced by ligature placement. Fasting plasma insulin and glucose levels were measured, and glucose tolerance tests were performed to assess glucose homeostasis, IR, and the onset of T2DM. The level of tumor necrosis factor-alpha (TNF-alpha), leptin, triglycerides, and free fatty acids were determined in week 13 at sacrifice. RESULTS: HF/P rats developed more severe IR compared to HF/C rats (P <0.01) and LF/P or LF/C rats (P <0.001) as measured by fasting insulin levels and homeostasis model assessment analysis. The onset of severe IR occurred approximately 3 weeks earlier in HF/P rats compared to HF/C rats. HF/P rats developed impaired (110 to 125 mg/dl) and frank fasting hyperglycemia (>125 mg/dl) 2 weeks earlier than HF/C rats. There was no difference in the severity and onset of IR and T2DM between LF/P and LF/C rats. The level of TNF-alpha was significantly higher in HF/P rats compared to HF/C rats (P <0.01). CONCLUSION: Periodontitis accelerated the onset of severe IR and impaired glucose homeostasis in high-fat fed ZDF rats.

Hydrogen generation from weak acids: electrochemical and computational studies of a diiron hydrogenase mimic.

Extended investigation of electrocatalytic generation of dihydrogen using [(mu-1,2-benzenedithiolato)][Fe(CO)3]2 has revealed that weak acids, such as acetic acid, can be used. The catalytic reduction producing dihydrogen occurs at approximately -2 V for several carboxylic acids and phenols resulting in overpotentials of only -0.44 to -0.71 V depending on the weak acid used. This unusual catalytic reduction occurs at a potential at which the starting material, in the absence of a proton source, does not show a reduction peak. The mechanism for this process and structures for the intermediates have been discerned by electrochemical and computational analysis. These studies reveal that the catalyst is the monoanion of the starting material and an ECEC mechanism occurs.

Histochemical examination of periodontal junctional epithelium in p21/p27 double knockout mice.

The periodontal junctional epithelium (JE) is maintained in a steady state through a dynamic process that balances proliferation and exfoliation of epithelial cells. However, mechanisms that regulate JE are not well understood. To better understand how proliferation of the JE is controlled in healthy gingiva, we have studied functional roles of the CDK (cyclin dependent kinase) inhibitors p21 and p27 in JE using knockout mouse model systems. Image analysis of the dentogingival junction in p21 or p27 single knockout mice as well as p21/p27 double knockout mice (dKO) was performed. The analysis revealed enlarged JE in p21/p27 dKO mice due to an increase in the area of the epithelium and associated connective tissue 'islands'. Immunohistochemistry was performed for p21, p27, cyclin D1, and proliferating cell nuclear antigen (PCNA). The highest levels of PCNA-positive cells were detected in the p21/p27 dKO mice, reflecting increased cell turnover. Lower levels of cyclin D1 were detected in the JE of p21/p27 knockout mice, suggesting that p21 and p27 regulate stability of cyclin D1 in oral epithelium. These data suggest that p21 and p27 have a critical role in controlling epithelial cell proliferation in the JE and thus function to maintain the JE at a normal size.