The mRNA findings were confirmed at the enzyme activity level by

The mRNA findings were confirmed at the enzyme activity level by measuring the glucuronidation of 1-naphthol, a

very good substrate for UGT1A6, as well as estradiol that is not glucuronidated by this enzyme. The results revealed that 1-naphthol glucuronidation activity was high in both the differentiated and undifferentiated cells, whereas estradiol glucuronidation was only detected in the differentiated cells. Thus, Caco-2 cell differentiation plays a major role in UGT expression and ensuing metabolic reactions.”
“Osteoarticular complications are common in human brucellosis, but the pathogenic mechanisms involved are largely unknown. In this manuscript, we described an immune mechanism for inflammatory bone loss in response to infection by Brucella abortus. We established a requirement for MyD88 and TLR2 in TNF-alpha-elicited osteoclastogenesis in response to B. abortus infection. CS from macrophages infected JPH203 ic50 with B. abortus induced BMM to Belnacasan nmr undergo osteoclastogenesis. Although B. abortus-infected macrophages actively secreted IL-1 beta, IL-6, and TNF-alpha, osteoclastogenesis depended on TNF-alpha, as CS from B. abortus-infected macrophages failed to induce osteoclastogenesis in BMM from TNFRp55(-/-) mice. CS from B. abortus-stimulated

MyD88(-/-) and TLR2(-/-) macrophages failed to express TNF-alpha, and these CS induced no osteoclast formation compared with that of the WT or TLR4(-/-) macrophages. Omp19, a B. abortus lipoprotein model, recapitulated the cytokine production and subsequent osteoclastogenesis induced by the whole bacterium. All phenomena were corroborated using Selleckchem GSK690693 human monocytes, indicating that this mechanism could play a role in human osteoarticular brucellosis. Our results indicate that B. abortus, through its lipoproteins, may be involved

in bone resorption through the pathological induction of osteoclastogenesis. J. Leukoc. Biol. 91: 285-298; 2012.”
“The late-phase of long-term potentiation (L-LTP), the cellular correlate of long-term memory, induced at some synapses facilitates L-LTP expression at other synapses receiving stimulation too weak to induce L-LTP by itself. Using glutamate uncaging and two-photon imaging, we demonstrate that the efficacy of this facilitation decreases with increasing time between stimulations, increasing distance between stimulated spines and with the spines being on different 4 dendritic branches. Paradoxically, stimulated spines compete for L-LTP expression if stimulated too closely together in time. Furthermore, the facilitation is temporally bidirectional but asymmetric. Additionally, L-LTP formation is itself biased toward occurring on spines within a branch. These data support the Clustered Plasticity Hypothesis, which states that such spatial and temporal limits lead to stable engram formation, preferentially at synapses clustered within dendritic branches rather than dispersed throughout the dendritic arbor.

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