Thalamus is the central communication hub of the forebrain, providing cerebral cortex with inputs from sensory organs, subcortical systems, and cortex itself. Multiple thalamic regions send convergent information to each cortical region, but the organizational logic of thalamic projections has remained elusive. Through comprehensive transcriptional analyses of retrogradely labeled thalamic neurons in adult mice, we identify three major profiles of thalamic pathway. These profiles exist along a continuum that is repeated across all major projection systems, such as those for vision, motor control, and cognition. The largest component of gene expression variation in mouse thalamus is topographically organized with features conserved in humans. Transcriptional differences between these thalamic neuronal identities are tied to cellular features critical for function, such as axonal morphology and membrane properties. Molecular profiling therefore reveals covariation in properties of thalamic pathways serving all major input modalities and output targets, establishing a molecular framework for understanding thalamus. Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:
We sought to compare frequency and duration of hepatic encephalopathy-related hospitalizations during rifaximin versus lactulose treatment. Hospitalizations, clinical efficacy data, and adverse events obtained from charts of 145 patients with hepatic encephalopathy who received lactulose (30 cc twice daily) for > or = 6 months and then rifaximin (400 mg 3 times a day) for > or = 6 months compared last 6 months on lactulose (lactulose period) to first 6 months on rifaximin (rifaximin period). Fewer hospitalizations (0.5 versus 1.6; P < .001), fewer days hospitalized (2.5 versus 7.3; P < .001), fewer total weeks hospitalized (0.4 versus 1.8; P < .001), and lower hospitalization charges per patient ($14,222 versus $56,635) were reported during the rifaximin period. More patients had asterixis, diarrhea, flatulence, and abdominal pain during the lactulose period (P < .001). Treatment of hepatic encephalopathy with rifaximin was associated with lower hospitalization frequency and duration, lower hospital charges, better clinical status, and fewer adverse events.
The developmental biology of dendritic cells (DC) under physiological conditions remains unclear. In this study, we show that mouse CD11c+ MHC class II−lineage− cells are immediate precursors of conventional DC and are widely distributed in both bone marrow and lymphoid tissues. These precursors have a high clonal efficiency, and when cocultured on a supportive stromal monolayer or adoptively transferred in vivo, generate a population CD11c+MHC class II+ DC that retain limited proliferation capacity. During steady state conditions, a small proportion of immediate DC precursors (DCp) and DCs are dividing actively in bone marrow and spleen. Cytokines that initiate and support proliferation of immediate DCp were defined. Collectively, our findings provide evidence of a distinct development pathway for conventional DC in both bone marrow and lymphoid tissues and highlight the importance of in situ replication of immediate DCp and DC in maintaining conventional DC populations.
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