Ultrafast diffusion of a fluorescent cholesterol analog in compartmentalized plasma membranes.

Cholesterol distribution and dynamics in the plasma membrane (PM) are poorly understood. The recent development of Bodipy488-conjugated cholesterol molecule (Bdp-Chol) allowed us to study cholesterol behavior in the PM, using single fluorescent-molecule imaging. Surprisingly, in the intact PM, Bdp-Chol diffused at the fastest rate ever found for any molecules in the PM, with a median diffusion coefficient (D) of 3.4 µm²/second, which was ∼10 times greater than that of non-raft phospholipid molecules (0.33 µm²/second), despite Bdp-Chol's probable association with raft domains. Furthermore, Bdp-Chol exhibited no sign of entrapment in time scales longer than 0.5 milliseconds. In the blebbed PM, where actin filaments were largely depleted, Bdp-Chol and Cy3-conjugated dioleoylphosphatidylethanolamine (Cy3-DOPE) diffused at comparable Ds (medians = 5.8 and 6.2 µm²/second, respectively), indicating that the actin-based membrane skeleton reduces the D of Bdp-Chol only by a factor of ∼2 from that in the blebbed PM, whereas it reduces the D of Cy3-DOPE by a factor of ∼20. These results are consistent with the previously proposed model, in which the PM is compartmentalized by the actin-based membrane-skeleton fence and its associated transmembrane picket proteins for the macroscopic diffusion of all of the membrane molecules, and suggest that the probability of Bdp-Chol passing through the compartment boundaries, once it enters the boundary, is ∼10× greater than that of Cy3-DOPE. Since the compartment sizes are greater than those of the putative raft domains, we conclude that raft domains coexist with membrane-skeleton-induced compartments and are contained within them.

Cystine improves survival rates in a LPS-induced sepsis mouse model.

BACKGROUND & AIMS: The control of inflammation is important for suppressing severe sepsis. Oral administration of cystine and theanine have been shown to suppress inflammatory responses due to invasion. Furthermore, the uptake of cystine into monocytes is promoted by exposure to lipopolysaccharide (LPS). In the present study, the effects of cystine were examined in the context of inflammatory responses. METHODS: Cystine was orally administered to mice, and the levels of interleukin (IL)-6 in the blood and spleen and the survival rates were calculated after the administration of LPS. The effects of cystine as well as neutralising anti-IL-10 antibodies on the LPS-induced production of IL-6 and IL-10 were examined in a monocyte cell line. RESULTS: The oral administration of cystine reduced IL-6 levels in the blood and spleen after LPS stimulation and improved survival rates. The addition of cystine to monocytes suppressed LPS-induced IL-6 production but enhanced IL-10 production. A neutralising anti-IL-10 antibody eliminated the inhibitory effects of cystine on the LPS-induced production of IL-6. CONCLUSIONS: The oral administration of cystine suppressed IL-6 production following LPS stimulation and improved survival rates in mice with LPS-induced sepsis. The enhanced production of IL-10 by monocytes may be involved in this anti-inflammatory response.

Enhancement of postoperative recovery by preoperative oral co-administration of the amino acids, cystine and theanine, in a mouse surgical model.

BACKGROUND & AIMS: Glutathione (GSH) is important in the control of immune responses, and its levels decline following trauma. We previously reported that the oral administration of cystine/theanine (CT) increased GSH synthesis and that CT intake inhibited intense exercise-induced inflammation. Based on these results, we hypothesised that CT inhibits surgically induced inflammation and promotes postoperative recovery. Our aim was to confirm this hypothesis using a mouse surgical model. METHODS: CT or a vehicle (V) was administered orally to mice once a day for 5 days, until the day of surgery. On the day of surgery, a sham operation or an intestinal manipulation was performed 2 h after the oral administration of CT or V. Levels of IL-6 in the blood and GSH in the intestine were analysed 2 h after surgery. Behavioural analysis was also undertaken after surgery. RESULTS: Treatment with CT inhibited the manipulation-induced increase in IL-6 in the blood and decrease in GSH in the intestine. There was a significant negative correlation between IL-6 in the blood and GSH in the intestine. In addition, behavioural analysis revealed that CT administration improved locomotor activity and food intake after surgery. CONCLUSION: These results suggest that CT suppresses inflammatory responses by inhibiting the surgically induced decrease in GSH in the small intestine and promotes postoperative recovery.