Abnormally High Levels of Virus-Infected IFN-γ+CCR4+CD4+CD25+ T Cells in a Retrovirus-Associated Neuroinflammatory Disorder

Background

Human T-lymphotropic virus type 1 (HTLV-1) is a human retrovirus associated with both HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP), which is a chronic neuroinflammatory disease, and adult T-cell leukemia (ATL). The pathogenesis of HAM/TSP is known to be as follows: HTLV-1-infected T cells trigger a hyperimmune response leading to neuroinflammation. However, the HTLV-1-infected T cell subset that plays a major role in the accelerated immune response has not yet been identified.

Principal Findings

Here, we demonstrate that CD4⁺CD25⁺CCR4⁺ T cells are the predominant viral reservoir, and their levels are increased in HAM/TSP patients. While CCR4 is known to be selectively expressed on T helper type 2 (Th2), Th17, and regulatory T (Treg) cells in healthy individuals, we demonstrate that IFN-γ production is extraordinarily increased and IL-4, IL-10, IL-17, and Foxp3 expression is decreased in the CD4⁺CD25⁺CCR4⁺ T cells of HAM/TSP patients as compared to those in healthy individuals, and the alteration in function is specific to this cell subtype. Notably, the frequency of IFN-γ-producing CD4⁺CD25⁺CCR4⁺Foxp3⁻ T cells is dramatically increased in HAM/TSP patients, and this was found to be correlated with disease activity and severity.

Conclusions

We have defined a unique T cell subset—IFN-γ⁺CCR4⁺CD4⁺CD25⁺ T cells—that is abnormally increased and functionally altered in this retrovirus-associated inflammatory disorder of the central nervous system.     

Ketogenic Essential Amino Acids Modulate Lipid Synthetic Pathways and Prevent Hepatic Steatosis in Mice

Background

Although dietary ketogenic essential amino acid (KAA) content modifies accumulation of hepatic lipids, the molecular interactions between KAAs and lipid metabolism are yet to be fully elucidated.

Methodology/Principal Findings

We designed a diet with a high ratio (E/N) of essential amino acids (EAAs) to non-EAAs by partially replacing dietary protein with 5 major free KAAs (Leu, Ile, Val, Lys and Thr) without altering carbohydrate and fat content. This high-KAA diet was assessed for its preventive effects on diet-induced hepatic steatosis and whole-animal insulin resistance. C57B6 mice were fed with a high-fat diet, and hyperinsulinemic ob/ob mice were fed with a high-fat or high-sucrose diet. The high-KAA diet improved hepatic steatosis with decreased de novo lipogensis (DNL) fluxes as well as reduced expressions of lipogenic genes. In C57B6 mice, the high-KAA diet lowered postprandial insulin secretion and improved glucose tolerance, in association with restored expression of muscle insulin signaling proteins repressed by the high-fat diet. Lipotoxic metabolites and their synthetic fluxes were also evaluated with reference to insulin resistance. The high-KAA diet lowered muscle and liver ceramides, both by reducing dietary lipid incorporation into muscular ceramides and preventing incorporation of DNL-derived fatty acids into hepatic ceramides.

Conclusion

Our results indicate that dietary KAA intake improves hepatic steatosis and insulin resistance by modulating lipid synthetic pathways.     

Conversion of vitamin D3 to 1alpha,25-dihydroxyvitamin D3 by Streptomyces griseolus cytochrome P450SU-1

Streptomyces griseolus cytochrome P450SU-1 (CYP105A1) was expressed in Escherichia coli at a level of 1.0 micromol/L culture and purified with a specific content of 18.0 nmol/mg protein. Enzymatic studies revealed that CYP105A1 had 25-hydroxylation activity towards vitamin D2 and vitamin D3. Surprisingly, CYP105A1 also showed 1alpha-hydroxylation activity towards 25(OH)D3. As mammalian mitochondrial CYP27A1 catalyzes a similar two-step hydroxylation towards vitamin D3, the enzymatic properties of CYP105A1 were compared with those of human CYP27A1. The major metabolite of vitamin D2 by CYP105A1 was 25(OH)D2, while the major metabolites by CYP27A1 were both 24(OH)D2 and 27(OH)D2. These results suggest that CYP105A1 recognizes both vitamin D2 and vitamin D3 in a similar manner, while CYP27A1 does not. The Km values of CYP105A1 for vitamin D2 25-hydroxylation, vitamin D3 25-hydroxylation, and 25-hydroxyvitamin D3 1alpha-hydroxylation were 0.59, 0.54, and 0.91 microM, respectively, suggesting a high affinity of CYP105A1 for these substrates.     

Organization of the biosynthetic gene cluster for the polyketide macrolide mycinamicin in Micromonospora griseorubida

Mycinamicin, composed of a branched lactone and two sugars, desosamine and mycinose, at the C-5 and C-21 positions, is a 16-membered macrolide antibiotic produced by Micromonospora griseorubida A11725, which shows strong antimicrobial activity against Gram-positive bacteria. The nucleotide sequence (62 kb) of the mycinamicin biosynthetic gene cluster, in which there were 22 open reading frames (ORFs), was completely determined. All of the products from the 22 ORFs are responsible for the biosynthesis of mycinamicin II and self-protection against the compounds synthesized. Central to the cluster is a polyketide synthase locus (mycA), which encodes a seven-module system comprised of five multifunctional proteins. Immediately downstream of mycA, there is a set of genes for desosamine biosynthesis (mydA-G and mycB). Moreover, mydH, whose product is responsible for the biosynthesis of mycinose, lies between mydA and B. On the other hand, eight ORFs were detected upstream of the mycinamicin PKS gene. The myrB, mycG, and mycF genes had already been characterized by Inouye et al. The other five ORFs (mycCI, mycCII, mydI, mycE, and mycD) lie between mycA1 and mycF, and these five genes and mycF are responsible for the biosynthesis of mycinose. In the PKS gene, four regions of KS and AT domains in modules 1, 4, 5, and 6 indicated that it does not show the high GC content typical for Streptomyces genes, nor the unusual frame plot patterns for Streptomyces genes. Methylmalonyl-CoA was used as substrate in the functional units of those four modules. The relationship between the substrate and the unusual frame plot pattern of the KS and AT domains was observed in the other PKS genes, and it is suggested that the KS-AT original region was horizontally transferred into the PKS genes on the chromosomal DNA of several actinomycetes strains.     

Increased production of bioactive lysophosphatidic acid by serum lysophospholipase D in human pregnancy

Lysophosphatidic acid (LPA) is a prototype of the lysophospholipid mediator family and has multiple effects in the female reproductive system. Although several metabolic routes have been reported for intracellular formation of LPA, a unique route involving lysophospholipase D, an extracellular enzyme that produces LPA in blood and body fluids, is particularly intriguing for its agonistic role. In this study, using an assay with radioactive palmitoyl-lysophosphatidylcholine, we found that lysophospholipase D activity producing palmitoyl-LPA in human serum gradually increased during pregnancy. Elevated activity of lysophospholipase D was not caused by changes in levels of their precursors, lysophosphatidylcholines, in nonpregnant women or in pregnant women at different gestational periods. With increasing length of gestation, the elevated activity in pregnant women was found to produce increasing proportions of LPA with a palmitoyl group versus other LPAs. These results suggest that LPA formed by increased activity of lysophospholipase D in blood might participate in maintenance of pregnancy.     

Dynamics of Mitotic Apparatus Formation and Tubulin Content during Oocyte Maturation in Starfish

To follow the topo-temporal behavior of structures containing tubulin and the change in tubulin content during oocyte maturation, starfish oocytes were extracted with a medium containing detergent so that morphological observation and biochemical analysis could be conducted on the same residual oocyte preparation simultaneously. Before 1-methyladenine (1-MeAde) stimulation, "pre-meiotic asters" were observed on the germinal vesicle at the animal pole. 1-MeAde caused the appearance of distinct asters at the position of the aster precursor. When germinal vesicle breakdown (GVBD) took place, chromosomes were condensed. Chromosome gathering was concurrent with a reduction in the size of nuclear matrix. The mitotic apparatus was first constructed parallel to the cortex and then changed its axis perpendicularly. Fluorescence of tubulin due to indirect immunofluorescence in the cytoplasm other than the mitotic apparatus decreased rapidly along the course of maturation at least up to the first metaphase. Despite these dynamic morphological change, the tubulin content in the whole oocyte and the residual structures, measured by SDS-PAGE and immunostaining, did not show remarkable (statistically significant) changes through the course of maturation, although the content tended to decrease a little before the second polar body formation and to increase thereafter in the latter.