Ty3 Retrotransposon Hijacks Mating Yeast RNA Processing Bodies to Infect New Genomes

Retrotransposition of the budding yeast long terminal repeat retrotransposon Ty3 is activated during mating. In this study, proteins that associate with Ty3 Gag3 capsid protein during virus-like particle (VLP) assembly were identified by mass spectrometry and screened for roles in mating-stimulated retrotransposition. Components of RNA processing bodies including DEAD box helicases Dhh1/DDX6 and Ded1/DDX3, Sm-like protein Lsm1, decapping protein Dcp2, and 5’ to 3’ exonuclease Xrn1 were among the proteins identified. These proteins associated with Ty3 proteins and RNA, and were required for formation of Ty3 VLP retrosome assembly factories and for retrotransposition. Specifically, Dhh1/DDX6 was required for normal levels of Ty3 genomic RNA, and Lsm1 and Xrn1 were required for association of Ty3 protein and RNA into retrosomes. This role for components of RNA processing bodies in promoting VLP assembly and retrotransposition during mating in a yeast that lacks RNA interference, contrasts with roles proposed for orthologous components in animal germ cell ribonucleoprotein granules in turnover and epigenetic suppression of retrotransposon RNAs.     

The Relationship between Processing Speed and Regional White Matter Volume in Healthy Young People

Processing speed is considered a key cognitive resource and it has a crucial role in all types of cognitive performance. Some researchers have hypothesised the importance of white matter integrity in the brain for processing speed; however, the relationship at the whole-brain level between white matter volume (WMV) and processing speed relevant to the modality or problem used in the task has never been clearly evaluated in healthy people. In this study, we used various tests of processing speed and Voxel-Based Morphometry (VBM) analyses, it is involves a voxel-wise comparison of the local volume of gray and white, to assess the relationship between processing speed and regional WMV (rWMV). We examined the association between processing speed and WMV in 887 healthy young adults (504 men and 383 women; mean age, 20.7 years, SD, 1.85). We performed three different multiple regression analyses: we evaluated rWMV associated with individual differences in the simple processing speed task, word–colour and colour–word tasks (processing speed tasks with words) and the simple arithmetic task, after adjusting for age and sex. The results showed a positive relationship at the whole-brain level between rWMV and processing speed performance. In contrast, the processing speed performance did not correlate with rWMV in any of the regions examined. Our results support the idea that WMV is associated globally with processing speed performance regardless of the type of processing speed task.     

Laminar high shear stress up-regulates type IV collagen synthesis and down-regulates MMP-2 secretion in endothelium. A quantitative analysis

Remodeling of endothelial basement membrane is important in atherogenesis. Since little is known about the actual relationship between type IV collagen and matrix metalloprotease−2 (MMP-2) in endothelial cells (ECs) under shear stress by blood flow, we performed quantitative analysis for type IV collagen and MMP-2 in ECs under high shear stress. The mRNA of type IV collagen from ECs exposed to high shear stress (10 and 30 dyn/cm²) had a higher expression compared to ECs exposed to a static condition or low shear stress (3 dyn/cm²) (P < 0.01). ³H-proline uptake analysis and fluorography revealed a remarkable increase of type IV collagen under high shear stress (P < 0.01). In contrast, zymography revealed that exposing to high shear stress, however similar positivity was leveled in the intracellular MMP-2 in the control and high shear stress-exposed ECs, reduced the secretion of MMP-2 in ECs. The results of Northern blotting, gelatin zymography and monitoring the intracellular trafficking of GFP-labeled MMP-2 revealed that MMP-2 secretion by ECs was completely suppressed by high shear stress, but the intracellular mRNA expression, protein synthesis, and transport of MMP-2 were not affected. In conclusion, we suggest that high shear stress up-regulates type IV collagen synthesis and down-regulates MMP-2 secretion in ECs, which plays an important role in remodeling of the endothelial basement membrane and may suppress atherogenesis.     

Structure–activity relationship of a novel pentapeptide with cancer cell growth‐inhibitory activity

We previously reported that yamamarin, a pentapeptide with an amidated C‐terminus (DILRG‐NH₂) isolated from larvae of the silkmoth, and its palmitoylated analog (C16‐DILRG‐NH₂) suppressed proliferation of rat hepatoma (liver cancer) cells. In this study, we investigated the structure–activity relationship of yamamarin by in vitro assay and spectroscopic methods (CD and NMR) for various analogs. The in vitro assay results demonstrated that the chemical structure of the C‐terminal part (‐RG‐NH₂) of yamamarin is essential for its activity. The CD and NMR results indicated that yamamarin and its analog adopt predominantly a random coil conformation. Moreover, a comparison of NMR spectra of DILRG‐NH₂ and C16‐DILRG‐NH₂ revealed that the N‐terminal palmitoyl group of C16‐DILRG‐NH₂ did not affect the conformation of the C‐terminal part, which is essential for activity. Together, these results should assist in the design of more sophisticated anticancer drugs. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.     

Differences in accumulation of anthracyclines daunorubicin, doxorubicin and epirubicin in rat tissues revealed by immunocytochemistry

Although anthracycline antibiotics daunorubicin (DR), doxorubicin (DX), and epirubicin (ER) possess minor differences in their chemical structures, large differences are noted in their clinical use, as well as in cellular and plasma pharmacokinetic parameters in vivo. Immunocytochemistry for DR, DX, or ER was developed using an anti-DR monoclonal antibody (ADM-1-11), which has been demonstrated to react equally well with each of the three drugs, and therefore it was used for comparing their accumulation in several rat tissue cells after a single i.v. injection of each drug. In the kidney, immunoreactivity for each drug was distributed in essentially the same pattern and in the same strength 2 h after injection, but quite differently distributed in kidney cells thereafter, so that at 120-h post-injection significant amounts of DX and ER remained, but DR had almost completely vanished. Similar patterns of accumulation were observed in cells of other tissues including the pancreas, hair follicle, and stomach, with the exception of the intestine in which none of the three drugs remained after 120 h. These results appear to be supported by previous pharmacokinetic studies on the anthracyclines. The mechanism for such differences among the three drugs remains obscure, but the hydroxyl group at C-14 of DX and ER molecule might be related to the strong propensity of DX and ER to accumulate in tissue cells. The present results should contribute to the understanding of the mechanisms of the differences in the pharmacokinetics, as well as the possibly in anti-tumor activities of the anthracyclines.     

Localization of Gts1p in cortical actin patches of yeast and its possible role in endocytosis

Herein we report that Gts1p fused with green-fluorescent protein (GFP) is localized in the cortical actin patch besides nuclei in yeast and the cortical Gts1p changed its position together with the patch depending on the cell-cycle phase, while nuclear Gts1p accumulated predominantly in the budding phase. Whereas Gts1p does not directly bind to actin, it associated mainly with the actin-associated protein Pan1p. In the GTS1-deleted transformant gts1Delta, the number of cells containing either a fragmented vacuole or an enlarged single central vacuole increased and the uptake of the hydrophilic dye Lucifer yellow (LY) in the vacuole decreased. Further, gts1Delta transformed with a mutant Gts1p having two cysteine-to-alanine substitutions in a zinc finger resembling that of GTPase-activating proteins of ADP-ribosylation factors (ARF-GAP) neither recovered the LY uptake unlike gts1Delta transformed with the wild-type GTS1, nor reduced the average size of central vacuoles as much as the latter did. These results suggested that Gts1p in the actin patch is involved in the fluid-phase endocytosis and membrane trafficking for vacuole formation and that the putative ARF-GAP domain in Gts1p plays an important role in these functions.