SKD1 is a member of the family of ATPases associated with cellular activities whose yeast homologue Vps4p has been implicated in endosomal/vacuolar membrane transports. When a mutant of SKD1 that lacks ATPase activity [SKD1(E235Q)] was overexpressed in mammalian cells, it induced a dominant negative phenotype characterized by aberrant endosomal structures (denoted as E235Q compartments). Expression of SKD1(E235Q) caused an accumulation of basolateral recycling receptors, such as asialoglycoprotein receptor and low-density lipoprotein in polarized hepatocytes and Madin-Darby canine kidney cells, respectively, in E235Q compartments. In addition, SKD1(E235Q) also abrogated, via endosomes, transport to the trans-Golgi network, as indicated by an accumulation of TGN38 in E235Q compartments. Three lines of evidence further demonstrated that SKD1 participates in the membrane transport from early endosomes to late endosomes/lysosomes: (1) a redistribution of a late endosomal and lysosomal membrane protein endolyn in E235Q compartments; (2) an inhibition of epidermal growth factor receptor degradation, due to an accumulation of the receptors in E235Q compartments; and (3) a mis-sorting of and defect in the proteolytic processing of newly synthesized cathepsin D. An intriguing finding was that the expression of SKD1(E235Q) caused the number of lysosomes to decrease (to one-sixth of control numbers) but their size to increase (2.4-fold larger in diameter than control lysosomes). Indeed, an ultrastructural analysis revealed that the expression of SKD1(E235Q) causes an accumulation of hybrid organelles formed by direct fusion between late endosomes and lysosomes. We conclude that SKD1 regulates multiple steps of membrane transport out of early endosomes and the reformation of lysosomes from a hybrid organelle.
We compared liver volume and function kinetics after partial hepatectomy according to extent of resection and severity of coexisting liver disease in 57 adults with uneventful postoperative courses. Liver volume and massiveness of resection, or resection rate, were estimated on computed tomography. Patients were categorized into three groups on the basis of reaction rate: small (< 30%), medium (30%-50%) and large (> 50%). The regenerative patterns of normal livers in the medium and large groups consisted of three phases: a rapid increase during the first month, some decrease in the second month and a final, slower increase. This contrasted with the pattern of injured livers with chronic hepatitis or cirrhosis, which generally showed a phase of less rapid, gradual increase. The regeneration rate (volume gain, cm3/day) during the first month was found to be proportional to resection rate in the presence or absence of liver disease. Normal livers regenerated at least twice as rapidly as injured livers in patients with comparable resection rates. Normal livers reached plateau levels within 1 to 2 mo regardless of the massiveness of resection, whereas regeneration took 3 to 5 mo in injured livers. Liver function (albumin, bilirubin) recovered concomitantly with liver volume in the medium group, whereas in the large group they generally returned to their initial values behind volume restoration, particularly in cirrhotic patients. In conclusion, human liver regeneration is strongly influenced by the massiveness of the resection and presence of coexisting liver disease. However, we found that some cirrhotic livers can regenerate, albeit more slowly and less completely, as long as the extent of hepatectomy remains within safe functional limits.
The ion-pair extraction of anionic surfactants by flow injection analysis (FIA) at a rate of 80 samples/h Is described.Methanol is used as a ion-pair solvating agent, both to enhance the extraction process and to vary the relative molar extractablllties of six different types of surfactants. A phaseseparating system was designed with poly(tetrafluoroethylene) (PTFE) porous membrane which is permeable to chloroform but impermeable to the aqueous solution. The method is suited in the range of up to 1.25 mM of the surfactant. Reproducibility of within 1.5% coefficient of variance was obtained.Several workers (1-8) have reported the automated determination of anionic surfactants in commercial products and natural waters. These methods were based on the ion-pair extraction of anionic surfactants with a cationic dyestuff such as methylene blue, followed by the AutoAnalyzer technique.
7) Deleon, J. R.; Warren, V.; Laseter, J. L. Quant. Mass Spectrom. Life Sei. 1978, 2 , 483. (8) Norstrom, R. J.; Hallet. D. J.; Onuska, F. I.; Comba, M. E. Environ. Scl. Techno/. 1980, 74, 860-866. (9) Hallett, D. J.; Norstrom, R. J.; Onuska, F. I.; Comba, M. E.; Sampson, R.screening and quantitating mirex levels down to the 500-fg level. The multiple-ion detection technique extends the determination to include related degradation products and considers four separate ion ratios and retention times fit. This procedure does not suffer from the interferences previously reported by Laseter et al. (6) and can be employed for a broad range of samples.provides a high probability for correct identification when one
Vitamin D insufficiency and deficiency are common in the elderly. Most previous studies using alendronate have used vitamin D supplementation regardless of individual vitamin D status. However, the minimum required vitamin D levels for the efficacy of alendronate treatment of osteoporosis remain unclear. Fifty-two postmenopausal women, diagnosed with osteoporosis, were enrolled in this prospective study, in which they took 5 mg of alendronate daily for 6 months without any supplements. Associations between baseline factors and their changes during the treatment and the change in the lumbar spine bone mineral density (LS-BMD) were examined. The most appropriate cut-off level of 25-hydroxyvitamin D (25[OH]D) for the optimal increase in LS-BMD with alendronate was determined using the Akaike information criterion statistical criterion. Overall, alendronate treatment significantly increased LS-BMD by 4.7%. The basal serum 25(OH)D and change in urinary NTX were significantly associated with the increase in LS-BMD. The increase in LS-BMD between the two groups was not different when comparing those with baseline 25(OH)D above vs. below 30 ng/ml. However, 25(OH)D of 25 ng/ml was determined to be the minimum required vitamin D level for an adequate effect of alendronate. Vitamin D status may affect the increase in LS-BMD with alendronate treatment in individuals being treated for osteoporosis, and a 25(OH)D level >25 ng/ml appears to be required for an optimal LS-BMD response.
A microphysiological system (MPS) holds great promise for drug screening and toxicological testing as an alternative to animal models. However, this platform faces several challenges in terms of the materials used (e.g. polydimethylsiloxane; PDMS). For instance, absorption of drug candidates and fluorescent dyes into PDMS, as well as the effect elicited by materials on cultured cells, can cause inaccurate or misleading results in cell assays. The use of PDMS also poses challenges for mass production and long-term storage of fabricated MPSs. Hence, to circumvent these issues, herein we describe the development of a cyclo olefin polymer (COP)-based MPS using photobonding processes and vacuum ultraviolet (VUV), designated as COP-VUV-MPS. COP is an amorphous polymer with chemical/physical stability, high purity and optical clarity. Due to the thermostability and high modulus of COP, the metal molding processes was applied for mass production of MPSs without deformation of microstructures and with quick fabrication cycle time (approx. 10 min/cycle). Moreover, VUV photobonding process with an excimer light at a 172nm wavelength allowed assembling COP materials without the use of additional solvents and tapes, which might cause cell damages. In comparison with the conventional MPS made of PDMS (PDMS-MPS), COP-VUV-MPS showed improved chemical resistance without causing molecule absorption. Moreover, COP-VUV-MPS maintained the stemness of environmentally sensitive human-induced pluripotent stem cells without causing undesired cellular phenotypes or gene expression. These results suggest that COP-VUV-MPS may be broadly applicable for the advancement of MPS and applications in drug development, as well as in vitro toxicological testing.
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