Measurements of hydrodynamic diameter of AOT reverse micelles containing lipase in supercritical ethane and its enzymatic reaction

The enzymatic reaction by aerosol-OT (AOT)reverse micelles containing lipase in supercritical ethane was examined and is the focus of this paper. The reverse micelles were formed under various conditions at which their hydrodynamic diameters were measured by using the dynamic light scattering spectrophotometer. The reverse micelles in supercritical ethane were formed in the range of Wo (water/surfactant) less than six. The hydrodynamic diameter of the reverse micelles ranged from 2 to 5 microm. The hydrolysis reaction of triolein by the lipase in reverse micelles was also examined. The observations indicate that lipase in AOT reverse micelles in supercritical ethane showed activity. The conversion of triolein increased with the increase in size of reverse micelles and Wo, and reached its maximum near the critical temperature. Moreover, although the conversion of triolein increased with pressure, it was independent of pressure near the critical temperature.     

Sorting specificity of spermatogenic cell specific region of mouse hexokinase-s (mHk1-s)

Hexokinase is the first enzyme involved in the glycolysis process that produces glucose phosphorylate. Our previous study reported on our cloning of mouse Hk1-s (mHk1-s) cDNA, which were expressed only in testis cells, and noted that this cDNA has a spermatogenic cell-specific region (SSR) that replaces the porin binding domain (PBD) in the Hk1of somatic cells. Although we know that PBD binds to the outer membrane of a mitochondrion, the role of the SSR is not yet understood. To investigate the intracellular localization of SSR, we constructed expression vectors with the epitope tag (GFP-, HA-), subcloned SSR, or PBD cDNA. We transfected these vectors in mouse fibroblast, NIH3T3 cells, after which we observed the localization of the SSR and PBD in the NIH3T3 cells. Our current study using the immunocytochemical method revealed that PBD is concentrated around the mitochondrion. However, the SSR could not be ascribed to the mitochondrion, ER, or nuclear colocalization. Moreover, subcellular fractionation analysis showed that PBD was detected in the mitochondrial fraction, and that SSR was detected in the cytosolic fraction. Our findings suggest that PBD of Hk1 targets mitochondrion, but the SSR of mHk1-s targets some specific organellae.     

Suppression of anoikis by v-Src but not by activated c-H-ras in human gallbladder epithelial cells

Detachment of anchorage-dependent normal epithelial cells from their substratum causes the type of apoptosis known as anoikis, whereas malignant cells can proliferate independently of anchorage. Because src and ras oncogenes are activated in many human cancers, we investigated their role and downstream signaling pathways in anoikis resistance, using HAG-1 human epithelial cells transfected with v-src or activated H-ras. Consequently, anchorage-dependent mock- or ras-transfected cells underwent anoikis. In contrast, anchorage-independent v-Src-transformed cells did not exhibit such apoptotic features. Focal adhesion kinase (FAK), a transducer of integrin, was only activated in v-Src-transformed cells. Herbimycin A, an Src kinase inhibitor, reduced tyrosyl phosphorylation of FAK and reversed resistance to anoikis. However, both protein kinase C (PKC) and phophatidylinositol-3 (PI-3) kinase inhibitors failed to induce anoikis. These data suggest that the ability of activated Src to prevent anoikis may be mediated by Src to a downstream signaling pathway involving FAK, but not Ras, PI-3 kinase, or PKC.     

Establishment of hepatic stem-like cell lines from normal adult porcine liver in a poly-D-lysine-coated dish with nair-1 medium

The existence, origin, and bipotency of the hepatic stem cell (HeSC) have been investigated. However, the isolation and culture of HeSCs from adult liver tissue is not yet well established, and the mechanism by which HeSCs differentiate into mature cells remains unclear. On the other hand, the development of HeSC-isolating and -culturing methods and the in vitro clonal analysis of their mechanism of differentiation are required to enable clinical applications of regenerative medicine in the liver. For the purpose of providing HeSCs for these studies, we attempted to establish an HeSC line from a normal adult porcine liver using a unique culture system, a poly-D-lysine-coated culture dish with NAIR-1 medium (the PDL-NAIR-1 culture system). Moreover, we examined the differentiating capacity of HeSCs in vitro. We demonstrated that it was possible in the culture system that immature epithelial cells capable of proliferating grew selectively into aggregates and that two hepatic stem-like cell lines, PHeSC-A1 and PHeSC-A2, were established. The results from our data suggest that these hepatic stem-like cell lines were capable of self-renewing and differentiating into hepatocytes or biliary epithelial cells and show that the PDL-NAIR-1 culture system offers the immense advantage of isolating and culturing HeSCs from a normal adult liver. Furthermore, because of the ability to use a clonal analysis in vitro, these cell lines are useful for the investigation of various mechanisms in which HeSCs seem to participate and their application in the study of regenerative medicine in the liver.     

Site-specific PEGylation of a lysine-deficient TNF-alpha with full bioactivity

Addition of polyethylene glycol to protein (PEGylation) to improve stability and other characteristics is mostly nonspecific and may occur at all lysine residues, some of which may be within or near an active site. Resultant PEGylated proteins are heterogeneous and can show markedly lower bioactivity. We attempted to develop a strategy for site-specific mono-PEGylation using tumor necrosis factor-alpha (TNF-alpha). We prepared phage libraries expressing TNF-alpha mutants in which all the lysine residues were replaced with other amino acids. A fully bioactive lysine-deficient mutant TNF-alpha (mTNF-alpha-Lys(-)) was isolated by panning against TNF-alpha-neutralizing antibody despite reports that some lysine residues were essential for its bioactivity. mTNF-alpha-Lys(-) was site-specifically mono-PEGylated at its N terminus. This mono-PEGylated mTNF-alpha-Lys(-), with superior molecular uniformity, showed higher bioactivity in vitro and greater antitumor therapeutic potency than randomly mono-PEGylated wild-type TNF-alpha. These results suggest the usefulness of the phage display system for creating functional mutant proteins and of our site-specific PEGylation approach.     

Synthesis of a poly(vinylpyrrolidone-co-dimethyl maleic anhydride) co-polymer and its application for renal drug targeting

We have synthesized a polymeric drug carrier, polyvinylpyrrolidone-co-dimethyl maleic anhydride [poly(VP-co-DMMAn)], for use in renal drug delivery. About 80% of the 10-kDa poly(VP-co-DMMAn) selectively accumulated in the kidneys 24 h after intravenous administration to mice. Although this accumulated poly(VP-co-DMMAn) was gradually excreted in the urine, about 40% remained in the kidneys 96 h after treatment. Poly(VP-co-DMMAn) was taken up by the renal proximal tubular epithelial cells and no cytotoxicity was noted. Higher doses did not produce toxicity in the kidneys or other tissues. In contrast, polyvinylpyrrolidone of the same molecular weight did not show any tissue-specific distribution. Poly(VP-co-DMMAn)-modified superoxide dismutase accumulated in the kidneys after intravenous administration and accelerated recovery from acute renal failure in a mouse model. In contrast, polyvinylpyrrolidone-modified superoxide dismutase and native superoxide dismutase were not as effective. Thus, poly(VP-co-DMMAn) is a useful candidate as a targeting carrier for renal drug delivery systems.     

Efficient gene delivery into murine ovarian cells by intraovarian injection of plasmid DNA and subsequent in vivo electroporation

We describe the use of direct injection of circular plasmid DNA and subsequent in vivo electroporation (EP) for efficient gene delivery to the ovarian cells, including follicular cells and oocytes of mice. When Trypan blue (TB) was injected into the central portion of an ovary by a glass micropipette, rapid dispersion of TB to each preantral and antral follicle was observed. Injections of lacZ-expressing plasmid DNA and subsequent in vivo EP resulted in transfection of follicles with efficiencies ranging from 8-60%, together with cells in the thecal portion of the ovary. Of the lacZ-positive follicles, some oocytes were also positive for lacZ activity. These findings suggest that a solution introduced inside the ovary is rapidly dispersed to each follicle. With this technique, we expect great progress in genetic engineering in murine ovary.     

Androgen-dependent atypical fibromas spontaneously arising in the skin of Djungarian hamsters (Phodopus sungorus)

Spontaneous atypical fibromas that arose in the thoracoabdominal skin of one aged female and 31 aged male Djungarian hamsters (Phodopus sungorus) were examined histologically, immunohistochemically, and ultrastructurally. The normal skin from both sexes obtained at various intervals until the age of 12 months was examined, as were the tumors. These tumors were composed of ganglion cell-like (GL) cells that had one or two ovoid nuclei, basophilic foamy cytoplasm, and various amount of collagen fibers between the cells. The tumor cells had positive reaction to vimentin and androgen receptor (AR); the stromal collagen fibers reacted positively with the antibody against collagen type I or III. Ultrastructurally, the tumor cells had abundant rough endoplasmic reticulum in the cytoplasm. On the other hand, small nests of the cells mimicking tumor GL cells were present in the dermal layer to the panniculus of the normal thoracoabdominal skin of adult males, but were seldom found in adult females. The morphologic and immunohistochemical features of these tumor GL cells were basically similar to those of normal skin GL cells, although the former had a certain degree of atypia. These results suggest that atypical skin fibroma in the Djungarian hamster is an androgen-dependent tumor and originates from skin GL cells.     

ATP-sensitive K+ channel-mediated glucose uptake is independent of IRS-1/phosphatidylinositol 3-kinase signaling

We previously found that disruption of Kir6.2-containing ATP-sensitive K+ (KATP) channels increases glucose uptake in skeletal muscle, but the mechanism is not clear. In the present study, we generated knockout mice lacking both Kir6.2 and insulin receptor substrate-1 (IRS-1). Because IRS-1 is the major substrate of insulin receptor kinase, we expected disruption of the IRS-1 gene to reduce glucose uptake in Kir6.2 knockout mice. However, the double-knockout mice do not develop insulin resistance or glucose intolerance. An insulin tolerance test reveals the glucose-lowering effect of exogenous insulin in double-knockout mice and in Kir6.2 knockout mice to be similarly enhanced compared with wild-type mice. The basal 2-deoxyglucose uptake rate in skeletal muscle of double-knockout mice is increased similarly to the rate in Kir6.2 knockout mice. Accordingly, disruption of the IRS-1 gene affects neither systemic insulin sensitivity nor glucose uptake in skeletal muscles of Kir6.2-deficient mice. In addition, no significant changes were observed in phosphatidylinositol 3-kinase (PI3K) activity and its downstream signal in skeletal muscle due to lack of the Kir6.2 gene. Disruption of Kir6.2-containing Katp channels clearly protects against IRS-1-associated insulin resistance by increasing glucose uptake in skeletal muscles by a mechanism separate from the IRS-1/PI3K pathway.