Characterization of monoolein-based lipoplexes using fluorescence spectroscopy

Lipoplexes are commonly used as delivery systems in vitro and in vivo, the role of a neutral lipid as helper being of extreme importance in these systems. Cationic liposomes composed of dioctadecyldimethylammonium bromide (DODAB) with monoolein (MO) as a helper, at different molar ratios (1:2; 1:1 and 1:0.5) were prepared, and subsequently titrated to DNA. The structural and physicochemical properties of the lipid/DNA complexes were assessed by Ethidium Bromide (EtBr) exclusion, 90º Static Light Scattering (90º SLS) assays and Fluorescence Resonance Energy Transfer (FRET). In EtBr exclusion assays, the steady-state fluorescence spectra of EtBr were decomposed into the sum of two lognormal emissions, emanating from two different environments – H2O and DNA, and the effect of charge ratio (+/-) was observed. 90º SLS assays gave an important contribution, detecting size variations in systems with different MO fractions on the lipoplexes. In FRET assays, 2-(3-(diphenylhexatrienyl)propanoyl)-1-hexadecanoyl-sn-glycero-3-phosphocholine (DPH-HPC) was used as donor and EtBr as acceptor. The DNA component previously calculated by EtBr exclusion, was used to determine the energy transfer efficiency, as an indirect measurement of the lipoplexes structural and physicochemical properties. Our results demonstrate that the inclusion of monoolein in the cationic liposomes formulation significantly modifies the rate of DNA complexation, being DODAB:MO (1:1) the system with higher DNA condensation efficiency.Fundação para a Ciência e a Tecnologia (FCT

The eck fistula in animals and humans

In all species so far studied, including man, portacaval shunt causes the same changes in liver morphology, including hepatocyte atrophy, fatty infiltration, deglycogenation, depletion and disorganization of the rough endoplasmic reticulum (RER) and its lining polyribosomes and variable but less specific damage to other organelles. Many, perhaps all, biosynthetic processes are quickly depressed, largely secondary to the selective damage to the RER, which is the "factory" of the cell. These structural and metabolic changes in the liver after portal diversion are caused by the diversion around the liver of the hepatotrophic substances in portal venous blood, of which endogenous insulin is the most important. In experimental animals, the injury of Eck's fistula can be prevented by infusing insulin into the tied-off hilar portal vein. The subtle but far-reaching changes in hepatic function after portal diversion have made it possible to use this procedure in palliating three inborn errors of metabolism: glycogen storage disease, familial hypercholesterolemia, and α1-antitrypsin deficiency In these three diseases, the abnormalities caused by portal diversion have counteracted abnormalities in the patients that were caused by the inborn errors. In these diseases, amelioration of the inborn errors depends on the completeness of the portal diversion. In contrast, total portal diversion to treat complications of portal hypertension is undesirable and always will degrade hepatic function if a significant amount of hepatopetal portal venous blood is taken from the liver. When total portal diversion is achieved (and this is to be expected after all conventional shunts), the incidence of hepatic failure and hepatic encephalopathy is increased. If portal diversion must be done for the control of variceal hemorrhage, a selective procedure such as the Warren procedure is theoretically superior to the completely diverting shunt. In practice, better patient survival has not been achieved after selective shunts than after conventional shunts, but the incidence of hepatic encephalopathy has been less. © 1983 Year Book Medical Publishers, Inc

Relationships between chemical hepatocarcinogenesis and adenylate cyclase activity.

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Adenylate cyclase activity in liver membranes of portacaval shunted rats during hepatocarcinogenesis.

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Adenylate cyclase activity in crude liver membranes during chemical hepatocarcinogenesis in portacaval shunted rats.

Hepatocarcinogenesis was initiated in rats with diethylnitrosamine (DEN) followed by a selection with 2-acetylamino-fluorene (2-AAF). Portacaval shunt was then performed in order to promote tumor development. Control rats were not submitted to the initiation--selection protocol and were sham-operated. In control rats, adenylate cyclase activity from crude liver membranes was stimulated 7- to 8-fold by maximal doses of glucagon (10(-6) M) or guanyl-5'-yl-imidophosphate [Gpp(NH)p] (10(-3) M), and 17-fold by a maximal (10(-5) M) dose of forskolin. Guanosine-5'-O-(2-thiodiphosphate) inhibited the response to forskolin (-38%) and to low doses of glucagon (-50%). The initiation--selection protocol increased the activity in basal conditions and in response to various stimuli. The portacaval shunt did not modify the activity of the enzyme with respect to basal activity or the response to glucagon. It significantly decreased the response to Gpp(NH)p (-45%) and to forskolin (-27%). The initiation--selection protocol increased the basal activity of the enzyme (+150%) and its response to Gpp(NH)p (+300%). When tumors developed, the activity of the cyclase further increased (+200%) and an inhibitory effect of GTP on the hormone-stimulated enzyme appeared (-40%). From these results, it is concluded that the promotion of hepatocarcinogenesis by portacaval shunt is coupled with modifications in the activity of adenylate cyclase in response to glucagon and guanylnucleotides.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe

Adenylate cyclase activity in crude liver membranes during chemical hepatocarcinogenesis.

Crude plasma membranes were prepared from the liver of control rats or of rats submitted to an initiation by diethyl-nitrosamine and selection with 2-acetylaminofluorene and carbon tetrachloride (group IS) or of rats submitted to an initiation-selection protocol followed by a promotion with phenobarbital (group IS PB). In control rats, the diterpene forskolin and glucagon stimulated the activity of adenylate cyclase 6- to 7-fold. Guanosine-5'-O-(2-thiodiphosphate) (GDP beta S) inhibited the stimulation by both agents and the non-hydrolyzable GTP analog, guanyl-5'-yl-imidodiphosphate [Gpp(NH)p], potentiated the stimulatory effect of glucagon. In rats of the IS group, no modification of the activity of the liver cyclase was found, except for an increased response to forskolin and glucagon. In the IS PB group, for the rats without tumor, the only effect of adding phenobarbital was to increase the sensitivity of the cyclase to forskolin. In tumoral tissue, the response to Gpp(NH)p, glucagon and forskolin were increased when compared to the surrounding tissue. In contrast to the surrounding tissue, GDP beta S potentiated the stimulatory effect of forskolin. When the affinity of the glucagon receptors for the hormone was measured in binding experiments, no difference was observed among the rats of the various groups, except for a higher affinity in tumoral tissue. Similarly, GTP inhibited the binding of glucagon with the same potency in each group. It is concluded that during hepatocarcinogenesis, the sensitivity of the adenylate cyclase towards glucagon increases secondarily to a better binding of the hormone to its receptor and to an impairment of the inhibitory regulatory site.Journal ArticleSCOPUS: ar.jinfo:eu-repo/semantics/publishe

Liposomes composed of a double-chain cationic amphiphile (vectamidine) induce their own encapsulation into human erythrocytes.

Vectamidine is a liposome-forming double-chain cationic amphiphile. The present work was aimed to microscopically study the interactions of Vectamidine liposomes with the human erythrocyte plasma membrane. Vectamidine rapidly induced stomatocytic shapes. Attachment of Vectamidine liposomes to the erythrocyte induced a strong local invagination of the membrane. This frequently resulted in a complete encapsulation of the liposome. Liposomes composed of phosphatidylcholine (neutral) or phosphatidylserine/phosphatidylcholine (anionic) did not perturb the erythrocyte shape. Our results indicate that besides an attraction of Vectamidine liposomes to the plasma membrane, there is a preference of Vectamidine for the inner bilayer leaflet. We suggest that cationic amphiphiles may transfer from membrane-attached liposomes to the plasma membrane and then translocate to the inner bilayer leaflet where they induce a strong local inward bending of the plasma membrane resulting in an encapsulation of the liposome.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe