We have reported that a rapid tail vein injection of a large volume of plasmid DNA solution into a mouse results in high level of transgene expression in the liver. Gene transfer efficiency of this hydrodynamics-based procedure is determined by the combined effect of a large volume and high injection speed. Here, we show that the hydrodynamic injection induces a transient irregularity of heart function, a sharp increase in venous pressure, an enlargement of liver fenestrae, and enhancement of membrane permeability of the hepatocytes. At the cellular level, our results suggest that hepatic delivery by the hydrodynamic injection is accomplished by the generation of membrane pores in the hepatocytes.
Oxytocin is believed to attenuate the response of the hypothalamic-pituitary-adrenal axis to stress and to be anxiolytic. Stressors with a psychological component evoke both central and peripheral secretion of oxytocin in laboratory rodents. Oxytocin gene deletion mice provide a novel way to understand the role of oxytocin in stress and anxiety-related behaviours. We present our experience with female oxytocin deficient mice that were tested in an elevated plus maze (EPM), a behavioural test of anxiety, or exposed to psychogenic stressors (platform shaker or novel environment). Oxytocin-deficient mice not only displayed more anxiety-related behaviour, but also released more corticosterone after a psychogenic stressor and manifested greater stress-induced hyperthermia compared to wild-type mice. The diurnal variation of corticosterone and the response of corticosterone to corticotropin-releasing factor were not significantly different between genotypes. We also measured Fos-immunoreactive protein, an index of neuronal activation, in the medial amygdala of female mice after EPM testing. The medial amygdala is important for processing of psychogenic stress and anxiety and also contains oxytocin pathways and oxytocin receptors. The expression of Fos in the medial amygdala of mice not exposed to the EPM was not different between genotypes. Following EPM exposure, Fos expression was greater in oxytocin null compared to wild-type mice. Our findings support the hypothesis that central oxytocin is anxiolytic, and attenuates the stress response to psychogenic provocation in female mice.
Previous studies have suggested that oxytocin (OT) may be anxiolytic in female laboratory rats and mice. The elevated plus-maze was used to compare anxiety-related behaviors of OT-deficient (OT-/-) and wild-type (OT+/+) mice. Female OT-/- mice displayed increased anxiety-related behavior compared with OT+/+ mice. The percentage of entries (P < 0.0002) and time spent (P < 0.003) in the open arms was less in female OT-/- than OT+/+ mice. Administration of synthetic OT, 2 ng by intracerebroventricular (icv) injection to female OT-/- mice, increased the percentage of entries (P < 0.003) and time spent (P < 0.004) in the open arms compared with artificial cerebrospinal fluid female OT-/- mice. Administration of an OT receptor antagonist (Atosiban, d[Dtyr(Et)(2), Thr(4)]ornithine vasotocin) 100 ng icv, to female OT+/+ mice increased anxiety-related behavior by decreasing the percentage of entries (P < 0.01) and time spent (P < 0.04) in the open arms compared with artificial cerebrospinal fluid-treated controls. Central infusion of an OT receptor antagonist, 100 ng icv, before administration of synthetic OT, 2 ng icv, in female OT-/- mice blocked the anxiolytic affect of OT. In contrast, male OT-/- mice displayed decreased anxiety-related behavior compared with male OT+/+ mice. The percentage of entries (P < 0.007) and time spent (P < 0.004) in the open arms was greater in male OT-/- vs. OT+/+ mice. Our findings indicate that OT pathways play a role in modulating anxiety in female mice of the C57BL/6 background, and the effect is mediated by the OT receptor.
Oxytocin knockout mice demonstrate enhanced intake of sweet and nonsweet carbohydrate solutions
Sclafani A, Rinaman L, Vollmer RR, Amico JA. Oxytocin knockout mice demonstrate enhanced intake of sweet and nonsweet carbohydrate solutions. Am J Physiol Regul Integr Comp Physiol 292: R1828-R1833, 2007. First published February 1, 2007; doi:10.1152/ajpregu.00826.2006.-Oxytocin knockout (OT KO) mice display enhanced intake of nutritive and nonnutritive sweet solutions (i.e., sucrose and saccharin) compared with wild-type (WT) mice of the same C57BL/6 background strain. The present study further investigated the differential behavioral response of OT KO and WT mice to sucrose solutions and also examined intake preferences of OT KO and WT mice for palatable but nonsweet isocaloric solutions of carbohydrate and fat. A progressive ratio operant licking procedure demonstrated that OT KO and WT mice display a similar motivational drive to consume 10% sucrose. A series of two-bottle intake tests revealed that OT KO mice consume significantly larger amounts of both sweet and nonsweet carbohydrate solutions (i.e., sucrose, Polycose, and cornstarch) compared with WT cohorts. Intake pattern analyses revealed that OT KO mice overconsume carbohydrate solutions by initiating more drinking bouts compared with WT mice; bout sizes did not differ between the genotypes. In contrast, OT KO and WT mice did not differ in their intake of Intralipid, a palatable soybean oil emulsion. These findings indicate that the absence of OT in mice does not affect their appetitive drive to consume palatable sucrose solutions. Instead, the absence of OT may increase daily intake of palatable sweet and nonsweet solutions of carbohydrate (but not fat) by selectively blunting or masking processes that contribute to postingestive satiety. ingestive behavior; sucrose; Polycose; cornstarch; lipid; operant licking WE PREVIOUSLY REPORTED THAT oxytocin (OT) signaling pathways modulate intake of sweet solutions in mice. Compared with wild-type (WT) mice of the same C57BL/6 background strain, male and female OT gene knockout (OT KO) mice consume larger volumes of sucrose or saccharin solutions during initial and sustained exposure (3, 6). WT mice reach a plateau in daily sucrose or saccharin intake that is less than 50% of the daily intakes by OT KO mice (3, 6). Thus, the genetic absence of OT in male and female mice enhances their daily consumption of caloric and noncaloric sweet solutions. Despite their differential intake of sweet solutions, age-and sex-matched OT KO and WT mice have similar body weights and display similar hourly and cumulative daily food (i.e., mouse chow) and water intake during basal conditions (14). OT KO and WT mice also display similar water intake after overnight water deprivation (2), and similar food intake after an overnight fast with water available ad libitum (14). Given the apparent lack of effect of OT gene deletion on chow or water intake under basal conditions or after overnight food deprivation, the sustained excessive intake of sweetened water by male and female OT KO mice is striking.The first part of the present st...
. Enhanced initial and sustained intake of sucrose solution in mice with an oxytocin gene deletion. Am J Physiol Regul Integr Comp Physiol 289: R1798 -R1806, 2005. First published September 8, 2005 doi:10.1152/ajpregu.00558.2005.-Laboratory mice drink little sucrose solution on initial exposure, but later develop a strong preference for sucrose over water that plateaus after a few days. Both the initial neophobia and later plateau of sucrose intake may involve central oxytocin (OT) signaling pathways. If so, then mice that lack the gene for OT [OT knockout (KO)] should exhibit enhanced initial and sustained sucrose intake compared with wild-type (WT) cohorts. To test this hypothesis, female OT KO and WT mice (11-13 mo old) were given a two-bottle choice between 10% sucrose and water available ad libitum for 4 days. On the first day, sucrose intake was 20-fold greater in OT KO mice compared with WT cohorts. The avid sucrose consumption by OT KO mice increased further on day 2 and was sustained at significantly higher levels than intake by WT mice. Enhanced initial and sustained sucrose intake also was observed in 5-to 7-mo-old male OT KO mice. The effect of genotype was observed over a range of sucrose concentrations and was maintained over at least 8 days of continual exposure. However, there was no effect of genotype on daily intake of sucroseenriched powdered chow. These findings indicate that the genetic absence of OT in mice is associated with enhanced initial and sustained intake of sucrose solutions. Thus central OT pathways may normally participate in limiting initial intake of novel ingesta and may also participate in limiting intake of sweet, highly palatable familiar ingesta.sugar; palatability; overeating; satiety RESULTS FROM STUDIES USING rats and mice support the view that oxytocin (OT) acts centrally to inhibit intake of food and other solutes (i.e., sodium chloride, NaCl, solution) under certain experimental conditions. For example, fasting-induced food intake is suppressed after central infusion of synthetic OT in rats (3, 27), and OT receptor blockade reduces the anorexic response to systemically administered hypertonic saline or to centrally infused corticotropin-releasing factor (26, 28, 39 -43). Similarly, dehydration anorexia is markedly attenuated in mice with an OT gene deletion [OT knockout (KO)] (36), and OT KO mice consume more NaCl solution than wild-type (WT) mice after overnight fluid deprivation (2) or after exposure to mild environmental stress (34). However, WT and OT KO mice ingest similar amounts of standard chow under ad libitum baseline conditions, after overnight food deprivation when drinking water is available, and after systemic administration of either cholecystokinin octapeptide or D-fenfluramine (18,36). These findings indicate that neurochemical systems other than OT are sufficient to limit or suppress food intake in mice under such conditions. OT neurons are activated by a variety of stressful and anxiogenic stimuli in rats (9,13,21,22,24,44,45) and mice (1,20,25)....
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