Rationale-Whereas co-use of alcohol and marijuana is prevalent in adolescents, the effects of such drug co-exposure on ingestive and cognitive behaviors remain largely unexplored. We hypothesized that co-exposure to alcohol and Δ 9-tetrahydrocannabinol (THC), the main psychoactive constitute of marijuana, alters feeding behavior and cognition differently from either drug alone. Methods-Male rats received daily THC (3-20 mg/kg/day) or oil vehicle through subcutaneous injection or consumption of a cookie with access to saccharin or saccharin-sweetened alcohol during adolescence (P30-45). Barnes maze and sucrose preference tests were applied to assess spatial memory and behavioral flexibility and abstinence-related anhedonia, respectively. Results-Subcutaneous THC did not affect alcohol intake, but dose-dependently increased acute (3-h) chow intake and reduced weight gain. Moderate alcohol consumption reduced the acute hyperphagic effect of subcutaneous THC. By contrast, oral THC at a dose > 5 mg/kg robustly reduced alcohol intake without affecting 3-h chow intake. At this dose, some rats stopped consuming the THC-laced cookies. Furthermore, oral THC reduced weight gain, and co-exposure to alcohol alleviated this effect. Chronic subcutaneous, but not oral, THC reduced sucrose intake during abstinence. Neither treatment impaired cognitive behaviors in the Barnes maze. Conclusion-Moderate alcohol and THC consumption can interact to elicit unique outcomes on ingestive behaviors and energy balance. Importantly, this study established a novel model of voluntary alcohol and THC consumption for studying mechanisms underlying the consequences of adolescent onset co-use of the two drugs.
We report that alkyl-subsituted bisphosphonates have activity against Bacillus anthracis Sterne (0.40 µg/mL), Mycobacterium smegmatis (1.4 µg/mL), Bacillus subtilis (1.0 µg/mL) and Staphylococcus aureus (13 µg/mL). In many cases, there is no effect of serum binding, as well as low activity against a human embryonic kidney cell line. Targeting of isoprenoid biosynthesis is
Cannabis and alcohol co-use is common, and the trend may increase further given the current popularity of cannabis legalization. However, the metabolic consequences of such co-use are unclear. Here, we investigated how co-administration of alcohol and ∆
9
-tetrahydrocannabinol (THC), the main psychoactive constituent of cannabis, affects body weight and visceral adiposity, and glucose and insulin homeostasis in rats. For 16 consecutive days during adolescence, male rats drank saccharin or alcohol after receiving subcutaneous oil or THC injections in Experiment 1 and voluntarily consumed alcohol, THC edible, or both drugs in Experiment 2. Experiment 1 showed that following abstinence, drug co-exposure reduced visceral fat and the amount of insulin required to clear glucose during an oral glucose tolerance test (OGTT). In Experiment 2, rats received a high-fat diet (HFD) after 3-week abstinence. Although adolescent drug use did not interact with the HFD to worsen hyperglycemia and hyperinsulinemia during an OGTT, HFD-fed rats that co-used alcohol and THC had the lowest insulin levels 75 min after an insulin injection, suggesting an altered rate of insulin secretion and degradation. These results suggest that THC and alcohol co-exposure can distinctly alter the physiology of glucose and insulin homeostasis in a rodent model.
Lysyl oxidase (LOX) is a copper amine oxidase that cross-links collagens and elastin in connective tissue and plays an important role in fibrosis, cancer development, and formation of the "metastatic niche". Despite its important biological functions, the structure of human LOX remains unknown (unlike that of an unrelated LOX, from Pichia pastoris). Here, we expressed active LOX from Drosophila melanogaster, DmLOXL1, a close homologue of human LOX, and characterized it by MS, UV-vis, activity, and inhibition assays. We then used bioinformatics, electron paramagnetic resonance, electron spin-echo envelope modulation, and hyperfine sublevel-correlation (HYSCORE) spectroscopies to probe Cu-ligand bonding finding direct evidence for pH-dependent Cu-His interactions. At pH = 9.3, the spectroscopic data indicated primarily a single His bound to Cu, but at pH = 7.5, there was evidence for a ∼ 1:1 mixture of species containing 1 and 3 His ligands. We then used HYSCORE to probe possible interactions between the LOX inhibitor BAPN (β-aminopropionitrile; 1-[CN]cyano-2-aminoethane) and the copper center-finding none. Overall, the results are of interest since they provide new spectroscopic information about the nature of the catalytic site in LOX, an important anticancer drug target.
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