Focal adhesion kinase (FAK) associates with both integrins and growth factor receptors in the control of cell motility and survival. Loss of FAK during mouse development results in lethality at embryonic day 8.5 (E8.5) and a block in cell proliferation. Because FAK serves as both a scaffold and signaling protein, gene knock-outs do not provide mechanistic insights in distinguishing between these modes of FAK function. To determine the role of FAK activity during development, a knock-in point mutation (lysine 454 to arginine (R454)) within the catalytic domain was introduced by homologous recombination. Homozygous FAK R454/R454 mutation was lethal at E9.5 with defects in blood vessel formation as determined by lack of yolk sac primary capillary plexus formation and disorganized endothelial cell patterning in FAK R454/R454 embryos. In contrast to the inability of embryonic FAK ؊/؊ cells to proliferate ex vivo, primary FAK R454/R454 mouse embryo fibroblasts (MEFs) were established from E8.5 embryos. R454 MEFs exhibited no difference in cell growth compared with normal MEFs, and R454 FAK localized to focal adhesions but was not phosphorylated at Tyr-397. In E8.5 embryos and primary MEFs, FAK R454 mutation resulted in decreased c-Src Tyr-416 phosphorylation. R454 MEFs exhibited enhanced focal adhesion formation, decreased migration, and defects in cell polarity. Within immortalized MEFs, FAK activity was required for fibronectin-stimulated FAK-p190RhoGAP association and p190RhoGAP tyrosine phosphorylation linked to decreased RhoA GTPase activity, focal adhesion turnover, and directional motility. Our results establish that intrinsic FAK activity is essential for developmental processes controlling blood vessel formation and cell motility-polarity but not cell proliferation. This work supports the use of FAK inhibitors to disrupt neovascularization.
Hyperbaric oxygen therapy (HBOT) has been used to treat individuals with autism. However, few studies of its effectiveness have been completed. The current study examined the effects of 40 HBOT sessions at 24% oxygen at 1.3 ATA on 11 topographies of directly observed behavior. Five replications of multiple baselines were completed across a total of 16 participants with autism spectrum disorders. No consistent effects were observed across any group or within any individual participant, demonstrating that HBOT was not an effective treatment for the participants in this study. This study represents the first relatively large-scale controlled study evaluating the effects of HBOT at the level of the individual participant, on a wide array of behaviors.
R&D investment can reduce costs through efficient production technology, which has a positive (+) impact on future performance. On the other hand, R&D investment has uncertainty due to characteristics such as time lag, high cost and non-appropriability. We examine whether the effects of R&D expenditures on future performance and earnings uncertainty are different according to firm life cycle, which reflects the differences in the environment, circumstances, and strategy of the firm. Investors assess sustainable growth potential of the enterprise in the capital market, reflecting the future performance and the uncertainty of the firm. This implies that R&D investment can affect the capital market through investors’ future expectations for sustainable growth of the company. We also examine the differential effects of R&D expenditures on market response by the firm life cycle. The test results show that firm life cycle differentially affects the relation between R&D expenditures and future performance and uncertainty. Further, the market response varies over the firm life cycle. Our results provide suggestions that R&D investments should be made properly considering the environment and circumstances of the firm. The finding that R&D expenditures differently affect future performance, uncertainty, and sustainable growth potential according to the firm life cycle is expected to help managers make decisions about R&D investment.
This review discusses the laboratory and clinical research supporting the rationale for the efficacy of donepezil (Aricept USA) in enhancing cognition in autism, Alzheimer disease, Down syndrome, traumatic brain injury, Attention Deficit Hyperactivity Disorder (ADHD), and schizophrenia. While preliminary animal models have shown effective, human studies exclusive of Alzheimer disease are sparse. Although attention and memory are unlikely a sole operation of the cholinergic system, evidence indicates a promising direction for further examination of this hypothesis in autism. Studies that examine changes in operationally defined behaviors and reliable and valid measure of changes in attention and memory are needed.
Until recently, there was not a plethora of knowledge about the neurobiological substrates of social behavior, pragmatic language usage and repetitive and/or restricted behaviors. Therefore, drug discovery has used the tools available for other neuropsychiatric disorders. Now that more biological information is available, there are many avenues for research for drug targets for ASD.
Effects of two doses of risperidone on the performance of a matching task under tangible reinforcement and nonreinforcement conditions were measured in a woman with mental retardation. In both conditions, time to complete the task increased and response rates decreased under two doses of risperidone. Accuracy was generally unchanged. These changes were much smaller in the tangible reinforcement condition; thus, reinforcement seemed to protect performance from the rate-decreasing effects of risperidone.
Purpose/Background
Individuals with autism spectrum disorders present with social communication deficits and a rigid adherence to sameness. Along with these symptoms, many individuals also present with severe challenging behaviors that place themselves as well as their families and communities at risk for injury. For these individuals, new and effective treatments are acutely needed. Propranolol has been used worldwide for over 50 years. Its primary indication is for hypertension, but there is evidence that, at higher doses, propranolol inhibits rage and anger through its effects on the central nervous system. This effect has been demonstrated in a variety of neuropsychiatric disorders.
Methods/Procedures
Here, we present 46 retrospective analyses of clinical cases that were followed by a psychiatrist. Propranolol was prescribed as an add-on to the patients' existing medications. The doses ranged from 120 to 960 mg per day (mean = 462 mg).
Findings/Results
Thirty-nine (85%) of 46 patients were found to be much improved or very much improved on the physician-rated Clinical Global Impression Improvement scale. There were few side effects noted, with only 2 subjects unable to tolerate the propranolol.
Implications/Conclusions
It appears that high-dose propranolol can be given safely with minimal adverse cardiovascular problems, provided that close clinical monitoring is maintained. A more rigorous clinical trial is needed to elucidate and verify its clinical utility, clinical practice parameters, and the effects of propranolol as a monotherapy versus as an add-on to the patient's existing medication regimen.
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