Neural systems for auditory perception of lexical tones

Previous neuroimaging research on cognitive processing of speech tone has generated dramatically different patterns of findings. Even at the basic perception level, brain mapping studies of lexical tones have yielded inconsistent results. Apart from the data inconsistency problem, experimental materials in past studies of tone perception carried little or minimal lexical semantics, an important dimension that should not be dispensed with because speech tones serve to distinguish lexical meanings. The present study sought to examine the neural correlates of the perception of speech tone using lexically meaningful experimental stimuli. A simple lexical tone perception task was devised in which native Mandarin speakers were asked to judge whether or not the two syllables of an auditorily presented Chinese bisyllabic word had the same tone. We selected bisyllabic words as experimental stimuli because Chinese monosyllables often convey little or very vague meanings due to rampant homophony. We found that the left inferior frontal gyrus, the right middle temporal gyrus and bilateral superior temporal gyri are responsible for basic perception of linguistic pitches. Our interpretation of the data sees the left superior temporal gyrus as engaged in primary acoustic analysis of the auditory stimuli, while the right middle superior temporal gyrus and the left inferior frontal region are involved in both tonal and semantic processing of the language stimuli.postprin

Learning new lexical categories induced changes in gray matter in adult human brain

Conference Theme: Technological Developments of fMRI: Data Acquisition and Image AnalysisThe human brain has been shown to exhibit changes in the volume and density of gray matter as a result of training over periods of several weeks or longer. We show that these changes can be induced much faster by using a training method that is claimed to simulate the rapid learning of word meanings by children. Here, we use whole-brain magnetic resonance imaging (MRI) to measure subjects’ brain structure before and after earning newly defined and named subcategories of the universal categories green and blue. Gray matter density is found to increase in color regions of the left visual cortex after a short-term training (around 2 hours). This pattern of findings demonstrates structural plasticity of the human brain, specifically during the acquisition of new, named categories. Also, prior behavioral and neuroimaging research has shown that differences between languages in the boundaries of named color categories influence the categorical perception of color, as assessed by judgments of relative similarity, by response time in alternative forced-choice tasks, and by visual search. Moreover, further behavioral studies (visual search) and brain imaging studies have suggested strongly that the categorical effect of language on color processing is left-lateralized, i.e., mediated by activity in the left cerebral hemisphere in adults (hence “lateralized Whorfian” effects). The present results appear to provide a structural basis in the brain for the behavioral and neurophysiologically observed indices of these Whorfian effects on color processing

Adenovirus-mediated down-regulation of X-linked inhibitor of apoptosis protein inhibits colon cancer

Our previous studies and those of others have indicated that X-linked inhibitor of apoptosis protein (XIAP) holds promise as a target gene in colon cancer gene therapy. In this study, we constructed an adenoviral vector to deliver small hairpin RNA (shRNA) against XIAP (XIAP-shRNA) into colon cancer cells and tested its therapeutic efficacy in vitro and in vivo. We first confirmed an overexpression of XIAP in colon cancer cells and human cancer tissues. We then designed XIAP-small interfering RNA (siRNA) and confirmed the knockdown effect of these siRNAs in colon cancer cells. The sequences of the effective siRNAs were converted into shRNA and then packed into replication-deficient adenoviral vectors using BLOCK-iT Adenoviral RNAi Expression System to generate Adv-XIAP-shRNA. Infection of HT29 and HCT116 cells with Adv-XIAP-shRNA led to enhanced caspase-3 activity, which was associated with increased apoptosis and reduced cell proliferation. The therapeutic effect of Adv-XIAP-shRNA was then tested in xenograft tumors in nude mice.We showed that treatment of the xenograft tumors derived from HCT116 cells with Adv-XIAP-shRNA resulted in a retardation of tumor growth, which was associated with enhanced apoptosis, increased caspase-3 activity, and reduced expression of proliferating cell nuclear antigen in the tumor tissues. Treatment of xenograft tumors with Adv-XIAP-shRNA did not affect the expressions of inflammatory cytokines in tumor-bearing mice. Thus, Adv-XIAP-shRNA-mediated down-regulation of XIAP exerts a therapeutic effect in colon cancer by promoting apoptosis and inhibiting proliferation of colon cancer cells, and the antitumor effect of Adv-XIAP-shRNA was unlikely to be related to virus-induced immune response. Copyright © 2009 American Association for Cancer Research.link_to_OA_fulltex