Autistic Traits Affect P300 Response to Unexpected Events, regardless of Mental State Inferences

Limited use of contextual information has been suggested as a way of understanding cognition in people with autism spectrum disorder (ASD). However, it has also been argued that individuals with ASD may have difficulties inferring others’ mental states. Here, we examined how individuals with different levels of autistic traits respond to contextual deviations by measuring event-related potentials that reflect context usage. The Autism Spectrum Quotient (AQ) was used to quantify autistic-like traits in 28 university students, and 19 participants were defined as Low or High AQ groups. To additionally examine inferences about mental state, two belief conditions (with or without false belief) were included. Participants read short stories in which the final sentence included either an expected or an unexpected word and rated the word’s degree of deviation from expectation. P300 waveform analysis revealed that unexpected words were associated with larger P300 waveforms for the Low AQ group, but smaller P300 responses in the High AQ group. Additionally, AQ social skill subscores were positively correlated with evaluation times in the Unexpected condition, whether a character’s belief was false or not. This suggests that autistic traits can affect responses to unexpected events, possibly because of decreased availability of context information

Ultrastructural Study of Human Adrenal Cortical Hyperplasia in Cushing's Syndrome.

Light and electron microscopic changes of hyperplastic adrenal cortices from two patients with Cushing's syndrome were reported. The ultrastructural findings were characterized by the increase of lipid inclusions, a large number of intochondria, vacuoles in mitochondria and also the increase of sER in some cells. Observations of the intramitochondrial vasuoles support the view that steriod sythesis may take place within the mitochondria, but their biological significance still remains to be elucidated

The proximal C-terminus of α1C subunits is necessary for junctional membrane targeting of cardiac L-type calcium channels

In cardiac myocytes, LTCCs (L-type calcium channels) form a functional signalling complex with ryanodine receptors at the JM (junctional membrane). Although the specific localization of LTCCs to the JM is critical for excitation-contraction coupling. their targeting mechanism is unclear. Transient transfection of GFP (green fluorescent protein)-alpha(1S) or GFP-alpha(1C) but not P/Q-type calcium channel alpha(1A), in dysgenic (alpha(1S)-null) GLT myotubes results in correct targeting of these LTCCs to the JMs and restoration of action-potential-induced Ca2+ transients. To identify the sequences of alpha(1C) responsible for JM targeting, we generated a range of alpha(1C)-alpha(1A) chimaeras, deletion mutants and alanine substitution mutants and studied their targeting properties in GLT myotubes. The results revealed that amino acids L-1681 QAGLRTL(1688) and P(1693)EIRRAIS(1700), predicted to form two adjacent alpha-helices in the proximal C-terminus, are necessary for the JM targeting of alpha(1C). The efficiency of restoration of action-potential-induced Ca2+ transients in GLT myotubes was significantly decreased by mutations in the targeting motif. JM targeting was not disrupted by the distal C-terminus of alpha(1C) which binds to the second alpha-helix. Therefore we have identified a new structural motif in the C-terminus of alpha(1C) that mediates the targeting of cardiac LTCCs to JMs independently of the interaction between proximal and distal C-termini of alpha(1C).ArticleBIOCHEMICAL JOURNAL. 448:221-231 (2012)journal articl