Unusual brain growth patterns in early life in patients with autistic disorder: an MRI study.

OBJECTIVE: To quantify developmental abnormalities in cerebral and cerebellar volume in autism. METHODS: The authors studied 60 autistic and 52 normal boys (age, 2 to 16 years) using MRI. Thirty autistic boys were diagnosed and scanned when 5 years or older. The other 30 were scanned when 2 through 4 years of age and then diagnosed with autism at least 2.5 years later, at an age when the diagnosis of autism is more reliable. RESULTS: Neonatal head circumferences from clinical records were available for 14 of 15 autistic 2- to 5-year-olds and, on average, were normal (35.1 +/- 1.3 cm versus clinical norms: 34.6 +/- 1.6 cm), indicative of normal overall brain volume at birth; one measure was above the 95th percentile. By ages 2 to 4 years, 90% of autistic boys had a brain volume larger than normal average, and 37% met criteria for developmental macrencephaly. Autistic 2- to 3-year-olds had more cerebral (18%) and cerebellar (39%) white matter, and more cerebral cortical gray matter (12%) than normal, whereas older autistic children and adolescents did not have such enlarged gray and white matter volumes. In the cerebellum, autistic boys had less gray matter, smaller ratio of gray to white matter, and smaller vermis lobules VI-VII than normal controls. CONCLUSIONS: Abnormal regulation of brain growth in autism results in early overgrowth followed by abnormally slowed growth. Hyperplasia was present in cerebral gray matter and cerebral and cerebellar white matter in early life in patients with autism.

Germ cell biology--from generation to generation.

Germ cells hold a unique place in the life cycle of animal species in that they are the cells that will carry the genome on to the next generation. In order to do this they must retain their DNA in a state in which it can be used to recapitulate embryonic development. In the normal life cycle, the germ cells are the only cells that retain this ability to recapitulate development, referred to as developmental totipotency. The molecular mechanisms regulating developmental potency are poorly understood. Recently its has been shown that germ cells can be turned into pluripotent stem cells when cultured in specific polypeptide growth factors that affect their survival and proliferation. The ability to manipulate developmental potency in germ cells with growth factors allows the underlying mechanisms to be dissected. Germ cells are also the only cells that undergo the unique reductive division of meiosis. This too is essential for the ability of germ cells to form the gametes that will carry the genome into the next generation. Arguably meiosis is the most important division in the life of a nascent organism. Defects in meiosis can result in embryonic or fetal loss or, if the animal survives, in the birth of an individual with chromosomal abnormalities. Recent advances in our understanding of meiosis have come from knockout mice and studies on genes identified through studies of human infertility. This review will focus on these two key aspects of germ cell biology, developmental potency and meiosis.

Protein kinase C isoform expression and activity alter paclitaxel resistance in vitro.

OBJECTIVE: The aim of this study was to assess the relationship of protein kinase C (PKC) isoform expression and functional activity to the development of multidrug resistance in gynecologic malignancies. METHODS: Paclitaxel-resistant subclones (T30 and T30-Res) of the Mes-sa human uterine sarcoma cell line were selected through exposure to paclitaxel in vitro. Indices of relative drug resistance were determined by the MTT (3-[4,5-dimethyl-2-thiazolyl]-2, 5-diphenyl-2H-tetrazolium bromide) assay. Differences in the expression pattern of PKC isoforms were assessed by Western blot of cell lysates. Finally, the influence of PKC activity (i.e., translocation to the plasma membrane, confirmed by Western blot of plasma membrane bound protein) on resistance to paclitaxel was examined with the MTT assay in cells preincubated with PMA. RESULTS: The indices of relative paclitaxel resistance of Mes-sa, Mes-sa-T30, and Mes-sa-T30-Res were 1-, 5-, and 11-fold, respectively. Five (alpha, gamma, iota, lambda, and mu) of the 11 known PKC isoforms were detected in all cell lysates. Only PKC-alpha and PKC-gamma expression increased with increasing indices of paclitaxel resistance. Interestingly, PMA induction of PKC activity reversed resistance to paclitaxel in all cell lines by 2- to 3-fold, and this reversal of drug resistance was associated with a time-dependent translocation of PKC-alpha and PKC-gamma to the plasma membrane compartment. CONCLUSIONS: Increased expression of only the PKC-alpha and PKC-gamma isoforms correlates with increasing levels of paclitaxel resistance in Mes-sa cells in this in vitro experimental model. However, increased functional activity of these and other PKC isoforms leads to reversal in paclitaxel resistance. Therefore, PKC activating mechanisms normally present in primary tumor cells may be compromised in drug-resistant clones.

Inhibition of CCAAT/enhancer-binding protein alpha and beta translation by upstream open reading frames.

CCAAT/enhancer-binding protein (C/EBP) alpha is a bZIP transcription factor whose expression is restricted to specific cell types. Analysis of C/EBPalpha mRNA and protein levels in various mammalian cells indicates that expression of this gene is controlled both transcriptionally and post-transcriptionally. We report here that C/EBPalpha translation is repressed in several cell lines by an evolutionarily conserved upstream open reading frame (uORF), which acts in cis to inhibit C/EBPalpha translation. Mutations that disrupt the uORF completely abolished translational repression of C/EBPalpha. The related c/ebpbeta gene also contains an uORF that suppresses translation. The length of the spacer sequence between the uORF terminator and the ORF initiator codon (7 bases in all c/ebpalpha genes and 4 bases in c/ebpbeta homologs) is precisely conserved. The effects of insertions, deletions, and base substitutions in the C/EBPalpha spacer showed that both the length and nucleotide sequence of the spacer are important for efficient translational repression. Our data indicate that the uORFs regulate translation of full-length C/EBPalpha and C/EBPbeta and do not play a role in generating truncated forms of these proteins, as has been suggested by start site multiplicity models.

Neuropsychological and neurophysiological indices of auditory processing impairment in children with multiple complex developmental disorder.

OBJECTIVE: To evaluate whether children with borderline disorder (also referred to as multiple complex developmental disorder) (BD/MCDD) and comorbid attention-deficit hyperactivity disorder (ADHD) demonstrate evidence of abnormal attention and/or auditory processing impairments as indexed by both behavioral and physiological measures. METHOD: Three groups of children were compared in two different experiments on behavioral rating scales (Conners Parent Rating Scale and Child Behavior Checklist), behavioral accuracy to auditory and visual target detection tasks, selected neuropsychological tests, and brain physiology (event-related potentials) collected during auditory and visual target detection tasks. RESULTS: The results demonstrate that children with BD/MCDD differ from children with ADHD in the (1) prevalence of internalizing and externalizing behaviors, (2) neuropsychological deficits related to auditory processing, and (3) event-related potential brain physiology associated with auditory cognitive target attention tasks. CONCLUSION: Some of the pervasive pathology described in children with BD/MCDD may be due to biological vulnerabilities, particularly problems with auditory processing. Auditory processing impairments in such children deserves special attention with respect to both understanding their behavioral symptoms and developing a comprehensive treatment plan.

Neurologic abnormalities in infantile autism.

Neuroanatomic, pathologic, and neurobehavioral studies point to a cerebellar and parietal abnormality in autism. We used a standardized protocol to examine neurologic function in 28 pediatric autistic subjects and 24 pediatric normal healthy volunteer controls. As a group, the autistic subjects had quantitative measures from magnetic resonance imaging suggesting hypoplasia or hyperplasia of the cerebellar vermis, as well as measurements of posterior corpus callosum suggesting abnormalities of posterior cortex. In groups of tests that reflect cerebellar and parietal function, the neurologic abnormalities detectable by clinical examination were significantly greater for autistic subjects than for normal controls. These studies confirm that the structural and behavioral deficit in autism does lead to abnormalities that can be detected on the clinical neurologic examination.

High yield purification of a four subunit caa3-type cytochrome oxidase from the thermophilic bacterium Bacillus PS3 using fast protein liquid chromatography.

The thermophilic bacterium, Bacillus PS3, was grown in a vigorously aerated nutrient broth at 65 degrees C with 100 mM glutamic acid serving as a supplemental carbon and nitrogen source. These growth conditions resulted in membranes highly enriched in cytochrome c oxidase (COX) [23.32 +/- 4.32 nmol heme a/g of cells (n = 5)], which is nearly a threefold higher concentration of COX (heme caa3-type) than previously reported for this organism. A new high-yield purification of COX was performed by extracting the bacterial membranes with Triton X-100 (7 mg/mg protein), followed by ion-exchange fast liquid protein chromatography using a QAE (trimethyl ammonium) resin with subsequent hydroxyapatite chromatography and ammonium sulfate fractionation. This purification regime resulted in a 16% yield of cytochrome c oxidase with 20 mg of pure caa3-type COX (13 nmol heme a/mg protein) isolated from 100 g of cells. SDS-PAGE showed that the isolated enzyme had four subunits with apparent Mr of 68, 38, 23, and 13 kDa. In addition, a new 34-kDa peptide was also detected in this preparation, which may represent the ORF1 gene product for this organism. Subunit II (Mr = 38 kDa) of the isolated enzyme was shown to contain covalently bound heme c by using both heme-staining of SDS-PAGE and immunoreactivity with an anti-cytochrome c antibody. The purified enzyme also exhibited high electron transfer activity (340s-1) when assayed at pH 6.5 in the presence of the nonionic detergent, beta-dodecyl maltoside.

Sensory modulation of auditory stimuli in children with autism and receptive developmental language disorder: event-related brain potential evidence.

Three groups of age- and PIQ-matched children (Autism, Receptive Developmental Language Disorder, and normal controls) participated in two event-related brain potential (ERP) experiments. Each of these experiments was aimed at evaluating whether either of the two clinical groups of children demonstrated abnormalities in two auditory ERP components, N1 and P2, which are known to be dependent on stimulus characteristics (frequency, intensity, and probability), and believed to be generated within primary and secondary cortex. Results of Experiment 1 provide partial support for the idea that both clinical groups failed to fully process changes in stimulus intensity as indexed by the N1 component. Results are discussed in reference to potential abnormalities in serotonergic regulation of auditory cortex.

Cross-sectional area of the posterior hippocampus in autistic patients with cerebellar and corpus callosum abnormalities.

Using MRI methods previously shown to optimize visualization of cytoarchitectonic details in the body of the hippocampal formation caudal to the pes hippocampi, we imaged and quantified the hippocampus proper including the subiculum and the dentate gyrus in 33 autistic patients between the ages of 6 and 42 years and in 23 age-matched normal healthy volunteers. Measures of these structures in autistic patients and normal healthy volunteers differed nonsignificantly, by less than 1.4%, regardless of whether or not the autistic patients were retarded or had a history of seizure episodes. By contrast, measures of vermian lobules VI and VII and the posterior portion of the corpus callosum in these same autistic and normal volunteers differed significantly, by more than 9.9%. The lack of a significant difference in the cross-sectional size of the posterior hippocampal formation between autistic and normal 6- to 42-year-olds is discrepant with predictions based on some, but not all, autopsy studies. This suggests that there is a need for additional quantitative autopsy study of the hippocampal formation and quantitative MRI study of rostral hippocampal regions that we did not explore in the present report. Also, quantitative autopsy and MRI studies have yet to examine hippocampal development in autistic patients younger than 6 years of age; whether early stages of growth are normal or not is unknown.

Impairment in shifting attention in autistic and cerebellar patients.

MRI and autopsy evidence of early maldevelopment of cerebellar vermis and hemispheres in autism raise the question of how cerebellar maldevelopment contributes to the cognitive and social deficits characteristic of autism. Compared with normal controls, autistic patients and patients with acquired cerebellar lesions were similarly impaired in a task requiring rapid and accurate shifts of attention between auditory and visual stimuli. Neurophysiologic and behavioral evidence rules out motor dysfunction as the cause of this deficit. These findings are consistent with the proposal that in autism cerebellar maldevelopment may contribute to an inability to execute rapid attention shifts, which in turn undermines social and cognitive development, and also with the proposal that the human cerebellum is involved in the coordination of rapid attention shifts in a fashion analogous to its role in the coordination of movement.

Abnormality of cerebellar vermian lobules VI and VII in patients with infantile autism: identification of hypoplastic and hyperplastic subgroups with MR imaging.

OBJECTIVE: Infantile autism is a neurobehavioral disorder that is widely believed to have etiologically distinct subtypes, including subtypes with a genetic basis, but no neuroanatomic evidence firmly supports this belief. To date, only one type of cerebellar abnormality has been identified in patients with autism: hypoplasia of the vermis and hemispheres. By using a large sample of autistic patients and healthy volunteers along with precise MR imaging and quantitative procedures, we sought to replicate previous reports of cerebellar vermian hypoplasia in autism and to identify additional subtypes of cerebellar abnormality. MATERIALS AND METHODS: Using MR technology, we imaged and measured posterior and anterior vermian regions in 50 autistic patients (2-40 years old) and 53 healthy control subjects (3-37 years old). The autistic patients had social, language, cognitive, behavioral, and medical history characteristics that were typical of the general autistic population. By using precise procedures for positioning and aligning MR slices, we obtained comparable MR images within and across subject groups. RESULTS: Statistical analyses showed two subgroups of autistic patients, one (86% of the patients) with findings consistent with vermian hypoplasia and another (12% of the patients) with evidence of vermian hyperplasia. The hypoplasia subgroup included 43 patients whose mean midsagittal area for vermian lobules VI and VII was 237 +/- 38 mm2, and the hyperplasia subgroup included six patients whose mean area was 377 +/- 12 mm2. Thus, the area of lobules VI and VII in the hypoplasia subgroup was 16% smaller than the mean area in the control subjects (282 +/- 42 mm2) (p < .0001), whereas that in the hyperplasia subgroup was 34% larger (p < .0001). Analyses showed that these two subtypes of vermian abnormalities were present across all ages of autistic patients studied. CONCLUSION: Two different subtypes of autistic patients can be identified on the basis of the presence of vermian hypoplasia or hyperplasia as seen on MR images. Possible origins for vermian hypoplasia include environmental trauma and genetic factors.

Contextual probability evaluation in autistic, receptive developmental language disorder, and control children: event-related brain potential evidence.

Compared 8- to 14-year-old children with either autism or receptive developmental language disorder (RDLD) to age- and IQ-matched normal controls in their ability to detect both frequent (p = .70) and infrequent (p = .30) randomly presented auditory stimuli under task and no-task conditions. Event-related brain potentials (ERPs), behavioral reaction times, and target detection accuracy rates were measured. Although the three groups of children performed in a similar manner on behavioral measures, only the children with autism demonstrated an abnormally small amplitude of the P3b, a component of the ERP. This result is interpreted in terms of (a) the consistency of this finding with other ERP studies involving older individuals with autism; and (b) its significance with respect to the difficulty children with autism have in modifying their expectancies to contextually relevant sequences of auditory information.

Sequential and simultaneous processing abilities of high-functioning autistic and language-impaired children.

Investigated the Sequential and Simultaneous processing distinctions of high-functioning autistic children and children with a developmental receptive language disorder (DRLD). Twenty autistic subjects and 20 DRLD subjects were matched on age and gender, and compared to each other on their Sequential and Simultaneous processing abilities utilizing the K-ABC and selected subtests of the WISC-R. Results showed that both groups manifested a relative sequential processing deficit. However, the groups did not differ significantly on their overall sequential and simultaneous processing capabilities relative to their degree of language impairment. The application of the sequential and simultaneous processing model to the WISC-R provided consistent convergent and discriminant validation for the assessment of these processes with the WISC-R.

Chemical labeling studies on bovine heart mitochondrial cytochrome c oxidase dispersed in nonionic detergents.

In order to investigate the structural interactions of nonionic detergents with bovine heart mitochondrial cytochrome c oxidase (COX), a series of hydrophilic chemical modification reagents were used to map regions on COX which are not shielded by dodecyl beta-D-maltoside (DM), Triton X-100 (TX-100), and Tween 80 (TW-80). Low levels of incorporation of the chemical reagents [35S]benzenediazoniumsulfonate (DABS) and N-succinimidyl [3H]propionate (SP) into COX dispersed in TW-80 indicate that the bulky headgroup and hydrophobic moiety of this detergent effectively shield the enzyme from the aqueous environment. Subunits II and Va/Vb [nomenclature of Merle, P., & Kadenbach, B. (1982) Eur. J. Biochem. 125, 239-244] show an increased reactivity to [35S]DABS and [3H]SP in TW-80 and may reflect an increased exposure of these subunits to the aqueous phase in comparison to COX dispersed in TX-100 or DM. More [35S]DABS is incorporated into COX in DM than TX-100-dispersed enzyme; DABS heavily labels subunits III, VIa, and VIb in DM. While COX in TX-100 is more reactive with [3H]SP than DM-dispersed enzyme, there is no difference in the distribution of label (either DABS or SP) within the subunits of COX in DM or TX-100. Increased surface exposure of COX in TX-100 is indicated by an enhanced sensitivity of COX electron-transfer activity in enzyme chemically modified by the cross-linking reagent N-succinimidyl 3-[(4-azidophenyl)dithio]propionate (SADP) in TX-100 as compared to enzyme chemically cross-linked in the other detergents.(ABSTRACT TRUNCATED AT 250 WORDS)

Pathophysiologic findings in nonretarded autism and receptive developmental language disorder.

In nonretarded autistic, receptive developmental language disordered, and normal subject groups, we recorded in auditory and visual target detection tasks two neurophysiological components of the event-related brain potential, Nc and P3b. Existent research shows that, in normals, Nc and P3b appear early in development, are associated with attention and memory processes, and are endogenous which means that they are triggered by internal, consciously initiated attentional and cognitive mechanisms and that they can be triggered even by the omission of sensory stimulation so long as it has meaning or importance for the subject. In this report, Nc and P3b were recorded in response to auditory and visual stimulation and to the omission of auditory and visual stimulation. Consistent with the hypothesis that non-retarded autism involves abnormal attentional and cognitive responses to important information, P3b was found to be smaller than normal and Nc was small and often absent in the nonretarded autistic group even under the condition when no auditory language or sensory processing was required. Receptive developmental language disorder has been linked with difficulties in processing sequences of auditory stimuli, and in this study P3b was found to be somewhat enlarged in this group even under the conditions when P3b was elicited by stimuli separated by 1 sec and also when P3b was elicited by the omission of stimulation.

A study of intellectual abilities in high-functioning people with autism.

This research extends previous research regarding the intellectual functioning of autistic individuals on standardized measures of intelligence (Wechsler Adult Intelligence Scale-Revised and the Wechsler Intelligence Scale for Children-Revised). In Study I 33 individuals with autism who closely fit the DSM-III criteria were studied. Clear evidence was found that differentiates these individuals' verbal intellectual processes from their visual-motor intellectual abilities. Principal components analysis was used to examine the interrelationship among the various intellectual abilities which such tests of intelligence measure. In Study II the intellectual abilities of a group of autistic 8- to 12-year-olds were compared to age-matched groups of children with receptive developmental language disorder, dysthymic disorder, or oppositional disorder. The intellectual abilities of autistic children were significantly different from the other groups of children.