Egr2::cre mediated conditional ablation of dicer disrupts histogenesis of mammalian central auditory nuclei.

Histogenesis of the auditory system requires extensive molecular orchestration. Recently, Dicer1, an essential gene for generation of microRNAs, and miR-96 were shown to be important for development of the peripheral auditory system. Here, we investigated their role for the formation of the auditory brainstem. Egr2::Cre-mediated early embryonic ablation of Dicer1 caused severe disruption of auditory brainstem structures. In adult animals, the volume of the cochlear nucleus complex (CNC) was reduced by 73.5%. This decrease is in part attributed to the lack of the microneuronal shell. In contrast, fusiform cells, which similar to the granular cells of the microneural shell are derived from Egr2 positive cells, were still present. The volume reduction of the CNC was already present at birth (67.2% decrease). The superior olivary complex was also drastically affected in these mice. Nissl staining as well as Vglut1 and Calbindin 1 immunolabeling revealed that principal SOC nuclei such as the medial nucleus of the trapezoid body and the lateral superior olive were absent. Only choline acetyltransferase positive neurons of the olivocochlear bundle were observed as a densely packed cell group in the ventrolateral area of the SOC. Mid-embryonic ablation of Dicer1 in the ventral cochlear nucleus by Atoh7::Cre-mediated recombination resulted in normal formation of the cochlear nucleus complex, indicating an early embryonic requirement of Dicer1. Quantitative RT-PCR analysis of miR-96 demonstrated low expression in the embryonic brainstem and up-regulation thereafter, suggesting that other microRNAs are required for proper histogenesis of the auditory brainstem. Together our data identify a critical role of Dicer activity during embryonic development of the auditory brainstem.

TSEN54 mutations cause pontocerebellar hypoplasia type 5.

Pontocerebellar hypoplasia (PCH) is a group of autosomal recessive neurodegenerative disorders characterized by prenatal onset of stunted brain growth and progressive atrophy predominantly affecting cerebellum, pons and olivary nuclei, and to a lesser extent also the cerebral cortex. Six subtypes (PCH1-6) were described and genes for four types (PCH1, 2, 4 and 6) were identified. Mutations in the tRNA splicing endonuclease subunit (TSEN) genes 54, 2 and 34 are found in PCH2 and PCH4. One family with severe prenatal onset of PCH has been the only representative of PCH5 published so far, and the molecular genetic status of PCH5 has not been ascertained until now. We screened the previously reported PCH5 family for mutations in the TSEN54 gene. The PCH5 patient was found to be the result of compound heterozygosity for the common TSEN54 mutation (p.A307S) plus a novel splice site mutation. The mutations associated with PCH5 are similar to what has been reported in PCH4. Thus, PCH5, PCH4 and PCH2 represent a spectrum of clinical manifestations caused by different mutations in the TSEN genes. We, therefore, propose to classify PCH2, PCH4 and PCH5 as TSEN mutation spectrum disorders.

Cerebellar dentate dysplasia.

Dysplasia of the cerebellar dentate nucleus is a state of apparent maturational arrest that involves the cerebellar dentate nucleus. Origins include Joubert syndrome, other disorders of axon guidance and dentato-olivary dysplasia. An overview is given, linking the diverse etiologies.

Malformation of the human superior olive in autistic spectrum disorders.

Autistic spectrum disorders (ASD) comprise a continuum of psychosocial disorders clinically characterized by social difficulties, impaired communication skills and repetitive behavioral patterns. Despite the prevalence of ASD, the neurobiology of this disorder is poorly understood. However, abnormalities in neuronal morphology, cell number and connectivity have been described throughout the autistic brain. Further, there is ample evidence that auditory dysfunction is a common feature of autism. Our preliminary investigation of neuronal morphology in the auditory brainstem of individuals with ASD focused on the medial superior olive (MSO) and revealed that neurons in this region were significantly smaller and rounder than in controls. In this report, we expand our investigation to examine all nuclei within the human superior olivary complex (SOC), an important auditory brainstem center. We examine neuronal morphology and neuronal number in four control (average age=15 years) and 9 autistic brains (average age=15 years). This detailed investigation supports our previous descriptions of the MSO, and also reveals significant dysmorphology in five other SOC nuclei. Moreover, we provide evidence of a consistent and significant decrease in the number of SOC neurons in the autistic brain. Our studies implicate an extensive malformation of the auditory brainstem in the hearing and language difficulties in individuals with ASD. The results from this investigation suggest that neonatal testing of auditory function may aid in the identification of individuals with ASD earlier than presently possible.

Congenital brainstem disconnection associated with a syrinx of the brainstem.

We report a case of congenital brainstem disconnection including the second detailed autopsy. A full-term newborn presented with irreversible apnoea and died on the fifth day. MRI revealed disconnection of the brainstem. The autopsy included a series of transverse sections of the mesencephalon, medulla oblongata and bridging tissue fragments. A fragile tube walled by mature brainstem tissue could be reconstructed. It enveloped a cylinder of fluid within the ventral pons extending to the mesencephalon and the lower brainstem. The aqueduct was patent and outside the lesion. The basilar artery was represented by a tiny median vessel. The ventral and lateral parts of the posterior brainstem were surrounded by heterotopic glial tissue. The olivary nucleus was absent and the cerebellar dentate nucleus was dysplastic. Considering the maturity of the remaining parts of the pons, the onset of structural decline is likely to be close to the time of birth. Probable causes are progressively insufficient perfusion through an hypoplastic basilar artery, and obstructed venous drainage through an abnormal glial barrier surrounding the posterior brainstem. The morphological findings can be characterized as a syrinx, known from disorders in which brainstem or spinal cord are damaged by a combination of mechanical and circulatory factors.

Morphological features of the medial superior olive in autism.

Autism is a psychosocial disorder clinically characterized by social difficulties, impairment in communication skills and repetitive behavioral patterns. Despite the increasing reported incidence of autism, the neurobiology of this disorder is poorly understood. However, researchers have uncovered numerous structural anomalies in the brainstem, cerebellum and forebrain of autistic individuals and there is substantial support for the association of hearing deficits with autism. In an effort to discover an anatomical correlate for the functional auditory deficits found in autism, we examined the SOC, a group of brainstem nuclei that function in sound source localization, in post-mortem brain tissue from autistic individuals. The neurons of the medial superior olive (MSO), an SOC nucleus, display a precise geometric organization essential for detection of timing differences between the two ears. We examined the architecture of the MSO in five autistic brains (ages 8 to 32 years) and two age-matched controls (ages 26 and 29 years) and found a significant disruption in the morphology of MSO neurons in autistic brains, involving cell body shape and orientation. The results from this study provide evidence on the cellular level that may help to explain the hearing difficulties associated with autism.

Auditory brainstem neural activation patterns are altered in EphA4- and ephrin-B2-deficient mice.

Auditory processing requires proper formation of tonotopically ordered projections. We have evaluated the role of an Eph receptor tyrosine kinase and an ephrin ligand in the development of these frequency maps. We demonstrated expression of EphA4 and ephrin-B2 in auditory nuclei and found expression gradients along the frequency axis in neonates. We tested the roles of EphA4 and ephrin-B2 in development of auditory projections by evaluating whether mutations result in altered patterns of expression of the immediate early gene c-fos after exposure to pure tone stimuli. We evaluated two nuclei, the dorsal cochlear nucleus (DCN) and the medial nucleus of the trapezoid body (MNTB), which project in two distinct auditory pathways. The mean number of c-fos-positive neurons in EphA4(-/-) DCN after 8-kHz pure tone stimulation was 42% lower than in wild-type DCN. Along the dorsoventral, tonotopic axis of DCN, the mean position of c-fos-positive neurons was similar for mutant and wild-type mice, but the spread of these neurons along the tonotopic axis was 35% greater for ephrin-B2(lacZ/+) mice than for wild-type mice. We also examined these parameters in MNTB after exposure to 40-kHz pure tones. Both EphA4(-/-) and ephrin-B2(lacZ/+) mice had significantly fewer c-fos-positive cells than wild-type littermates. The labeled band of cells was narrower and laterally shifted in EphA4(-/-) mice compared with wild-type mice. These differences in cell number and distribution suggest that EphA4 and ephrin-B2 signaling influence auditory activation patterns.

Diminished climbing fiber innervation of Purkinje cells in the cerebellum of myosin Va mutant mice and rats.

Myosin Va is an actin-based molecular motor that is involved in organelle transport and membrane trafficking. Here, we explored the role of myosin Va in the formation of synaptic circuitry by examining climbing fiber (CF) innervation of Purkinje cells (PCs) in the cerebella of dilute-neurological (d-n) mice and dilute-opisthotonus (dop) rats that have mutations in dilute-encoded myosin Va. Anterograde labeling of CFs with biotinylated dextran amine (BDA) revealed that they arborized poorly and that their tips extended only half way through the thickness of the molecular layer (ML) in adult d-n mice. Using immunohistochemistry specific for vesicular glutamate transporter 2 (VGluT2) to visualize CF synaptic terminals, we found that during development and in adulthood, these terminals did not ascend as far along the proximal shaft dendrites of PCs in d-n mice and dop rats as they did in normal animals. An irregular distribution of BDA-labeled bulbous varicosities and VGluT2 spots along CF branches were also noted in these animals. Finally, VGluT2-positive CF terminals were occasionally localized on the PC somata of adult d-n cerebella. These phenotypes are consistent with our electrophysiological findings that CF-mediated excitatory postsynaptic currents (EPSCs) were significantly smaller in amplitude and faster in decay in adult d-n mice, and that the regression of multiple CFs was slightly delayed in developing d-n mice. Taken together, our results suggest that myosin Va is essential for terminal CF extension and for the establishment of CF synapses within the proper dendritic territories of PCs.

Oromotor and communication findings in joubert syndrome: further evidence of multisystem apraxia.

This study provides descriptive information in the areas of oromotor abilities and communication to better understand the spectrum of disability in individuals with Joubert syndrome. Participants included 21 individuals with the diagnosis of Joubert syndrome (mean age 10.45 years). Participants completed oromotor and receptive language measures. In addition, all of the participants' speech and gesture communication from a narrative task was coded and analyzed from videotape. Caregivers reported the participants' level of fine and gross motor function. The results show that individuals with Joubert syndrome exhibit a distinct oromotor pattern consistent with verbal and lingual apraxias. Despite significant motor skills deficits and oculomotor apraxia, persons with Joubert syndrome produced gestures when communicating, and those whose speech was less intelligible used a higher rate of gesture compared with those with greater verbal output. These findings suggest a new form of apraxia not previously described in the condition and are consistent with previous research that suggests that persons with Joubert syndrome typically do not exhibit classic symptoms of autism spectrum disorder.

Neonatal rigid-akinetic syndrome and dentato-olivary dysplasia.

This report describes a male infant who presented since birth with rigidity and hypokinesia. Severe developmental delay, episodic central hypoventilation, and drug-resistant epilepsy progressively added to the extrapyramidal signs in the following months and led to the patient's death at 10 months of age. Neuroradiologic and neurometabolic evaluations were negative. Normal cerebrospinal metabolites excluded a defect in dopamine metabolism, and treatment with levodopa failed to improve his motor symptoms. Neuropathologic findings demonstrated dentato-olivary dysplasia. While isolated dentato-olivary dysplasia has been described in a few cases of Ohtahara syndrome, to our knowledge, the association with infantile parkinsonism has not been previously reported.

Arthrogryposis multiplex congenita with callosal agenesis and dentato-olivary dysplasia.

We report the autopsy case of a boy with arthrogryposis multiplex congenita, associated with callosal agenesis and dentato-olivary dysplasia. The patient manifested with dysmorphic facial features and suffered from intractable epilepsy during the neonatal period. These sets of complications suggest that a common molecular mechanism may be involved in the development of corpus callosum and the folding of the dentate and inferior olivary nuclei. Deep brain structures, including the brainstem and the cerebellum, may be involved in the pathophysiology of symptomatic generalized epilepsy. The differential diagnoses for the clinical and pathological characteristics of this patient are discussed.

Cell number in the inferior olive of nervous and leaner mutant mice.

Naturally occurring cell death is an important feature of neuronal network development: the absence of adequate postsynaptic target neurons during a critical period may result in the death of presynaptic neurons, the degree of death varying inversely with the size of the target population. Studies of mouse mutants with abnormal cerebellar development provide support for this neuron/target relationship in circuits within the CNS. In the present study we analysed the inferior olivary cell population in two cerebellar mutant mice, nervous (nr/nr) and leaner (Cacna1ala/la). In these mice Purkinje cell degeneration begins near the end of the first postnatal month. In nervous mice the loss starts at postnatal day 20 (P20) and by the end of second month almost 90% of the Purkinje cells in the hemisphere and 50% in the vermis have disappeared. In leaner mice Purkinje cell loss starts after P30 and by P60 almost 50% of these cells are lost. We report here a loss of one third of inferior olivary neurons in the nervous mutation while the entire population appears intact in the leaner mouse. These results allow better definition of the end of the period of target dependency of inferior olive neurons. Their implications for the cell-cell interactions in the developing olivo-cerebellar system are discussed.

A lethal association of congenital apnea with brainstem tegmental necrosis.

We present a female with premature birth, polyhydramnios, congenital apnea, cranial nerve palsies, orofacial and limb anomalies. Neuroimaging revealed calcifications along the vental margin of the caudal fourth ventricle. Neuropathologic findings at postmortem examination were consistent with brainstem tegmental necrosis and olivary hypoplasia, a rare lethal entity that should be considered in the differential diagnosis of congenital apnea.

Subtle developmental abnormalities in the inferior olive: an indicator of prenatal brainstem injury in the sudden infant death syndrome.

Subtle quantitative abnormalities in neuronal populations derived from the rhombic lip (i.e. arcuate nucleus at the ventral medullary surface, external granular layer of the cerebellum) have been reported in victims of the sudden infant death syndrome (SIDS). In this study, we examined the inferior olive, a major rhombic lip derivative, to determine if subtle rhombic lip abnormalities also involve this nucleus in SIDS. We analyzed the number and density of neurons and reactive astrocytes in the inferior olive in 29 SIDS cases and 29 controls. Computer-assisted cell counting procedures were used in sections stained with hematoxylin and eosin/Luxol fast blue. There was a significant difference in the postconceptionally age-adjusted mean for neuronal density between SIDS cases (7,687 +/- 255 neurons/mm(3)) and controls (8,889 +/- 255 neurons/mm(3)) (p = 0.002). The difference in age-adjusted mean neuronal number between SIDS cases (1,932 +/- 89 neurons/2 sections) and controls (2,172 +/- 89 neurons/2 sections) was marginally significant (p = 0.063). Reactive astrocytes were present in the inferior olive in SIDS cases, but their number, density, and developmental profile were not significantly different from that of control infants dying of diverse known causes. SIDS victims found dead in cribs, beds, and sofas, prone or supine had subtle olivary abnormalities, suggesting that affected infants are at risk in various sleeping situations. We propose that at least some SIDS victims experience intrauterine brainstem injury including the olivo-arcuato-cerebellar circuitry derived from the rhombic lip. These observations provide future directions for SIDS research concerning the role of early insults in pregnancy, the rhombic lip, and the interactions of the ventral medulla and cerebellum in cardioventilatory control.

Cyclin-dependent kinase 5/p35 contributes synergistically with Reelin/Dab1 to the positioning of facial branchiomotor and inferior olive neurons in the developing mouse hindbrain.

Cyclin-dependent kinase 5 (Cdk5)/p35 is a serine/threonine kinase, and its activity is detected primarily in postmitotic neurons. Mice lacking Cdk5/p35 display migration defects of the cortical neurons in the cerebrum and cerebellum. In this study, we demonstrate that although most brainstem nuclei are found in their proper positions, the motor nucleus of the facial nerve is ectopically located and neurons of the inferior olive fail to position correctly, resulting in the lack of their characteristic structures in the hindbrain of Cdk5-/- mice. Despite the defective migration of these neurons, axonal exits of the facial nerve from brainstem and projections of the inferior cerebellar axons appear unchanged in Cdk5-/- mice. Defective neuronal migration in Cdk5-/- hindbrain was rescued by the neuron-specific expression of Cdk5 transgene. Because developmental defects of these structures have been reported in reeler and Dab1 mutant mice, we analyzed the double-null mutants of p35 and Dab1 and found more extensive ectopia of VII motor nuclei in these mice. These results indicate that Cdk5/p35 and Reelin signaling regulates the selective mode of neuronal migration in the developing mouse hindbrain.

A case of Ohtahara syndrome with olivary-dentate dysplasia and agenesis of mamillary bodies.

We report a patient with early infantile epileptic encephalopathy (EIEE) with suppression-burst (Ohtahara syndrome) associated with olivary-dentate dysplasia and agenesis of mamillary bodies is reported. Although those with Ohtahara syndrome are a heterogeneous group, virtually all reported cases are secondary to neuronal migrational disorders, sometimes only identified by detailed neuropathologic examination, as in this case report, which describes mamillary body agenesis as a not-yet-recognized anomaly associated with Ohtahara syndrome. All children with Ohtahara syndrome should have high-resolution magnetic resonance imaging (MRI) and detailed postmortem neuropathologic examinations.

Episodic exposure to ethanol during development differentially affects brainstem nuclei in the macaque.

Neuronal vulnerability to ethanol may be non-specific, i.e., vulnerability may be conferred by the developmental state of the population or by the site of derivation. To address these issues, the effect of developmental exposure to ethanol on three brainstem nuclei; the trigeminal motor (MoV), facial motor (MoVII) and medial superior olivary (MSO) nuclei was determined. MoVII and MSO are generated at the same time and from the same rhombomere, r4. MoV is generated earlier from r2. Macaca nemestrina were exposed to ethanol or a control solution one day per week for six or 24 weeks of gestation. Brainstems of the mature offspring were sectioned and stained. The number of neurons and volume of each nucleus were determined stereologically. Neuron number was lower in MoV and MSO following exposure to ethanol whereas MoVII appeared unaffected. No significant effects of ethanol exposure were seen on the volume and weight of the brainstem, or the volume of the individual nuclei. These findings show that ethanol differentially affects brainstem nuclei in a targeted, rather than non-specific, manner. Furthermore, they show that serious ethanol-induced neurological deficits can be present without gross morphological changes.

Olfactory bulb dysplasia: a novel subtype of neuronal migration disorder.

We present a novel subtype of neuronal migration disorder found in a case of Pena-Shokeir phenotype, in which the deformation sequence originated from neurogenic fetal akinesia. The autopsied brain showed dysplastic features of dentate and olivary nuclei as well as a bilaterally enlarged olfactory bulb with abnormal laminar structures. The laminar structures comprised four layers: (1) a superficial layer without glomeruli, (2) a neuronal cell layer containing neurons simulating mitral cells, (3) a sparse cell layer enriched with tangential neuronal fibers, and (4) a reticular layer showing a mottled appearance with the accumulation of fine reticular neurites intermingled with granule cells. To our knowledge, these malformed laminar changes have never been reported, and we propose the term olfactory bulb dysplasia.

Three siblings of fatal infantile encephalopathy with olivopontocerebellar hypoplasia and microcephaly.

We report three male siblings born with fatal encephalopathy comprising microcephaly, myoclonus and muscle hypertonia. All three patients died during infancy. Postmortem examination on the brain revealed that all infants had neuronal loss in the cerebellar cortex, inferior olivary and pontine nuclei, which were more pronounced in the older subject than the younger ones. In addition, they were associated with polymicrogyria in the cerebral cortex of the insula, olivary and dentate nuclear dysplasia, and a hypoplastic corticospinal tract. The clinical and neuropathological findings in our cases were identical to those in fatal infantile encephalopathy with olivopontocerebellar hypoplasia and microencephaly [Albrecht et al., Acta Neuropathol 1993;85:394-399], but an association of malformations suggests a new genetic factor in pathogenesis of olivopontocerebellar hypoplasia.

Brainstem tegmental necrosis and olivary hypoplasia: a lethal entity associated with congenital apnea.

Previously, we reported an isolated case of a newborn with central apnea at birth, ventilator-dependence, and combined malformative and destructive brainstem lesions (1). We now report 2 additional cases with similar clinicopathologic features. All 3 patients were male (XY karyotype) and required immediate ventilatory support in the delivery room. Perinatal complications included polyhydramnios and breech presentation. Variable cranial nerve palsies and orofacial and limb anomalies were present. The patients dies within minutes of withdrawal of ventilatory support at 2 to 11 weeks after birth. Significant neuropathologic findings were localized to the caudal pons and medulla, and included tegmental necrosis (neuronal loss, gliosis, mineralization) with involvement of respiratory-related nuclei, and anomalies of rhombic lip derivatives (olivary hypoplasia, arcuate nucleus hyperplasia). Three-dimensional computer reconstructions facilitated clinicoanatomic correlations, and underscored the restriction of the lesions to pontine and medullary rhombomeres and rhombic lip. The histopathology of these cases suggests a malformative process occurring at the end of the first trimester (time of rhombic lip migrations), and a superimposed destructive process (tegmental necrosis) in the second half of gestation. Although the etiology is unknown, the segmental nature of the lesions suggests the possibility of an abnormality in homeobox gene regulation. These cases likely represent a distinct clinicopathologic entity that should be considered in the differential diagnosis of Moebius syndrome and failure to breathe at birth.