Immunohistochemical distribution of calcium binding proteins in the cochlear nuclear complex of circling mice / Distribución inmunohistoquímica de proteínas de unión a calcio en el complejo nuclear coclear de ratones circulantes

SUMMARY: The term "circling mouse" refers to an animal model of deafness, in which the mouse exhibits circling, head tossing, and hyperactivity, with pathological features including degenerated spiral ganglion cells in the cochlea, and the loss of the organ of Corti. The cochlear nuclear (CN) complex, a part of the auditory brain circuit, is essential to process both ascending and descending auditory information. Considering calcium's (Ca2+) importance in homeostasis of numerous biological processes, hearing loss by cochlear damage, either by ablation or genetic defect, could cause changes in the Ca2+ concentration that might trigger functional and structural alterations in the auditory circuit. However, little is known about the correlation of the central nervous system (CNS) pathology in circling mice, especially of the auditory pathway circuit and Ca2+ changes. This present study investigates the distribution of Ca2+- binding proteins (CaBPs), calbindin D-28k (CB), parvalbumin (PV), and calretinin (CR) by using a free floating immunohistochemical method inthe CN of the wild-type mouse (+/+), the heterozygous mouse (+/cir), and the homozygous (cir/cir) mouse. CaBPs are well known to be an important factor that regulates Ca2+ concentrations. Compared with the dorsal and ventral cochlear nuclei of +/+ and +/ cirmice, prominent decreases of CaBPs' immunoreactivity (IR) in cir/cirmice were observed in the somas, as well as in the neuropil. The present study reportson the overall distribution and changes in the immunoreactivity of CaBPs in the CN of cir/cirmice because ofa hearing defect. This data might be helpful to morphologically elucidate CNS disorders and their relation to CaBPs immunoreactivity related to hearing defects.

RESUMEN: El término "ratón circulante" se refiere a un modelo animal con sordera, en el que el ratón exhibe hiperactividad, movimientos circulares y movimientos de la cabeza, con características patológicas que incluyen células ganglionares espirales degeneradas en la cóclea, un canal de Rosenthal vacío y la pérdida del órgano de Corti. El complejo nuclear coclear (CN), una parte del circuito cerebral auditivo, es esencial para procesar la información auditiva tanto ascendente como descendente. Considerando la importancia del calcio (Ca2+) en la homeostasis de numerosos procesos biológicos, la hipoacusia por daño coclear, por ablación o por defecto genético, podría provocar cambios en la concentración de Ca2+que pueden desencadenar alteraciones funcionales y estructurales en el circuitoauditivo. Sin embargo, existe poca información de la correlación de la patología del sistema nervioso central (SNC) en ratones circulantes, especialmente del circuito de la víaauditiva y los cambios de Ca2+. Este estudio nvestiga la distribución de proteínas de unión a Ca2+ (CaBP), calbindina D-28k (CB), parvalbúmina (PV) y calretinina (CR) mediante el uso de un método inmunohistoquímico de flotaciónlibre en el CN del ratón de tiposalvaje (+/+), el ratón heterocigoto (+/cir) y el ratón homocigoto (cir/cir). Se sabe que los CaBP son un factor importante que regula las concentraciones de Ca2+. En comparación con los núcleos cocleares dorsal y ventral de los ratones +/+ y +/ cir, se observaron disminuciones prominentes de la inmunorreactividad (IR) de CaBPs en los ratonescir/cir en los somas, asícomo en el neuropilo. El presente estudio informa sobre la distribución general y los cambios en la inmunorreactividad de CaBP en el CN de ratones cir/cir debido a un defecto auditivo. Estos datos podrían ser útiles para dilucidar morfológicamente los trastornos del SNC y su relación con la inmunorreactividad de CaBP relacionada con los defectosauditivos.

Effect of amitriptyline on phosphorylation of HDAC5 in basolateral amygdale of rats with neuropathic pain / 中华麻醉学杂志

Objective To evaluate the effect of amitriptyline on the phosphorylation of histone deacetylase 5 (HDAC5) in the basolateral amygdala (BLA) of rats with neuropathic pain.Methods Thirty healthy male Wistar rats,weighing 250-300 g,were divided into 3 groups (n=10 each) using a random number table method:sham operation group (S group),neuropathic pain group (NP group) and amitriptyline group (A group).Spared nerve injury was produced by exposing the sciatic nerve and its branches and ligation and transection of tibial nerve and common fibular nerve in anesthetized rats.Amitriptyline 10 mg/kg was intraperitoneally injected every day on 14-35 days after establishing the model in group A,while the equal volume of normal saline was given instead of amitriptyline in S and NP groups.The mechanical paw withdrawal threshold (MWT) was measured on 3,7,14,21,28 and 35 days after establishing the model in each group.The forced swimming test was performed on day 36 after establishing the model,and immobility time,climbing time and swimming time were recorded.The rats were then sacrificed,and brain tissues in BLA were obtained for determination of the expression of HDAC5 and phosphorylated HDAC5 (p-HDAC5) (by Western blot) and expressionof HDAC5 mRNA (by real-time quantitative polymerase chain reaction).Results Compared with group S,the MWT was significantly decreased at each time point,the immobility time was prolonged,and the swimming time and climbing time were shortened in group NP,and the MWT was significantly decreased on days 14,21 and 28 after establishing the model,the expression of p-HDAC5 was down-regulated,and the expression of HDAC5 mRNA was up-regulated in group A (P＜0.05).Compared with group NP,the MWT was significantly increased on days 21,28 and 35 after establishing the model,the immobility time was shortened,the climbing time was prolonged,the expression of p-HDAC5 was up-regulated,and the expression of HDAC5 mRNA was down-regulated in group A (P＜0.05or 0.01).Conclusion The mechanism by which amitriptyline improves depression is associated with promoting the phosphorylation of HDAC5 in BLA of rats with NP.

Morphologic Alterations in Amygdala Subregions of Adult Patients with Bipolar Disorder

OBJECTIVES: Previous studies have revealed inconsistent results on amygdala volume in adult bipolar disorder (BD) patients compared to healthy controls (HC). Since the amygdala encompasses multiple subregions, the subtle volume changes in each amygdala nucleus might have not been fully reflected in the measure of the total amygdala volume, causing discrepant results. Thus, we aimed to investigate volume changes in each amygdala subregion and their association with subtypes of BD, lithium use and clinical status of BD. METHODS: Fifty-five BD patients and 55 HC underwent T1-weighted structural magnetic resonance imaging. We analyzed volumes of the whole amygdala and each amygdala subregion, including the anterior amygdaloid area, cortico-amygdaloid transition area, basal, lateral, accessory basal, central, cortical, medial and paralaminar nuclei using the atlas in the FreeSurfer. The volume difference was analyzed using a one-way analysis of covariance with individual volumes as dependent variables, and age, sex, and total intracranial volume as covariates. RESULTS: The volumes of whole right amygdala and subregions including basal nucleus, accessory basal nucleus, anterior amygdaloid area, and cortico-amygdaloid transition area in the right amygdala of BD patients were significantly smaller for the HC group. No significant volume difference between bipolar I disorder and bipolar II disorder was found after the Bonferroni correction. The trend of larger volume in medial nucleus with lithium treatment was not significant after the Bonferroni correction. No significant correlation between illness duration and amygdala volume, and insignificant negative correlation were found between right central nucleus volume and depression severity. CONCLUSIONS: Significant volume decrements of the whole amygdala, basal nucleus, accessory basal nucleus, anterior amygdaloid area, and cortico-amygdaloid transition area were found in the right hemisphere in adult BD patients, compared to HC group. We postulate that such volume changes are associated with altered functional activity and connectivity of amygdala nuclei in BD.

Third Nerve Palsy: An Overview.

Oculomotor nerve palsy may be congenital or acquired, complete or partial, pupil-sparing or pupil-involving, isolated or accompanied by signs of more extensive neurological involvement. Precise knowledge of its origin and course from nuclear level to terminal muscles along with accompanying clinical features helps in localizing the site of involvement and thus appropriate management. Associated symptoms are of extreme importance and patient should always be asked and assessed for headache, periocular or orbital pain.

Immunohistochemical analysis of glutamate, cholecystokinin and vasoactive intestinal polypeptide in the lateral geniculate complex of albino rat: A developmental study.

The lateral geniculate nuclear complex of albino rats was investigated with respect to the development of neurotransmitters/neuromodulators such as glutamate, cholecystokinin and vasoactive intestinal polypeptide at gestational day 18, various postnatal age periods and in the adult using immunohistochemical methods. The study shows the unequivocal presence of and the sequential changes in the profile of glutamate while cholecystokinin and vasoactive intestinal polypeptide are not demonstrable at any of the age periods. Glutamate is seen both in the cells and fibres from 40 postnatal day onwards and immunoreactivity is more intense in the adult. The findings are discussed with relevance to the role of neurotransmitters in development.

THE RELATIONSHIP BETWEEN 5-HTERGIC TERMINALS AND THE VESTIBULO-PARABRACHIAL NUCLEUS PROJECTION NEURONS EXPRESSING 5-HT_(1A) RECEPTOR IN THE VESTIBULAR NUCLEAR COMPLEX / 解剖学报

Objective To observe the relationship between 5-Hydroxytryptamine(5-HT)-like immunoreactive terminals and the vestibulo-parabrachial nucleus projection neurons which may express 5-HT1A receptor in the vestibular nuclear complex(VNC). Methods Retrograded-tract tracing technique combined with double labeling of immunofluorescence histochemical was used,and the stained sections were observed under a confocal laser-scanning microscope. Results Following injection of tetramethylrhodamine(TMR) into the parabrachial nucleus, many retrogradely labeled neurons were observed bilaterally within VNC,but with an ipsilateral predominance.Immunofluorescence histochemical staining showed that many neurons expressed(5-HT1A) receptor-like immunoreactivity and a large number of 5-HT immunostained fibers or terminals were found in the medial,spinal,superior,lateral vestibular nucleus(MVe,SpVe,SuVe,LVe),X nucleus and Y nucleus.Confocal laser-scanning microscopy revealed that some TMR-labeled neurons were 5-HT_1AR immunopositive,and some of the cell bodies or dendrites of TMR/5-HT1AR double-labeled neurons were closely apposed by 5-HT-like immunoreactive terminals.Conclusion The present study suggests that 5-HT may modulate vestibular signals along the VNC-parabrachial nucleus pathway via 5-HT1A receptor.