Hyperbaric oxygen therapy for five days increases blood-brain barrier permeability.

This study aimed to explore the effects of hyperbaric oxygen (HBO2) on blood-brain barrier (BBB) integrity in rats, when administered for one (at 2.5 ATA, 3 HBO2 sessions a day) and five days (at 2.5 ATA, 3 HBO2 sessions a day for the first two days, and twice a day for the last three days). Horseradish peroxidase (HRP) was used to evaluate the BBB permeability. Superoxide dismutase (SOD) activity, glutathione (GSH) and malondialdehyde (MDA) levels were measured in the cerebral cortex and hippocampus regions. Frequent vesicles containing HRP reaction products were observed in capillary endothelial cells in the cerebral cortex and hippocampus of rats subjected to HBO2. The accumulation of HRP reaction products in these brain regions was significantly higher than that of control animals (P ⟨ 0.01). In animals that received HBO2, MDA levels (P ⟨ 0.01 for five days) and GSH (p ⟨ 0.05 for one day, and P ⟨ 0.01 for five days) were decreased in the cerebral cortex, whereas SOD activities slightly increased in this region. In animals that received HBO2 significant decreases in MDA (P ⟨ 0.05 for one day; P ⟨ 0.01 for five days) and GSH (P ⟨ 0.05 for five days) levels were observed in the hippocampus region, but SOD activities decreased in this region. We showed that HBO2 administered with the doses described above impaired BBB integrity in otherwise healthy rats. Therefore, we suggest that the results of this study should be taken into consideration when patients are exposed to HBO2 with the same doses.

Effect of Tinospora cordifolia (Guduchi) on the phagocytic and pinocytic activity of murine macrophages in vitro.

Tinospora cordifolia (Guduchi) is a widely used herb in Ayurvedic system of medicine known to possess immunomodulatory properties. The present study was aimed to study the activation of macrophages after in vitro guduchi treatment. The aqueous extract of T. cordifolia was found to enhance phagocytosis and pinocytosis in vitro. The rate of pinocytosis by macrophages when measured by uptake of horseradish peroxidase was significantly increased after guduchi treatment as compared to medium alone. The macrophages demonstrated an increased phagocytosis to non-infective microorganisms (heat killed yeast) and live infective microorganisms (E. coli) after guduchi treatment. The results demonstrate that Guduchi enhances macrophage activation as analyzed by cytochemical parameters.

Delivering horseradish peroxidase as a respirable powder to the isolated, perfused, and ventilated lung of the rat: the pulmonary disposition of an inhaled model biopharmaceutical.

BACKGROUND: Our aim was to investigate the potential of the DustGun aerosol technology integrated with the isolated, perfused, and ventilated lung of the rat (IPL) to study the pulmonary disposition of an inhaled model biopharmaceutical, the 40-kDa protein horseradish peroxidase (HRP). METHOD: The DustGun aerosol technology was used to deliver respirable powder aerosols of HRP (the mass median aerodynamic diameter: 1.7 µm) as an 80-sec bolus to the IPL perfused in a single-pass mode. Lung perfusate was repeatedly sampled for 125 min after the HRP exposure. The amount of active HRP clearing with the perfusate or being retained in the lung was measured enzymatically. RESULTS AND CONCLUSIONS: The total amount of HRP deposited in the lungs was 335 ± 100 µg and 568 ± 47 µg for a low- and high-dose exposure, respectively. After inhalation, the initial appearance of HRP in the perfusate was rapid. However, the total amount of HRP that cleared with the perfusate remained below 0.5% of the deposited dose. The effect of opening the tight junctions between the alveolar epithelial cells on HRP absorption was studied by exposing the IPL to nebulized aerosols of either 0.02, 0.2, or 2% poly-L-Arginine (PLA) (MW 42.5 kDa) in phosphate-buffered saline (PBS) for 5 min, at 40 min after the HRP exposure. Subsequent exposure to 0.02% PLA did not affect HRP absorption. However, exposure to 0.2% PLA increased the absorption rate ninefold, and the total amount of HRP clearing with the perfusate increased to approximately 4% of the deposited dose. No further increase was obtained with 2% PLA, indicating a steep dose-response for the enhancer. It was concluded that the pulmonary absorption of HRP is quite slow, and absorption enhancers affecting tight junctions have a distinctive, yet limited efficiency. The presented inhalation technology can be very useful in studying the pulmonary absorption of biopharmaceuticals.

Descending brain-spinal cord projections in a primitive vertebrate, the lamprey: cerebrospinal fluid-contacting and dopaminergic neurons.

We used Neurobiotin as a retrograde tract tracer in both larval and adult sea lampreys and observed a number of neuronal brainstem populations (mainly reticular and octaval populations and some diencephalic nuclei) that project to the spinal cord, in agreement with the results of previous tracer studies. We also observed small labeled neurons in the ventral hypothalamus, the mammillary region, and the paratubercular nucleus, nuclei that were not reported as spinal projecting. Notably, most of the labeled cells of the mammillary region and some of the ventral hypothalamus were cerebrospinal fluid-contacting (CSF-c) neurons. Combined tract tracing and immunocytochemistry showed that some of the labeled neurons of the mammillary and paratubercular nuclei were dopamine immunoreactive. In addition, some CSF-c cells were labeled in the caudal rhombencephalon and rostral spinal cord, and many were also dopamine immunoreactive. Results with other tracers (biotinylated dextran amines, horseradish peroxidase, and the carbocyanine dye DiI) also demonstrated that the molecular weight or the molecular nature of the tracer was determinant in revealing diencephalic cells with very thin axons. The results show that descending systems afferent to the spinal cord in lampreys are more varied than previously reported, and reveal a descending projection from CSF-c cells, which is unknown in vertebrates. The present results also reveal the existence of large differences between agnathans and gnathostomes in the organization of the dopaminergic cells that project to the spinal cord.

Photocrosslinked anhydride systems for long-term protein release.

Injectable delivery systems are attractive as vehicles for localized delivery of therapeutics especially in the context of regenerative medicine. In this study, the potential of photocrosslinked polyanhydride (PA) networks as an encapsulation matrix for long-term delivery of macromolecules was studied. The in vitro release of two model proteins (horseradish peroxidase (HRP) and bovine serum albumin labeled with fluorescein isothiocyanate (FITC-BSA)) was evaluated from crosslinked networks composed of sebacic acid dimethacrylate (MSA), 1,6-bis-carboxyphenoxyhexane dimethacrylate (MCPH), and poly(ethylene glycol) diacrylate (PEGDA), supplemented with calcium carbonate. Prior to incorporation into the networks, proteins were formulated by dilution in a cyclodextrin excipient followed by gelatin-based wet granulation. Protein release was quantified by activity assay (HRP) or fluorescence (FITC-BSA). Each protein was readily released from the networks with a unique release behavior. Most importantly, release of protein with retention of activity was achieved for durations ranging from 1 week to 4 months. The released HRP was additionally visualized using SDS-PAGE. In general, a more hydrophobic network resulted in slower rates of protein release. Incorporation of PEGDA into the matrices was critical for maintenance of integrity during degradation. These results suggest that this system may be useful as an injectable delivery system for long-term delivery of macromolecules.

Nerve-pathways of acupoint Fengch'ih in rat by anterograde transport of HRP.

AIM: To study the nervous-pathways of Fengch'ih acupuncture by means of anterograde transport of aqueous solution of horseradish peroxidase (HRP). METHODS: Fifty Wistar rats were randomly divided into 1, 2, 3, 4, and 5 d groups, and every group had 10 animals. HRP (30% aqueous solution) was injected into a Fengch'ih. Serial, transverse or capital, 40 microm sections of the cervical spinal ganglia, cervical and thoracic spinal cord segment and brain were cut on a cryotome. Sections were incubated for HRP histochemistry according to the tetramethylbenzidine (TMB). Part of the sections were counterstained with neutral red. RESULTS: After 1 d of survival times, many labeled cell bodies were found in 1-4 cervical spinal ganglia, anterior horn of 1-4 cervical spinal cord, ventromedial division of facial nucleus, accessory facial nucleus ipsilaterally. With increasing survival times, the intensity of labeled cells were slightly decreased. CONCLUSION: Fengch'ih may bring into full play its effect by correlation of posterior ear branch of facial nerve and anterior branch of 2-3 cervical nerve with 1-4 cervical the anterior horn of the spinal cord, ventromedial division of facial nucleus, accessory facial nucleus.

The deep mesencephalic nucleus as an output center of basal ganglia: morphological and electrophysiological similarities with the substantia nigra.

The deep mesencephalic nucleus (DMN) is a large midbrain reticular region between the superior colliculus, the substantia nigra compacta, the periaqueductal gray, and the medial geniculate body. Although some data suggest that it is involved in nociception and visceral control, its functions remain unclear. In the present study, by using morphological (combination of anterograde and retrograde tracers with immunocytochemistry and in situ hibrydization) and electrophysiological (firing activity and transynaptic response to striatal stimulation) methods, we show that a subpopulation of DMN cells shares many morphological and electrophysiological characteristics with those of the substantia nigra reticulata (SNR). These similarities include the following: 1) firing rate, firing pattern, and conduction velocity; 2) expression of GAD65, GAD67, and PV; 3) excitatory and inhibitory inputs from the striatum; and 4) projections to the ventral thalamus, superior colliculus, and pedunculopontine tegmental nucleus. Some differences were also found. In comparison with SN, DMN cells and striatal afferents are more sparsely distributed and they show conspicuous contralateral projections to the thalamus and superior colliculus. This suggests that, similarly to the SNR, the DMN acts as an output center of basal ganglia and probably facilitates the inter-hemispheric regulation of these centers.

Blood-brain barrier disturbance following localized hyperthermia in rats.

We investigated the morphological effect of hyperthermia on the blood-brain barrier (BBB). The heads of rats were heated locally using flood-lamps. BBB changes were assessed morphologically with horseradish peroxidase (HRP). Histological examinations were carried out 2 and 6 h, 1 and 3 days, and 1 week after the hyperthermia. The acute thermal lesions had three zones, i.e. a necrotic zone, a reactive zone and a permeable zone of viable brain tissue. HRP extravasation was seen in the necrotic zone and the permeable zone. Electron micrographic observation revealed HRP had entered the CNS through damaged endothelial cells and disruption of the tight junctions in the necrotic zone, and through numerous pinocytotic vesicles in the permeable zone. BBB opening to HRP was observed from 6 h to 3 days after hyperthermia.

Blood to brain and brain to blood passage of native horseradish peroxidase, wheat germ agglutinin, and albumin: pharmacokinetic and morphological assessments.

Native horseradish peroxidase (HRP) and the lectin wheat germ agglutinin (WGA) conjugated to HRP are protein probes represented in the blood-brain barrier (BBB) literature for elucidating morphological routes of passage between blood and brain. We report the application of established pharmacokinetic methods, e.g., multiple-time regression analysis and capillary depletion technique, to measure and compare bidirectional rates of passage between blood and brain for radioactive iodine-labeled HRP (I-HRP), WGA-HRP (I-WGA-HRP), and the serum protein albumin (I-ALB) following administration of the probes intravenously (i.v.) or by intracerebroventricular (i.c.v.) injection in mice. The pharmacokinetic data are supplemented with light and electron microscopic analyses of HRP and WGA-HRP delivered i.v. or by i.c.v. injection. The rates of bidirectional movement between blood and brain are the same for coinjected I-HRP and I-ALB. Blood-borne HRP, unlike WGA-HRP, has unimpeded access to the CNS extracellularly through sites deficient in a BBB, such as the circumventricular organs and subarachnoid space/pial surface. Nevertheless, blood-borne I-WGA-HRP enters the brain approximately 10 times more rapidly than I-HRP and I-ALB. Separation of blood vessels from the neocortical parenchyma confirms the entry of blood-borne I-WGA-HRP to the brain and sequestration of I-WGA-HRP by cerebral endothelial cells. Nearly half the I-WGA-HRP radioactivity associated with cortical vessels is judged to be subcellular. Light microscopic results suggest the extracellular pathways into the brain available to blood-borne native HRP do not represent predominant routes of entry for blood-borne WGA-HRP. Ultrastructural analysis further suggests WGA-HRP is likely to undergo adsorptive transcytosis through cerebral endothelia from blood to brain via specific subcellular compartments within the endothelium. Entry of blood-borne I-WGA-HRP, but not of I-ALB, is stimulated with coinjected unlabeled WGA-HRP, suggesting the latter may enhance the adsorptive endocytosis of blood-borne I-WGA-HRP. With i.c.v. coinjection of I-WGA-HRP and I-ALB, I-WGA-HRP exists the brain more slowly than I-ALB. The brain to blood passage of I-WGA-HRP is nil with inclusion of unlabeled WGA-HRP, which does not alter the exist of I-ALB. Adsorptive endocytosis of i.c.v. injected WGA-HRP appears restricted largely to cells lining the ventricular cavities, e.g., ependymal and choroid plexus epithelia. In summary, the data suggest that the bidirectional rates of passage between brain and blood for native HRP are comparable to those for albumin.

Diffusion of alcohol upon application of neuroadenolysis of the pituitary gland (NALP). An experimental study using HRP and WGA-HRP in the cat.

Diffusion of alcohol in neuroadenolysis of pituitary gland (NALP) was observed by injection of horseradish peroxidase (HRP) or wheat germ agglutinin-HRP conjugates (WGA-HRP) into the pituitary of the cat. After small-amount injection of WGA-HRP into the pituitary, WGA-HRP labeling was observed markedly around the third ventricle and the ventral part of the hypothalamus. While, in large-amount injection of WGA-HRP, it extended to all of the ventricular systems and dipped into the substances of the brain and spinal cord through the ependyma. These results suggest that the main site of action for alcohol injected into the pituitary is probably the hypothalamus.

Densitometric measurement of increased endothelial permeability in arteriosclerotic plaques and inhibition of permeability under the influence of two calcium antagonists.

A densitometric technique was established to investigate quantitative changes in endothelial permeability for horseradish peroxidase (HRP), mol. wt. 40,000 daltons, in rabbit carotid artery. Repeated weak electrical stimulations of rabbit carotid arterial walls with implanted electrodes lead to fibromuscular plaques mainly beneath the anode. It could be demonstrated that there exists a typical growth curve of the plaques dependent on the number of days of electrostimulation, with a fast proliferation rate of smooth muscle cells in the first 2 weeks of electrostimulation, and an increasing retardation of proliferation during the next 4 weeks. Endothelial permeability for HRP increases in close relation to the plaque development. Intravenous applications of single doses of the calcium entry blockers flunarizine or nimodipine are able to inhibit the increased permeability of the endothelial lining covering arteriosclerotic plaques. The intensity of the inhibitory action of these calcium antagonists correlates with the size of the arteriosclerotic plaques in inverse proportion, but nevertheless in large plaques an inhibitory effect is seen.

Afferent connections and spinal projections of the pressor region in the rostral ventrolateral medulla of the cat.

Following microinjection of wheat germ agglutinin conjugated to horseradish peroxidase (WGA-HRP) into the pressor region of the rostral ventrolateral medulla of the cat, the medulla, pons and hypothalamus were examined for retrogradely labelled cell bodies, while the thoracolumbar segments of the spinal cord were examined for anterogradely labelled axons. Dense groups of labelled cells were found in the following areas: (1) the nucleus of the solitary tract, particularly the medial, ventrolateral and commissural subnuclei; (2) the ambiguous complex and immediately surrounding area; (3) the Kölliker-Fuse nucleus in the pons; (4) the paraventricular nucleus and lateral hypothalamic area. In the spinal cord, labelled axons formed a band extending throughout the dorsolateral and ventrolateral funiculi at thoracic segments, while terminal labelling was observed in the intermediolateral nucleus and to a lesser extent the central autonomic area, but not in other parts of the grey matter. The findings are discussed in relation to the role of the rostral ventrolateral medulla in cardiovascular regulation, particularly the baroreceptor reflex.