Studies on the behavioral pharmacology of TRH-T in cytosine arabinoside-induced ataxic mice: a comparison with genetically ataxic mice

The effects of thyrotropin releasing hormone tartrate (TRH-T) on the behavior of cytosine arabinoside (Ara-C) induced ataxic mice were studied. The ataxic mice were prepared by injecting 50 mg/kg/day subcutaneously on the 2nd, 3rd and 4th postnatal days. Spontaneous motor activities were measured with a movement spectrum analyzer (ANIMEX-2) and the degree of ataxic gait determined by an open-field study. Cerebella from these animals were subjected to histopathologic examination at 4, 8 and 12 weeks of age. Ataxic gait became improved moderately and spontaneous motor activities increased slightly following administration of TRH-T. The effects of TRH-T on ataxia and spontaneous motility in the Ara-C injected mice varied with the age, and resembled those seen in weaver mice but not those in the Rolling mouse Nagoya. The results also suggest that the effects of TRH-T on the behavior of ataxic mice correlate with the extent of pathologic changes evoked in their cerebella.     

Changes of ataxia, spontaneous movement and the cerebellar noradrenaline system with aging in ataxic mice

Changes of cerebellar weight, spontaneous movement and ataxia with aging were investigated in Weaver and cytosine arabinoside-injected mice (Ara-C). In addition, changes of cerebellar NA and MHPG concentrations in both mice were measured by high performance liquid chromatography. Cerebellar weight increased with aging in both mice. Spontaneous movements in Weaver mice were not significantly changed, but Ara-C mice showed a decreasing tendency with aging. Ataxic gait improved with aging in Weaver mice, but not in Ara-C mice. With aging, cerebellar NA and MHPG concentrations were decreased in controls, but not in Ara-C mice. In Weaver mice, cerebellar MHPG concentration was decreased. These results suggest that NA turnover in ataxic mice is different from that in controls, but is not correlated closely with ataxia.     

Reduction of nerve growth factor level in the brain of genetically ataxic mice (weaver, reeler)

By a highly sensitive enzyme immunoassay we measured the level of nerve growth factor (NGF) in the cerebellum and cerebrum of the neurologically mutant mice, weaver, reeler and Purkinje cell degeneration (PCD). A significant decrease in NGF level was observed in both cerebellum and cerebrum of weaver and reeler mutants of either sex. However, there was no such difference between normals and mutants in the case of the PCD mice. These results show that weaver and reeler mice have abnormalities of NGF synthesis and/or degradation not only in the cerebellum but also in the cerebrum.     

Changes in cyclic nucleotide levels during embryonic development of chick hearts

The effects of isoproterenol, acetylcholine (Ach), and adenosine, on cyclic AMP (cAMP) and cyclic GMP (cGMP) contents were examined in chick hearts at various stages of embryonic development. The basal cAMP content was highest (87.7 +/- 1.3 pmol/mg protein) in young (3-day) embryonic chick hearts and decreased during development (9.6 +/- 0.6 pmol/mg protein in 9-19-day-old hearts). On the other hand, the cGMP content was lowest (45.5 +/- 2.3 fmol/mg protein) in young (3-day) embryonic chick hearts and increased during development (338 +/- 15.0 fmol/mg protein in 14-19-day-old hearts). Iso increased the cAMP concentration in embryonic hearts at all ages. Ach and Ado had no effect on the cAMP content at all ages. However, the Isoproterenol-induced stimulation of cAMP was inhibited by Ach and Adenosine at all ages. In young embryonic hearts, Ach and Ado increased cGMP concentration only slightly, whereas these agents caused a substantial increase in cGMP concentration in the older hearts. Thus, there was a clear age difference in the effects of Ach and Adenosine on the cGMP and cAMP concentrations. Nitroprusside and hydrogen peroxide increased cGMP concentration in older hearts (greater than 5-day-old) but not in the 3-day-old embryonic hearts. Thus, guanylate cyclase activity may be low in young (3-day-old) hearts. It summary, the cGMP level is very low in young embryonic chick hearts, and increases markedly during development. The changes in cGMP are reciprocal to those of cAMP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes in the ratio of cyclic nucleotide phosphodiesterase forms in the thymocytes of irradiated mice

An increase in the activity of cyclic nucleotide phosphodiesterase was noted during the first hour following irradiation of mice with a dose of 11 Gy and after in vitro irradiation of the thymocyte suspension. Using the methods of gel-filtration and sedimentation and in studying the kinetic characteristics it was shown that the effect of radiation changed the degree of the enzyme aggregation, i. e. the share of the dissociated forms, which possessed a higher catalytic activity, increased.     

Changes in the cyclic nucleotide level and the inhibition of human thrombocyte aggregation in 3-hydroxypyridine exposure

The effect of six 3-oxypiridine derivatives (at a concentration of 10(-3) and 5 X 10(-3) M) on cyclic nucleotide level in human platelets and platelet aggregation was studied. Five 3-oxypiridine derivatives were shown to depress platelet aggregation, four of them causing the increase in cAMP platelet level. The correlation between antiaggregation activity of 3-oxypiridine derivatives and their ability to rise cyclic nucleotide level in human platelets is discussed.     

Changes in the cyclic nucleotide level and lysosomal enzyme activity in the gastric mucosa of rats with experimental ulcer formation

The experiments on rats have proved that ulcerative lesions in the gastric mucosa influenced by intraperitoneal catecholamines (noradrenaline and adrenaline) develop on the background of pronounced decrease of cAMP level in the gastric mucosa during ulceration and relatively slight fluctuations of cGMP level. As a result, cAMP/cGMP ratio in mucosa was significantly decreased during ulceration. These changes in cAMP level and cAMP/cGMP ratio may play an important role in destabilization of lysosomal membranes followed by a chain of pathological reactions resulting in ulcerative lesions of the gastric mucosa.     

Sequential changes in the cyclic nucleotide levels and cyclic nucleotide phosphodiesterase activities during development ofMyxococcus xanthus

The levels of adenosine 3′,5′-monophosphate, guanosine 3′-5′-monophosphate and the activities of their respective phosphodiesterases exhibited changes during development ofMyxococcus xanthus that are substantially consistent with role postulated for each in a previously proposed model.     

Changes in Parkinsonian gait kinematics with self-generated and externally-generated cues: a comparison of responders and non-responders

Abstract

Purpose: Rhythmic auditory stimulation such as listening to music can alleviate gait bradykinesia in people with Parkinson disease (PD) by increasing spatiotemporal gait features. However, evidence about what specific kinematic alterations lead to these improvements is limited, and differences in responsiveness to cueing likely affect individual motor strategies. Self-generated cueing techniques, such as singing or mental singing, provide similar benefits but no evidence exists about how these techniques affect lower limb joint movement. In this study, we assessed immediate effects of external and self-generated cueing on lower limb movement trajectories during gait.

Methods: Using 3D motion capture, we assessed sagittal plane joint angles at the hip, knee, and ankle across 35 participants with PD, divided into responders (n?=?23) and non-responders (n?=?12) based on a clinically meaningful change in gait speed. Joint motion was assessed as overall range of motion as well as at two key time points during the gait cycle: initial contact and toe-off.

Results: Responders used both cue types to increase gait speed and induce increases in overall joint ROM at the hip while only self-generated cues also increased ROM at the ankle. Increased joint excursions for responders were also evident at initial contact and toe-off.

Conclusions: Our results indicate that self-generated rhythmic cues can induce similar increases in joint excursions as externally-generated cues and that some people may respond more positively than others. These results provide important insight into how self-generated cueing techniques may be tailored to meet the varied individual needs of people with PD.     

Real-time monitoring of cyclic nucleotide signaling in neurons using genetically encoded FRET probes

Signaling cascades involving cyclic nucleotides play key roles in signal transduction in virtually all cell types. Elucidation of the spatiotemporal regulation of cyclic nucleotide signaling requires methods for tracking the dynamics of cyclic nucleotides and the activities of their regulators and effectors in the native biological context. Here we review a series of genetically encoded FRET-based probes for real-time monitoring of cyclic nucleotide signaling with a particular focus on their implementation in neurons. Current data indicate that neurons have a very active metabolism in cyclic nucleotide signaling, which is tightly regulated through a variety of homeostatic regulations.     

The prostaglandin and cyclic nucleotide levels in the organs of mice with experimental anthrax intoxication]

In this work the influence of Bacillus anthracis toxin, introduced intraperitoneally in a dose of LD100, on the content of prostaglandins E and F2 alpha, 6-ketoprostaglandin F1 alpha, thromboxane, cAMP and cGMP in the lungs, heart, liver and spleen of BALB/c mice in the time course of experimental intoxication has been studied. The concentration and proportion of prostaglandins and cyclic nucleotides have been shown to undergo-sharp changes in all organs under study in the process of intoxication. The level and proportion of prostaglandins in the lungs ensures the development of vaso- and bronchodilatation processes even at early stages of the action of the toxin. B. anthracis toxin sharply increases the content of cGMP in the organs under study and cAMP in the liver. The activating effect on the adenylate cyclase system of tissue cells is not linked with the action of the edematous factor of the toxin. The role of cyclic nucleotides and prostaglandins in the development of pulmonary edema in intoxication with B. anthracis toxin is discussed.     

Changes in cyclic nucleotide levels and dimorphic transition in Candida albicans.

The relationship between the levels of cyclic nucleotides and dimorphic transition in Candida albicans was examined. The results showed that cells of this pathogenic fungus contained both cyclic adenosine 3',5'-monophosphate (cAMP) and cyclic guanosine 3',5'-monophosphate (cGMP), the concentration of the latter being about one-tenth that of the former in stationary-phase cells of the yeast form. Our results further indicated that germ tube formation induced by incubation at 40 degrees C followed a rise in cAMP concentration in the cell with no accompanying change in cGMP content. Cysteine, which suppressed germination, also reversed the increase in intracellular cAMP concentration. Dibutyryl cAMP (1 MM) significantly promoted germination in proline medium at temperatures of 32 to 34 degrees C. These results suggested that cAMP was one of the controlling factors in the morphological transition in Candida albicans.     

Effects of a core stability exercise program on balance and coordination in children with cerebellar ataxic cerebral palsy

Objective:To evaluate the effects of a core stability exercise program on balance, coordination, and severity of ataxia in children with cerebellar ataxic cerebral palsy (CP).Methods:Forty children with cerebellar ataxic CP (mean age: 6.75±1.35 years) were randomly assigned to a control group and an intervention group for 2 months of follow-up. The control group received a standard physical therapy program three times weekly (1 h per session), while the intervention group received a core stability program for 30 min, in addition to the selected physical therapy program. Both groups were evaluated pre-treatment and post-treatment using the Scale for the Assessment and Rating of Ataxia, the Balance Error Scoring Systems scale, Bruininks-Oseretsky tests of motor proficiency, and HUMAC balance system scores.Results:We found statistically significant reductions in the severity of ataxia, as well as improved balance and coordination in both groups, with stronger effects observed in the intervention group (P<0.05).Conclusion:The core stability program can improve balance and coordination in children with cerebellar ataxic CP when incorporated with a standard physical therapy program.     

Changes in caspase expression in Alzheimer's disease: comparison with development and aging

Changes in caspase-2 and -3 protein levels in Alzheimer's disease (AD) brains were assessed in comparison with their expression in development and aging. The protein levels of caspase-2 and -3 were significantly increased in AD brains, caspase-2 in the particulate fraction and caspase-3 in both the cytosolic and particulate fractions, compared with controls. Immunoblot analysis of brain extracts from embryonic day 19 (E19) to postnatal 96-week-old rats indicated that caspase-3 levels were high from E19 to 2 weeks, while caspase-2 remained high from 4 to 96 weeks, indicating that the expression of caspase-2 and -3 is differentially regulated during development and aging. These results suggest that caspase-2 and -3 are upregulated in AD and that the changes in AD are different from those observed in senescent brains.     

Changes in the properties of photostimulated cyclic nucleotide phosphodiesterase from the retina of rats with hereditary retinal degeneration

A degree of extractability and activation of cGMP-phosphodiesterase (PDE) (EC. 3.1.4.17) from the rod outer segment membranes was studied in Campbell rats with inherited retinal degeneration and control Wistar rats as compared to the control, the PDE extractability in the diseased rats was found to be considerably lower, which manifested as early as the 15th day of the postnatal life. Changes in the GTP-stimulated and basal PDE activity were observed in Campbell rats. Beginning from the 25th day of the postnatal life the GTP-stimulated PDE of degenerative retina decreased and by the 60th day it reached the basal activity level in these animals. In the diseased rats the first 57 days of postnatal life the basal activity of PDE was sufficiently higher, followed by a sharp decrease reaching the basal activity level of the control rats. The obtained data on the changed PDE activity are likely to be a result of the disturbance in the protein-lipid interaction and a change in the external layer of the photoreceptor membranes in rats with inherited retinal degeneration.     

Changes in the content of cyclic AMP and cyclic GMP during the development of Xenopus laevis.

The levels of the three major DNA-dependent RNA polymerases (enzymes I, II and III) present in the dimorphic fungus Mucor rouxii have been investigated during the transition from yeast-like cells to mycelial growth. Increases in the specific activity of crude extracts were observed at 2 h and at 6 h after induction of mycelium formation by aeration of yeast-like cells. These increases could be attributed to changes in the specific activities of enzymes I and II. Alterations were also found in the relative amounts of enzymes I and II: prior to aeration, 31% of the total polymerase activity of crude extracts was present as enzyme I; after 2 h of aeration, the specific activity of this enzyme doubled and the relative amount increased to 64% of the total activity. After 6 h of aeration, the relative amounts of enzymes I and II were 25 and 65%, respectively, and the specific activity of enzyme II had nearly doubled. The amounts and specific activities of enzyme III did not change significantly during the transition.     

Changes in neurotrophin responsiveness during the development of cerebellar granule neurons.

Neurotrophins and their receptors are widespread in the developing and mature CNS. Identifying the differentiation state of neurotrophin-responsive cells provides a basis for understanding the developmental functions of these factors. Studies using dissociated and organotypic cultures of rat cerebellum demonstrated that the neurotrophins brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) affect developing granule cells at distinct stages in differentiation. While early granule neurons in the external germinal layer responded to BDNF, more mature granule cells responded to NT-3. BDNF, but not NT-3, enhanced survival of granule cells in cultures of embryonic cerebella. Thus, BDNF and NT-3 have distinct sequential functions that are likely to be critical in the development of the cerebellum. BDNF may promote the initial commitment, while NT-3 may direct the subsequent maturation of granule cells.     

Elevated immunoreactive-somatostatin levels in the brain of ataxic mutant mice

Immunoreactive-somatostatin (IR-SRIF) levels were investigated in the brain of 4 types of ataxic mice (Rolling Mouse Nagoya, Weaver, PCD, Staggerer) with different cerebellar pathologies. IR-SRIF concentrations (ng/mg) were found to be significantly elevated in both cerebellum and cerebrum of all ataxic mutant mice, IR-SRIF (ng/organ) was found to be increased in the cerebellum and cerebrum in Rolling Mouse Nagoya and PCD compared with control mice. The gel-filtration profile (Sephadex G-50) in the cerebellar extracts of Rolling Mouse Nagoya proved to be identical to that of control mice. Three peaks of IR-SRIF were found to be uniformly elevated in Rolling Mouse Nagoya, with the highest peak coinciding with authentic somatostatin-14. The present results suggest that elevated levels of IR-SRIF in the brain may play a role in the mechanism underlying the manifestation of ataxia in ataxic mutant mice, especially in Rolling Mouse Nagoya and PCD.