Age-Related Changes of NADPH-Diaphorase Positivity in the Rat Rostral Migratory Stream

Long-term taurine administration improves motor skills in a tubulinopathy rat model by decreasing oxidative stress and promoting myelination

The taiep rat undergoes hypomyelination and progressive demyelination caused by an abnormal microtubule accumulation in oligodendrocytes, which elicits neuroinflammation and motor behavior dysfunction. Based on taurine antioxidant and proliferative actions, this work explored whether its sustained administration from the embryonic age to adulthood could prevent neuroinflammation, stimulate cell proliferation, promote myelination, and relieve motor impairment. Taurine (50 mg/L of drinking water = 50 ppm) was given to taiep pregnant rats on gestational day 15 and afterward to the male offspring until eight months of age. We measured the levels of nitric oxide (NO), malondialdehyde + 4-hydroxyalkenals (MDA + 4-HDA), CXCL1, CXCR2 receptor, growth factors (BNDF and FGF2), cell proliferation, and myelin content over time. Integral motor behavior was also evaluated. Our results showed that taurine administration significantly decreased NO and MDA + 4-HDA levels, increased cell proliferation, and promoted myelination in an age- and brain region-dependent fashion compared with untreated taiep rats. Taurine effect on chemokines and growth factors was also variable. Taurine improved vestibular reflexes and limb muscular strength in perinatal rats and fine movements and immobility episodes in adult rats. These results show that chronic taurine administration partially alleviates the taiep neuropathology.

Appearance and differentiation of NADPH-d-positive neurons in rat prefrontal cortex following exposure to retinoic acid

Retinoic acid (RA) is a biologically active form of vitamin A. Teratogenicity has been observed in pregnant mammals exposed to high doses of vitamin A. We investigated the distribution of nitrergic neurons in rat prefrontal cortex (PFC) at developmental stages 7 days to young adulthood under physiological conditions and after prenatal application of all trans-RA. The neurons were studied histochemically using NADPH-diaphorase, which stains neurons dark blue. We found that nitrergic neurons differentiate rapidly and reach structural maturity by the end of the second week of postnatal development. We found that the processes of the neurons of nitrergic neurons of 14-day-old rats in the RA group were shorter than those of the control group. Our findings suggest that excess RA during the prenatal period may influence the development and morphology of NADPH-diaphorase positive neurons, probably by RA-specific receptors in the PFC of 14-day-old rats. RA receptors may be the main effector molecules responsible for the changes of dendrite length induced by all-trans RA. During later development, changes are not observed, probably due to maturation of the nervous system.

Diverse effect of different odor stimuli on behavior and Fos protein production in the olfactory system neurogenic region of adult rats

Previously it has been demonstrated that processes of postnatal neurogenesis in the olfactory system neurogenic region-the subventricular zone (SVZ), rostral migratory stream (RMS), and olfactory bulb (OB) can be significantly altered by different factors of an environment. However, the mechanisms involved in regulation of neurogenesis by exogenous factors in the olfactory system remain unclear. The purpose of the present study was to contribute to the understanding of these mechanisms by immunohistochemical assessment of Fos protein induction in areas of adult neurogenesis. To evaluate the coordinate activation of Fos production in neurons of the olfactory system neurogenic region, a brief exposure to artificial odor (eau de Cologne) or naturalistic odor (cat odor) has been used in alert rats. Our results revealed that the effects of these odors are easily distinguishable at both the behavioral and the morphological level. Cat odor induced greater changes in anxiety level, and produced typical pattern of Fos activation in the accessory olfactory bulb (AOB), a brain region associated with defensive behavior. An important finding is, that next to distinct Fos expression in the OB and the AOB, Fos positive cells have been found also within the SVZ/RMS of the odor stimulated rats. Interestingly, Fos expression in the RMS was detected only after exposure to artificial odor stimulus. These results provide new evidence that some SVZ/RMS cells have complete prerequisites necessary for the Fos signal transduction cascade.

Immunohistochemical evidence for the presence of synaptic connections of nitrergic neurons in the rat rostral migratory stream

The rostral migratory stream (RMS) is a migration route for neuroblasts originating in the richest neurogenic niche of the adult mammalian brain-the subventricular zone. Most studies are focused on cellular dynamics of migrating neuroblasts and interactions between neuroblasts and astrocytes which both represent the major cellular component of the RMS. Our previous experiments have brought evidence about the existence of a small population of mature neurons in the adult rat RMS with capacity to produce nitric oxide (NO). In order to further support functional significance of nitrergic cells, the aim of the present study was to determine whether NO producing neurons could form synapses. Sagittal sections from the adult rat brain were processed for simultaneous immunohistochemical detection of neuronal nitric oxide synthase (nNOS), the enzyme present in NO producing cells and synaptophysin, a glycoprotein found in synaptic vesicles. Synaptophysin positivity in the RMS was significantly lower in comparison with other brain areas, but its colocalization with nNOS-positive neurons was obvious. Our results suggest that nitrergic neurons in the RMS could be involved in a neuronal circuitry with potential impact on regulation of neurogenesis in the RMS.

Effect of retinoic acid on the nitrergic innervation of meibomian glands in rats

The purpose of this study was to investigate the effect of prenatal administration of retinoic acid (RA) on the development of nicotinamide adenine dinucleotide diaphorase (NADPH-d) positive structures in the rat Meibomian glands. One mg/kg of RA was applied to pregnant Wistar rats intraperitonaelly during the gestational period in each of the 12th-14th embryonic days (totally 3 mg/kg). Sections of the central upper eyelids were investigated in rat pups on the 14th postnatal day. They were processed histochemically for NADPH-d, to study the presence and distribution of nitric oxide synthase (NOS) positive nerve structures. NADPH-d staining of Meibomian glands was compared in two groups of rat pups. In the control group, eyelids of 14 day-old rats were studied with no experimental intervention. The second group consisted of rat pups which were prenatally administered the excess of RA. Histochemical analysis of control eyelids revealed numerous NADPH-d well-stained acini of Meibomian glands arranged tightly into groups. Intensively stained vessels and NADPH-d/NOS-positive nerve fibers bordered acini of Meibomian glands. These structures were present in the submucosal layer as well. The analysis of RA group showed less numerous, shrunken acini of Meibomian glands that were seen not only smaller in size, but also in density of their staining and the amount of nitrergic nerve fibers around acini were considerably lowered. In the submucosa differences were noticed compared to the control group, there were numerous NADPH-d stained vessels accompanied by NADPH-d/NOS-positive nerve fibers. The excess of RA during the prenatal period may influence on the development and morphology of NADPH-d positive structures of rat's Meibomian glands.

NADPH-diaphorase expression in the rat jejunum after intestinal ischemia/reperfusion

The purpose of this study was to analyze the nicotinamide adenine dinucleotide phosphate - diaphorase (NADPH-d) activity in the rat jejunum after a mesenteric ischemia/reperfusion injury. Nitric oxide, synthetised from L-arginine by the enzyme nitric oxide synthase, is a nonadrenergic noncholinergic relaxant neurotransmitter of the intestinal smooth muscle. It plays an important role in the process of plasticity after the ischemia/reperfusion injury. Experimental animals were divided in two groups: the control group and the ischemic/reperfusion group, with different period of the reperfusion. The NADPH-d histochemical method has been used as a marker for the nitric oxide synthase. NADPH-d activity has been rapidly decreased in the neurons of both enteric nervous systems in plexuses of the jejunum after 1 h mesenteric ischemia and 1 h reperfusion. Differences were predominantly detected in the myenteric plexus; they were seen in change of the neuronal shape, in the arrangement of neurons and in intensity of their staining. The NADPH-d positivity was absent in the intestinal crypts. After 1 h ischemia and 24 h reperfusion, the NADPH-d activity was gradually increased, but it was lower in comparison with the control group. On the 30^th day following the ischemia/reperfusion there were no changes in NADPH-d positivity compared with the control animals. These results indicated that the jejunal ischemia/reperfusion has affected the neurons of the enteric nervous system of adult rats and resulted in the early decrease of NADPH-d positivity 1 h of the reperfusion insult. The gradual increasing of NADPH-d activity in 24 h following the reperfusion could be considered as a result of the plasticity process. On the 30^th day after the ischemia/reperfusion all histochemical changes were returned to the control levels.

Early stress affects neurogenesis in the rat rostral migratory stream

Stressful experience during the early postnatal period may influence processes associated with neurogenesis (i.e. proliferation, cell death, appearance of astrocytes or cell differentiation) in the neonatal rat rostral migratory stream (RMS). To induce stress, pups were subjected to maternal deprivation daily for three hours, starting from the first postnatal day till the seventh postnatal day. Immunohistochemical methods were used to visualize proliferating cells and astrocytes; dying cells and nitrergic cells were visualized using histochemical staining. Quantitative analysis showed that maternal deprivation decreased the number of proliferating cells and significantly increased the number of dying cells in the RMS. Maternal deprivation did not influence the appearance of astrocytes in the RMS, but caused premature differentiation of nitrergic cells. In control rats, nitrergic cells can be observed in the RMS as early as the tenth postnatal day. In maternally deprived pups, these cells were detected as early as the seventh postnatal day. The observed earlier appearance of nitrergic cells in the RMS was associated with altered proliferation and increased cell dying and this observation supports the hypothesis that nitric oxide has an anti-proliferative role in the RMS. Our study demonstrates that maternal deprivation represents a stressful condition with a profound impact on early postnatal neurogenesis.

NADPH-diaphorase expression in the meibomian glands of rat palpebra in postnatal development

In the current study, we aimed at investigating the presence of nitric oxide synthase (NOS) positive nerve fibers in rat meibomian glands (MGs) at various stages of development. There is good evidence to suggest that nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) is a surrogate for neuronal nitric oxide synthase (NOS). Sections of the central, upper eyelids of Wistar rats were processed histochemically for NADPH-d to investigate the presence and distribution of NOS-positive nerve fibers at the following time points: day 1 and weeks 1, 2 and 3 post partum, and in adult controls. At day 1, MG acini were lightly stained and located at a distance from the mucosal border. Vessels were accompanied by intensely stained NADPH-d positive nerve fibers. At the week 1 time point, both the vessels and the NADPH-d positive fibers were still present, but less numerous. MGs were now closer to the mucosa, so that the submucosa was thinner. The acini were mostly pale but occasionally darker. At week 3, there were fewer blood vessels in both the sub-mucosa and within the septa. Darker acini were more common than lightly stained acini. NADPH-d positive dots were observed in the vicinity of the MGs. At the week 3 time point, MGs were adjacent to the mucosal border and stained more intensely than at earlier times; almost all acini were stained. The microscopic appearances were almost identical with those of adult palpebra. Submucosal and septal blood vessels and NADPH-d positive nerve fibers were less numerous. NADPH-d histochemical staining confirmed differences in the density of stained nerve fibers at different developmental stages. The greatest density of NADPH-d -positive nerve fibers occurred in 1-day-old rats whereas they were less numerous in adult rat eyelids. Nerves innervating MGs utilize nitric oxide (NO) as a neurotransmitter mostly in early developmental stages and this need thereafter decreases and stabilizes at 3 weeks postnatally.

Migrating neuroblasts of the rostral migratory stream are putative targets for the action of nitric oxide

It has been demonstrated that the gaseous messenger nitric oxide influences cell proliferation and cell migration, and therefore affects adult neurogenesis in mammals. Here, we investigated the putative targets for this action in the rostral migratory stream of the rat. We used immunocytochemical detection of the beta1 subunit of the enzyme soluble guanylyl cyclase, which can be activated by nitric oxide. Our results under light and electron microscopy demonstrated that the migrating neuroblasts (type A cells) were beta1-immunopositive. The astrocytes (type B cells), immature precursors (type C cells) and ependymal cells (type E cells) were beta1-immunonegative. The neurochemical characterization of the soluble guanylyl cyclase-containing cells confirmed these results. In this regard, the beta1-containing cells expressed doublecortin, a protein expressed by type A cells, and did not express glial fibrillary acidic protein, which is a marker for type B cells. Injection of 5-bromo-2'-deoxyuridine 2 h before killing demonstrated that proliferating cells did not contain soluble guanylyl cyclase. Finally, we found that beta1-containing type A cells also expressed the A3 subunit of the cyclic nucleotide-gated ion channels. Altogether, the present results indicate that nitric oxide may influence adult neurogenesis acting on the migrating neuroblasts of the rostral migratory stream. In these cells, nitric oxide may activate the enzyme soluble guanylyl cyclase, triggering the production of the second messenger cGMP. In turn, cGMP might induce the opening of cyclic nucleotide-gated ion channels, which are present in these cells.

Effect of paternal exposure to gamma rays on juvenile rat forebrain

We studied the transgenerational effect of the sublethal dose of gamma radiation on the proliferative activity of cells in the rostral migratory stream (RMS) in the brain of neonatal and young progeny of male rats exposed to the dose of 3 Gy 25 days before conception with intact control females. To label proliferating cells, the progeny received bromodeoxyuridine (BrdU) injection before sacrifice. The number of BrdU-positive cells was counted in three parts of the forebrain RMS, i.e. in the vertical arm, elbow and horizontal arm, at the 3rd, 7th, 14th, 21st and 28th postnatal days (P3-P28). In the RMS of control rats' progeny, the number of BrdU(+) cells transiently decreased at the 7th-14th postnatal days. In the progeny of irradiated rats, the dynamics of the changes was similar to that in the corresponding control groups, however, the number of BrdU-positive cells was significantly higher along the whole RMS at all intervals of investigation. These results suggest that paternal exposure to ionizing radiation induced the genome instability, which manifested itself in the progeny by alteration in proliferative activity or slackening of cell migration in the RMS.