Effects of oxygenation conditions on the respiratory activity generated by medullo-spinal preparations of rats

On isolated medullo-spinal preparations (IMSP) of newborn rats that generate rhythmic respiratory activity, we observed specific features of the reactions to a decrease in the O₂ tension in the superfusing medium (saturation with an isocapnic anoxic gas mixture) manifested in a standard configuration of the preparation, after separation of the rostral part of the medulla and after pH modifications. Using microelectrode amperometric measurements of pO₂ above the ventral medullary surface and of pO₂ profiles into the medullary tissues, we demonstrated the dependence of oxygen supply of IMSP on the rate of superfusion and the existence of hypoxic and anoxic zones in its tissues. The mechanisms of sensitivity of the IMSP-generated respiratory rhythm to hypoxia are discussed.     

Effect of nitric oxide on the respiratory activity generated under hypoxic conditions by medullo-spinal preparations from early postnatal rats

Experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3- to 4-day-old rats were carried out to study the effects of a blocker of nitric oxide synthase (NO synthase), methyl ester of N^G-nitro-L-arginine (MENA), and an exogenic NO donor, nitroglycerin, on the respiratory activity. Inspiratory discharges (ID) were recorded from the phrenic nerve under superfusion of SIMSP with a standard saline and a solution saturated with anoxic isocapnic gas mixture. Under normal conditions, 3-min-long applications of 1.0 μM MENA evoked no significant changes in the parameters of inspiratory activity; yet 10.0 μM of this blocker evoked a significant drop in the amplitude and an increase in the ID frequency. Three-min-long applications of 1.0 μM nitroglycerin significantly decreased the ID frequency and somewhat increased their amplitude and integral intensity. Higher doses of nitroglycerin (10.0 μM) significantly increased the amplitude and integral intensity of ID and in a lesser extent lowered their frequency. Under conditions of 3-min-long hypoxia, 10-min-long preliminary superfusion of SIMSP with the 1.0 μM MENA-containing saline resulted in no significant changes of respiratory activity, as compared with the hypoxia effect in the norm. Applied before the hypoxic test, 10 μM MENA resulted in significant decreases in the amplitude and integral intensity of ID; concurrently their frequency became higher, as compared with the respective parameters measured at hypoxic testing of the intact preparations. Ten-min-long superfusion with 1.0 μM nitroglycerin-containing solution at subsequent hypoxic testing significantly increased the amplitude and integral intensity of ID and decreased their frequency; these shifts developed during the first half of exposure to the hypoxic solution. Increased (to 10 μM) nitroglycerin concentration resulted in less intensive shifts in the ID frequency within the first half of a hypoxic episode. In a part of the tests, the second half of exposure of SIMSP to the hypoxic solution was characterized by the appearance of low-amplitude short ID against the background of suppressed eupnea-like respiratory activity; we qualified such discharges as gasping discharges. The experimental data confirm the involvement, of NO in the central regulation of the frequency and amplitude parameters of inspiratory activity generated by SIMSP of early postnatal rats both under normoxic and hypoxic conditions. The role NO plays under hypoxic conditions in modifications of parameters of respiratory activity and in modulation of the functional, levels of the bulbar respiratory generator is discussed.     

Involvement of NMDA receptors in the control of respiratory rhythm generated by medullo-spinal preparations of early postnatal rats

Effects of a non-competetive blocker of glutamate NMDA receptors, ketamine, on respiratory activity recorded from the phrenic nerve were studied in experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3− to 4-day-old rats. The experiments were carried out under conditions where the ventrolateral medullary region (VLM) was left intact, or its rostral portion (projectionally corresponding to the chemosensitiveM zone) was separated by transection. Three-min-long application of 1.0 μM ketamine evoked a slight increase in the duration of inspiratory discharges (ID) and a statistically significant increase in their frequency. After the rostral VLM had been separated, similar ketamine application resulted in significant increases in the duration, amplitude, and integral intensity of ID and some drop in their frequency. An increase to 10 μM ketamine concentration in the superfusing solution determined a significant rise of the ID duration, which indicates the possibility of inhibition of the mechanisms switching inspiration to expiration. Concurrently, the ID frequency significantly dropped, while their amplitude and integral intensity increased. After separation of the rostral VLM, the latter ketamine concentration ceased to increase the ID duration, and their frequency and amplitude significantly dropped. Application of ketamine in the concentration of 100 μM resulted in rather profound decreases of all measured ID parameters, and separation of the rostral VLM exerted no influence on the direction of the above modifications. Thus, we obtained evidence of the involvement of NMDA receptors of the VLM in the control of temporal and frequency-amplitude parameters of respiratory activity of early postnatal rats. Possible localization of NMDA receptors and mechanisms of their involvement in inspiration-expiration switching and tonic inhibitory control of respiratory rhythms are discussed.     

Blocking of glutamate ionotropic receptors: Influence on the respiratory activity generated by medullo-spinal preparations of rats in hypoxia

We studied the influences of a non-competitive blocker of glutamate NMDA-receptors ketamune and of a competitive blocker of AMPA-kainate non-NMDA receptors, CNQX, on the respiratory activity generelated by superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3- to 4-day-old rats. We compared the ampes recorded under conditions of superfusion, a standard solution and the solution saturated with an anoxic isocapine gas mixture were compared; pO₂ in these solutions were 440±22 and 41±8 mm Hg, respectively. The experments were carried out with the ventrolateral medullary region (VLMR) left intact or after separation of its rostral part, which propertchonally corresponded to the chemosensitiveM zone. A 3-min-long hypoxic test initially evoked an increase in the frequency of inspiratory discharges (IR) in the phrenic nerve followed by a frequency drop within the final half of the test. After the rostral VLMR had been separated, the hypoxic test did not elicit a significant decrease in the IR frequency. After preliminary application of 1.0 or 10.0 μM ketamine or CNQX on intact preparations, the IR frequency under hypoxic conditions dropped within the first half of the test and increased in the second half, while the amplitude and integral intensity of these discharges were depressed more intensively than in hypoxia with no applications. Using ketamme and CNQX in the same concentrations resulted in significant drops in the amplitude, frequency, and integral intensity of IR recorde din the hypoxic test. Our experiments showed that in the early postnatal period glutamate ionotropic receptors of rostral VLMR neurons are involved in the control of IR frequency under hypoxic conditions. The possible role of glutamatergic control of the respiratory rhythm and mechanisms of the influences resulting from blocking of NMDA and non-NMDA receptors on the parameters of respiratory activity are discussed.     

Involvement of nitric oxide in realization of the NMDA influence on the respiratory rhythm generated by medullo-spinal preparations of early postnatal rats

The effects of blocking of NO synthase on the dynamics of NMDA-induced changes in the respiratory activity were studied in experiments on semi-isolatedin situ medullo-spinal preparations of 3- to 4-day-old rats. The experiments were carried out with the ventrolateral regions of the medulla (VLMR) left intact or when the rostral portion of this region (corresponding to the chemosensitive zoneM) had been separated by a transversial transection. Three-min-long application of 5.0 μM NMDA increased the frequency of inspiratory discharges (ID); the shifts were more intensive after separation of the VLM rostral portion. Superfusion of preparations with a solution containing 10.0 μM of an NO synthase inhibitor, methyl ester of N^G-nitro-L-arginine (MENA), increased the frequency and decreased the amplitude and integral intensity of ID generated by the preparations with the intact VLM, whereas after separation of the rostral VLM portion this inhibitor decreased the ID frequency. Application of 5 μM NMDA against the background of 10-min-long superfusion with the 10 μM MENA-containing solution resulted in no significant increase in the ID frequency. After the rostral VLM portion had been removed, NMDA application after superfusion with the MENA-containing solution led to frequency shifts which did not significantly differ from those in the absence of the blockade of NO synthase. Against the MENA influence, NMDA-induced depression of the ID amplitude became significantly more intensive. The experiments showed that during the early postnatal period endogenous NO is involved in realization of the NMDA influence on the parameters of respiratory activity of rats. Possible mechanisms of the influences exerted by activation of NMDA receptors and by the associated NO synthesis on regulation of the respiratory rhythmogenesis and their specificity within the early postnatal period are discussed.     

Respiratory activity generated by semi-isolated medullo-spinal preparation and recorded from the phrenic nerve of newborn rats

Inspiratory activity generated by superfusedin situ semi-isolated medullo-spinal preparations of newborn (one-day-old) and four- to five-day-old rats was recorded from then. phrenicus before and after transverse sectioning of the ventrolateral part of the medulla (VLPM) at different levels. Under similar experimental conditions, the frequency of inspiratory discharges (ID) and their integral intensity, reflecting the volume and temporal parameters of inspiration, are much lower in one-day-old rats, as compared with those in four- to five-day-old animals. Specific roles of different VLPM levels in respiration control in young rats are demonstrated. Transection of the VLPM below the most rostral VLPM portion, corresponding to theM chemosensitive zone, caused a significant increase in the ID frequency and a decrease in the ID integral intensity. Transection performed below the intermediate VLPM region, corresponding to theS chemosensitive zone, resulted in a significant decrease in both ID frequency and ID integral intensity, up to total ID blockade in 5 of 12 1-day-old preparations. This finding can be interpreted as an indication of morphofunctional immaturity of the respiratory network in the caudal VLPM regions in newborn animals. Comparative analysis of ID pattern showed that this activity in one-day-old rats is more or less gasping-like, while that in four- to five-day-old animals is eupnoe-like. The results allow us to conclude that the level of maturity of morphofunctional organization of medullary respiratory networks considerably differs in newborn and older animals. The mechanisms responsible for formation and control of respiratory activity in early postnatal period of rats are discussed.Neirofiziologiya/Neurophysiology, Vol. 27, No. 5/6, pp. 387–395, September–December, 1995.     

Roles of NMDA receptors and nitric oxide in responses of the medullary respiratory generator of early postnatal rats to hypoxia and acidosis

The dynamics of changes in the frequency of the respiratory activity recorded from the n. phrenicus under conditions of 3-min-long applications of 5 μM N-methyl-D-aspartate (NMDA), an anoxic gas mixture-saturated saline, or an acidified (pH 7.0) solution were studied in the experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3- to 4-day-old rats. Test applications were performed on the intact SIMSP or on those preliminarily influenced by the following substances: a non-competitive NMDA receptor blocker, ketamine (10 μM); an inhibitor of NO synthase, methyl ester of N^G-nitro-L-arginine (MENA, l0 μM); hemoglobin, which binds NO (Hb, 0.3 μM); an NO donor, sodium nitroprusside (SNP, 10 μM); or/and a competitive blocker of non-NMDA receptors, CNQX (1.0 μM). Application of NMDA increased the frequency of the respiratory discharges, and the effect was blocked by MENA, Hb, and SNP. Addition of Hb to the SNP-containing solution neutralized the effect of the latter. In hypoxia, ketamine blocked an increase in the respiratory frequency within the initial 90-sec segment of the test and decreased the rhythm suppression within the second test half. MENA increased the respiration discharge frequency throughout the test. CNQX exerted no Influence on the frequency in the initial period and decreased its suppression within the second test half. Preliminary ketamine and MENA applications made smaller the increment of the discharge frequency at application of the solution with pH 7.0; the MENA effect was stronger. In addition, using a histochemical technique, we studied spatial distribution of the neurons containing an NO synthase marker, NADPH-diaphorase (NADPH-d), in frontal sections of the medulla of 4-day-old rats. NADPH-d-positive cells were observed within the limits of the dorsal and ventral respiratory neuronal groups (DRG and VRG, respectively). Their density was the highest in the rostral VRG part (in the region of the lateral paragigantocellular nucleus). Our results show that in early postnatal rats NMDA receptors and endogenous NO are actively involved in the control of respiratory rhythm generated by SIMSP under hypoxic and acidotic conditions. The results of morphohistochemical study can be considered a neuroanatomical support for the active NO role in the control of medullary respiratory rhythm in the early postnatal period.     

Pacemaker properties of respiratory neurons of the ventrolateral medullary regions in early postnatal rats

Spike activity of respiratory neurons of the ventrolateral medullary regions was studied under conditions of blocking of synaptic transmission. The experiments were carried out on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of newborn (1st day of life) and 4- to 5-day-old rats. Part of the pre-inspiratory and (to a somewhat lesser extent) expiratory neurons of newborn rats appeared most resistive to superfusion of preparations with a low-Ca²⁺ (0.2 mM) and Mg²⁺-rich (5.0 mM) solution. Spike activity in some neurons of these groups was preserved up to 40 and 25 min, respectively, after mass inspiratory discharges in then. phrenicus had disappeared. Similar neurons in 4- to 5-day-old SIMSP were less resistive. Inspiratory neurons in animals of both age groups demonstrated no pacemaker properties. Coagulation of the regions where pre-inspiratory neurons are localized (the retrofacial zone) did not evoke irreversible blockade of respiratory rhythm in all SIMSP of 4- to-5-day-old rats and in most SIMSP of newborn animals. At the same time, coagulation of the zone where inspiratory neurons are concentrated (the pre-Bötzinger complex) resulted in the blockade of respiratory rhythm in all SIMSP, with no exceptions.Neirofiziologiya/Neurophysiology, Vol. 28, No. 6, pp. 273–284, November–December, 1996.     

Long-term effect of postnatal hypoxia on the seizure susceptibility in rats

The effects of postnatal hypoxia at ten days of age on the pentylenetetrazol (PTZ)-induced seizure and amygdaloid kindling were investigated in male adult rats. The rats with postnatal hypoxia were significantly more susceptible to PTZ and had a significantly more easily induced amygdaloid kindling with a rapid propagation of afterdischarges to the contralateral amygdala than the control group. Light microscopic examination in one adult rat brain with postnatal hypoxia revealed no abnormal histopathological changes. The present study suggests that the consequences of postnatal hypoxia in rats remain for a long time as enhancement in seizure susceptibility.     

Effects of acute hypoxia and hyperoxia on respiratory rate in albino rats chronically exposed to hypoxia

Changes in respiratory frequencies with hypoxic or hyperoxic exposure were studied in: 12 normoxic control rats (N) born and raised in normoxic environment at sea level; 12 rats (A) born and raised in normoxic environment at sea level exposed to normobaric hypoxia (10% O2 in N2) as adults; 12 rats of first generation (G1) raised in the above mentioned hypoxic environment since a few hours after birth; 12 rats of third generation (G3) conceived and born in the hypoxic environment of hypoxic parents of second generation and maintained continuously under hypoxic conditions until their utilization. The response of A rats to 10% O2 and 7% O2 breathing was elevated (57% and 86% over air breathing). The mean respiratory frequency of A rats exposed to 7% O2 rose to a greater extent than did that of N rats. The G1 and G3 rats were less responsive to 7% O2 (64% and 37% over air breathing, respectively) than N and A rats; however, in G1 rats the exposure to 7% O2 produced a greater rise of frequency than in G3 rats. Furthermore A rats, G1 rats and G3 rats were less responsive to 97% O2 breathing (19%, 19% and 11% below air breathing, respectively). Comparing these data with previous findings we suggest that, with chronic exposure to hypoxia, changes in ventilatory response to hypoxia and hyperoxia occur in the following manner: I) loss of response to hypoxia if chronic exposure is begun in the immediate postnatal period; 2) degree of response to hypoxia or hyperoxia influenced by duration of chronic exposure.     

Effect of long-term hypoxia upon the activity of some enzymes in the brain of rats during early postnatal ontogenesis and in adulthood.

Enzymatic activities were determined in the prosencephalon of rats which had been exposed repeatedly for 8 hrs, either from the age of 1 to 17 days or in adulthood, to an altitude of 7,000 m in a barometric chamber (up to a total of 104 hrs). The activity of enzymes was assayed 20 hrs after the last exposure. The results were compared with values obtained 20 hrs after a single 8-hour exposure to a stimulated altitude of 7,000 m in 17-day-old and adult rats. In young rats a single exposure to hypoxia, the most elevated was the activity of LDH and isoCDH, while GPT and CPK were decreased. After repeated hypoxia, the most significant increasw was noted in the activity of PK and again a decrease in GPT and CPK. In adulthood, a single exposure to hypoxia causes the greatest increase in CPK, while LDH and GOT are reduced. Following repeated hypoxia, none of the enzyme activities were increased by more than 20%, while LDH, GOT, GIDH and CPK were again lower. It is concluded from these results that a single exposure to hypoxia increases anaerobic glycolysis in the immature nervous tissue and improves its oxygen utilization. The relationship between glycid and amino acid metabolism are not appreciably altered. On the other hand, a general reduction of bioenergetics and biosynthesis occurs in adulthood. Repeated hypoxia, on the contrary, has similar after-effects in both age groups, namely inhibition of aerobic metabolism and of the relations between glycid and amino acid metabolism.     

Participation of the opioid- and serotonergic systems of the ventrolateral medullary regions in the control of respiratory activity in early postnatal rats

The effects of blockers of opioid and serotonin receptors (naloxone and methisergide, respectively) on the respiratory activity recorded from then. phrenicus of semi-isolated medullo-spinal preparations (SIMSP) were studied in newborn (1-day-old) and 4- to 5-day-old rats. The preparations were superfusedin situ, and inspiratory discharges (ID) were recorded before and after transverse sections of the ventrolateral medullary regions (VLMR) at different levels. Naloxone evoked an increase in the ID frequency in then. phrenicus both at the initial configuration of preparations and after successive transections of the VLMR between theM andS chemosensitive zones and between theS andL zones. The relative intensity of this effect was significantly higher in newborn rats than in 4- to 5-day-old ones. In contrast, methisergide made the ID frequency lower at all configurations of the SIMSP, and this effect was more intensive in 4- to 5-day-old animals. In the course of progressive separations of more rostral VLMR zones, the effects of naloxone and methisergide applications on the ID frequency became weaker. This allows us to suppose that in newborn rats the rostral VLMR portions provide more intensive opioidergic inhibitory control influences on the activity of respiratory networks than those in 4- to 5-day-old animals. At the same time, tonic activating influences from serotonergic VLMR neurons on the mechanisms generating respiratory rhythm are more intensive in 4- to 5-day-old animals than those in newborn ones. Thus, it can be supposed that the levels of maturation of the opioid- and serotonergic neurotransmitter systems, which provide tonic control of respiratory activity generated in the VLMR, are different in newborn and 4- to 5-day-old animals. The problems of how the opioid- and serotonergic mechanisms controlling respiratory rhythm generation are formed in the course of early stages of ontogenetic development are discussed.Neirofiziologiya/Neurophysiology, Vol. 28, No. 1, pp. 62–73, January–February, 1996.     

Parameters of discharges of respiratory neurons of the ventrolateral medullary regions in early postnatal rats

In experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of newborn (1st day of life) and 4- to 5-day-old rats, we studied the parameters of extracellularly recorded spike activity of respiratory neurons of the ventrolateral medullary regions (VLMR). In SIMSP of 4- to 5-day-old rats, the frequency of discharges of pre-inspiratory, inspiratory, and expiratory neurons is shown to be significantly higher, while the dispersion of its values is considerably lower, as compared with the corresponding values for newborn animals. In the majority of pre-inspiratory and inspiratory neurons of SIMSP of newborn rats, irregular low-frequency discharges are usually generated within the interinspiration phase. The relative intensity of suppression of discharges of pre-inspiratory and expiratory neurons within an inspiration phase is much lower in SIMSP of newborn rats, as compared with that in 4- to 5-day-old preparations. The activity of most pre-inspiratory neurons manifests a trend toward transformation from a two-phase pattern in newborn rats (with two frequency peaks, pre- and post-inspiratory) to a monophasic pattern (with one pre-inspiratory frequency peak) typical of 4- to 5-day-old animals. The effects of electrical stimulation of the site of localization of pre-inspiratory neurons showed that in SIMSP of both age groups of rats an inspiratory response could be evoked in then. phrenicus only in the case when stimulation was applied within the second half of an interinspiratory phase. Therefore, it can be supposed that the respiratory network in newborn animals is to a considerable extent immature in the morphofunctional aspect. It seems probable that in early postnatal rats pre-inspiratory neurons are involved in the medullary mechanisms foron-off switching of the inspiratory and expiratory phases.Neirofiziologiya/Neurophysiology, Vol. 28, No. 4/5, pp. 207–217, July–October, 1996.     

Early postnatal chronic intermittent hypoxia modifies hypoxic respiratory responses and long-term phrenic facilitation in adult rats

Acute isocapnic intermittent hypoxia elicits time-dependent, serotonin-dependent enhancement of phrenic motor output in anesthetized rats (phrenic long-term facilitation, pLTF). In adult rats, pLTF is enhanced by chronic intermittent hypoxia (CIH). To test the hypothesis that early postnatal CIH induces persistent modifications of ventilation and pLTF, we exposed male Sprague-Dawley rat pups on their first day of life to a CIH profile consisting of alternating room air and 10% oxygen every 90 s for 30 days during daylight hours (RAIH) or to comparable exposures consisting of room air throughout (RARA). One month after cessation of CIH, respiratory responses were recorded using whole body plethysmography, and integrated phrenic nerve activity was recorded in urethane-anesthetized, vagotomized, paralyzed, and ventilated rats at baseline and after exposures to three 5-min hypoxic episodes [inspired O2 fraction (FiO2)=0.11] separated by 5 min of hyperoxia (FiO2=0.5). RAIH rats displayed greater normoxic ventilation and also increased burst frequency compared with RARA rats (P<0.01). Ventilatory responses to hypoxia and short-term phrenic responses during acute hypoxic challenges were reduced in RAIH rats (P<0.01). Although pLTF was present in both RAIH and RARA rats, it was diminished in RAIH rats (minute activity: 74+/-2% in RARA vs. 55+/-5% in RAIH at 60 min; P<0.01). Thus we conclude that early postnatal CIH modifies normoxic and hypoxic ventilatory and phrenic responses that persist at 1 mo after cessation of CIH (i.e., metaplasticity) and markedly differ from previously reported increased neural plasticity changes induced by CIH in adult rats.