Postnatal development of heart rate patterns elicited by an aversive CS and US in cats

Heart rate and motor responses were recorded in cats of different ages during classical conditioning. A deceleratory-acceleratory heart rate pattern observed during the CS-US interval in one- and four-week-old kittens is an alpha conditioned response, a potentiated original response to the CS. At eight weeks of age two new distinct patterns of pure acceleration or pure deceleration are acquired during conditioning and in the absence of motor learning. At 12 weeks of age and in adult subjects, heart rate patterns during the CS-US interval become more complex and conditioned motor responses can be observed. A covariance of HR acceleration and motor responses during the CS-US interval is absent in eight-week-old subjects, but quite high in 12-week-old subjects and adult cats. The data are interpreted as suggesting separate elicitatory mechanisms of HR and motor responses which may show synchrony later in ontogeny.     

The electrophysiological properties of the conduction pathways of the stellate ganglion in the cat in postnatal ontogeny]

In new-born, 10-, and 20-day-old kittens and in adult cats, the stellate ganglia branches contained both continuous and synaptically interrupted fibres. In the course of postnatal ontogenesis, the average conduction velocity of excitation and average amplitude of the responses increased. In new-born and 10-day old kittens, these are C-fibres. Apart from the latter, A delta and B fibres appeared in 20-day old kittens. In adult cats, two subgroups of all types of the fibres appeared. Since the 10-day age, synaptically interrupted responses have been recorded in anastomoses and inferior cardiac nerve following stimulation of cranial and caudal branches of the subclavian loop, the responses being conducted in both directions in adult cats.     

Serologic and virologic surveys on feline herpesvirus and feline calicivirus infections in cats for experimental use

Serologic survey and virus isolation of feline herpesvirus (FHV) and feline calicivirus (FCV) were performed on cats used for research at the Laboratory Animal Research Centre, The University of Tsukuba, over the period from 1978 to 1981. Of the 507 mature and immature cats, 4 months old or older, 102 (20.1%) had HI antibody against FHV and 412 (81.3%) SN antibody against FCV. Some 23 (16.2%) and 76 (53.5%) kittens among 142 younger than 4 months had antibodies against FHV and FCV, respectively. Both the antibodies in kittens were considered to be maternally derived. The FCV antibody rate was especially high in cats weighing 2.5 kg (males) and 2.0 kg (females) or more, which were regarded as 8 to 10 months of age. An attempt was made to isolate the viruses from the oropharynx and conjunctiva of clinically healthy mature or immature cats and kittens. As the result, either one or both of the viruses were isolated from 31 of 75 mature and immature cats, and isolation rates of FHV and FCV were 6.7% and 36.0%, respectively. On the other hand, no virus was detectable in 16 kittens.     

Ontogenesis of the asymmetry of transcallosal responses in the cat parietal cortex

In acute experiments on 2-24 days old immobilized kittens and adult cats, studies have been made on the development of functional interhemispheric asymmetry of homotopical transcallosal responses in the parietal cortex. It was found that the number of animals with evident asymmetry increases with age. Alongside, with respect to such characters as asymmetry coefficient, mean amplitude of components of transcallosal components and the ratio of zones of direct and inverse domination, the increase in functional interhemispheric asymmetry was observed during the second week of postnatal life of kittens, which was accompanied by the inversion of its sign; in adult cats, the decrease in the asymmetry up to its complete absence was found. The data obtained are discussed with respect to peculiarities of the development and functional properties of the associative parietal cortex in cats.     

Evaluation of tri-combinant vaccine for feline herpesvirus, calicivirus and panleukopenia virus infections in Japanese native cats

Tri-combinant vaccine consisting of attenuated feline herpesvirus (FHV) and feline calicivirus (FCV) and inactivated feline panleukopenia virus (FPLV), were evaluated for safety and efficacy, using Japanese native cats and the viral strains isolated in Japan. Thirty-eight 9- to 12-week-old kittens were inoculated intramuscularly and subcutaneously with the vaccine. Consequently, no adverse reaction was found, and protective efficacy was confirmed by challenge tests with the virulent strains of each virus. Serum-neutralizing antibodies against FCV and FPLV were maintained for at least one year after vaccination, whereas antibody against FHV disappeared in two cases at 24 weeks after vaccination. Application of this vaccine seemed effective for control of feline viral disease in cats for experimental use.     

Diaphragmatic and ventilatory responses to alveolar hypoxia and hypercapnia in conscious kittens.

Ventilation and electromyographic (EMG) activity of the diaphragm were recorded in unanesthetized kittens 2 and 10 wk of age during normoxia, hypercapnia (2 and 4% CO2), and hypoxia (12 and 10% O2). We measured integrated diaphragmatic EMG activity at end inspiration (DIAI) and end expiration (DIAE); the difference (DIAI-E), which represents the phasic change of the diaphragmatic activity, was considered responsible for a given tidal volume (VT). During hypercapnia, the 2-wk-old kittens increased minute ventilation (V) by increases in both VT and respiratory frequency (f), whereas the 10-wk-old kittens increased V primarily by an increase in VT. At both ages, DIAI and DIAI-E increased during hypercapnia, whereas DIAE did not change significantly. During hypoxia, in the young kittens, V and VT decreased while f increased markedly; in the older kittens, V, VT, and f did not change significantly. In kittens of both ages, DIAI increased during hypoxia; because diaphragmatic activity persisted into expiration, DIAE also increased. DIAI-E, as well as VT, was decreased in the young kittens, whereas in the older ones DIAI-E was slightly increased despite an unchanged VT. Finally, the ventilatory and diaphragmatic response to hypoxia changes with maturation in contrast to the response to hypercapnia. It is concluded that 1) the hypoxia-induced reduction of VT may result from prolongation of diaphragmatic activity into expiration, inasmuch as it induces a reduction of the phasic change of the diaphragmatic activity, and 2) because DIAI-E indirectly reflects central inspiratory output, a central mechanism should be involved in the reduced VT and V in response to hypoxia in newborns.     

Posttetanic changes in the afferent and efferent activity of monosynaptic reflex in kittens

Both the afferent volleys from the dorsal root and the monosynaptic reflex discharges from the corresponding ventral root were recorded with hook electrodes during stimulation of the nerves innervating the triceps surae muscles. The effects of conditioning high frequency tetanus on the magnitudes of these afferents and reflex volleys were examined in kittens of postnatal age 1-90 days and in adult cats. In young kittens under barbiturate anaesthesia, large-amplitude monosynaptic reflex discharge can be evoked without prior conditioning. The amplitude of this reflex discharge decreased with increasing age of the animal. Application of conditioning tetanic stimuli to the muscle nerves resulted in posttetanic depression followed by posttetanic potentiation of the monosynaptic reflex. The magnitude of posttetanic depression was much higher than that of potentiation in the first postnatal week. As the age increased, the magnitude of depression decreased while the magnitude of potentiation increased. The afferent volley showed a considerable posttetanic potentiation in older kittens and cats. No significant potentiation or depression was observed in the younger animals. Possible mechanisms contributing to posttetanic depression and potentiation are discussed.     

Cellular responses of cats with primary toxoplasmosis.

The cellular responses of 8 kittens (4 inoculated orally with mouse brains containing Toxoplasma gondii cysts and 4 uninfected controls) were studied. Oocyst numbers, body weight, and rectal temperature were monitored daily. Blood was collected weekly for serology and mononuclear cell purification. At necropsy, peritoneal and alveolar macrophages, spleen, and lymph node cells were harvested. Infected cats shed oocysts 4-15 days postinfection, maintained normal body weight and rectal temperature, and developed anti-T. gondii immunoglobulin M and G. Infected cats had normal surface immunoglobulin-positive cell populations and peripheral blood lymphocyte functions. The infected cats differed in their responses from control cats in that they developed circulating T. gondii antigen-specific lymphocytes, had increased interleukin 1 secretion by monocytes, had spleen and lymph node cells with depressed mitogenic responses and interleukin 2 production, and had macrophages with enhanced abilities in preventing the intracellular proliferation of T. gondii. Overall, the primary response of the cat to an infection with T. gondii appeared similar to that of other hosts.     

Age differences in responsiveness of brainstem chemosensitive neurons to extracellular pH changes

The sensitivity of neurons in the caudal chemosensitive area on the ventrolateral surface of the medulla oblongata (VMS) to extracellular pH changes was examined in newborn and young developing kittens and compared to that of adult cats. The pH was varied by superfusion of the VMS with mock cerebrospinal fluid (CSF) of pH 7.4 (control), 7.0 (acid) and 7.8 (alkaline). A total of 97 neuronal units in the three age groups changed their firing rates inversely in response to extracellular fluid (ECF) pH changes. The greatest sensitivity was found in the adult group where acid superfusion caused an increase in neuronal activity. The least sensitivity was observed in the newborn group (1-6 days old), whereas the young kitten group (4-6 weeks old) exhibited an intermediate sensitivity. Neurons of kittens older than 7 weeks of age demonstrated a response pattern characteristic of the adult group. Neurons of neonates older than seven days, exhibited a response pattern characteristic of the young kitten group.     

Functional Role of Cerebellar Purkinje Cells in Ontogenesis of Postural-Motor Reactions in Mature- and Immature-Born Mammals

In experiments on guinea pigs, cats, and rats of different ages, from newborns to adults, the postural and stato-kinetic reflexes were studied with subsequent recording of electrical activity of identified cerebellar Purkinje cells (PC) in the same animals. Simultaneously in same age group of the animals, a morphometrical study of the shape and size of Purkinje cells and their nuclei was carried out. The first signs of manifestation of reflexes of standing and of the support reaction were observed in mature-born guinea pigs as early as at the first day after birth. At this time the PC fire has an irregular and low-frequency character with long inhibitory pauses and a great dispersion of the frequency-time characteristics. In the course of postnatal ontogenesis the parameter of the ratio of frequencies of simple and complex spikes increased in all the studied animals, guinea pigs, rat puppies, and kittens, but to different degrees. The complete maturation of the PC activity in the mature-born guinea pigs took 3–4 weeks after birth, whereas in the immature-born rat puppies and kittens this process took, on average, 5–6 and 8–9 weeks, respectively. By this time, all the studied postural-motor reactions were formed. The comparison of the course of formation of the frequency-time characteristics of the Purkinje cell activity in mature- (guinea pigs) and immature-born (rats and cats) animals allowed establishing that the highest rate of maturation of the Purkinje cell activity in the mature-born animals is observed during the first half, whereas in immature-born animals, during the second half of postnatal ontogenesis. A similar rate of changes also took place at maturation of postural-motor reflexes. The complete functional maturity of the Purkinje cell occurred, as a rule, at the time period when the shape and size of the Purkinje cell body became close to the definitive ones, and their vertical and horizontal diameters reached the values characteristic of adult animals.     

Characteristics of inhibition in the kitten sensory-motor cortex

Responses of 340 neurons of the sensory-motor cortex to electric shocks applied to the limbs were investigated in kittens aged 3–30 days. In 9.4% of cells of kittens aged 3–10 days and in 17.1% of cells in kittens aged 21–30 days pauses were observed immediately after the excitatory component of the extracellular response. Intra- and quasiintracellular recording showed that postsynaptic inhibition participates in the genesis of these pauses. The IPSPs which, as a rule, followed the excitatory component of the response were of much longer duration (up to 250–380 msec) than the analogous IPSPs in the sensory-motor cortex of adult cats. Usually the amplitude of the IPSP in kittens did not exceed 5 mV.A. A. Zhdanov Leningrad State University. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 227–231, May–June, 1977.     

DNA methylation status in somatic and placenta cells of cloned cats

We recently produced 11 cloned kittens by somatic cell nuclear transfer (SCNT) using fibroblasts from a feline fetus (donor A, three kittens), an adult domestic cat (donor B, one kitten), and a deaf adult Turkish Angora cat (donor C, seven kittens). Two kittens were stillborn and three died a month after birth. The donor C-derived kittens did not share their donor's eye color or deafness. To test whether this and the low cloning success rate are due to epigenetic modifications, we compared the methylation of somatic and placental cells from the cloned cats and domestic normal cats by bisulfite mutagenesis sequencing analysis. The DNA methylation of somatic cells from the cloned kittens ranged from 78.0% to 88.9%, and did not differ significantly depending on whether they were stillborn, died early after birth, or were healthy. Donors B and C showed similar levels of methylation (77.0% and 79.1%, respectively), as did somatic cells from normal domestic and Turkish Angora cats (range, 75.7-88.0%). However, donor A showed less methylation (70.6%) than the somatic cells from the kittens derived from it (range, 82.2-88.9%). Moreover, placental cells from three donor C-derived kittens showed significantly higher DNA methylation (range, 76.7-80.5%) than placental cells from normal domestic cats (range, 64.2-74.9%). Thus, methylation of satellite regions in somatic cells may not be responsible for the stillbirth, early death, or different eye and hearing attributes of cloned cats. However, hypermethylation in the placenta of cloned cats may be responsible for low success rates in cloning cats.     

Effects of tetanic stimulation on monosynaptic and dorsal root reflexes in kittens.

The effects of tetanic stimulation of peripheral afferents were examined on monosynaptic reflexes and dorsal root reflexes in kittens of various ages. Concomitantly recorded monosynaptic and dorsal root reflexes resulting from the stimulation of muscle nerves showed similar post-tetanic changes, namely, predominantly post-tetanic depression in neonates and post-tetanic potentiation in older kittens or adults. However, the changes in post-tetanic responses expressed as a percentage of control in dorsal root reflexes were much smaller than those in monosynaptic reflexes. When dorsal root reflexes originating from muscle and cutaneous afferents were compared, dorsal root reflexes from the latter behaved quite differently. For all ages, post-tetanic effects on dorsal root reflexes arising from cutaneous afferents were either insignificant or very small. The possible mechanisms underlying differences in post-tetanic effects from muscle and cutaneous afferents in adults and neonates are discussed.     

电刺激猫中脑中央灰质发音区的反应及该区的传入联系

刺激猫中脑中央灰质发音区可引起动物发音、情绪反应以及心律异常、血压升高等变化。同时,本研究还揭示,分别在中脑中央灰质嘴侧和尾侧发音区注入辣根过氧化物酶后,其逆行标记神经元分布相类似;但是,中脑中央灰质发音区和非发音区的传入联系则互不相同。     

Asymmetry of the transcallosal responses in the parietal cortex of kittens in the 1st month of life

In acute experiments on kittens the process of formation of asymmetry of transcallosal responses (TCR) was studied in multiple leads from symmetrical points of the parietal cortex. By the early positive-negative TCR complex, vanishing as a result of callosotomy, predominance of positive components in the right hemisphere was found in 2-7 days kittens, whereas in 8-24 days animals the left hemisphere dominated by both phases of responses. By the late TCR component preserved after section of the callosal body, left-hemispheric asymmetry was found in the elder group of kittens; it was absent in the younger animals. TCR asymmetry in the parietal cortex depended on the sex of the animals. With their age its inversion and enhancement took place. This process is based on the increase of TCR amplitude in the left hemisphere, with no increase in the right hemisphere.     

Effects of caffeine on carotid sinus nerve chemosensory discharge in kittens and cats

Bairam, A., P. De Grandpré, C. Dauphin, and F. Marchal. Effects of caffeine on carotid sinus nervechemosensory discharge in kittens and cats. J. Appl.Physiol. 82(2): 413-418, 1997.Caffeine (C)decreases apneic episodes in premature infants and is thought tostimulate breathing mainly by a central mechanism. While the methylxanthines theophylline and aminophylline are known to alter thecarotid chemoreceptor activity, there are little data on C. The aim ofthe study was to examine the effects of C on the carotid sinus nervedischarge (CSND) in developing animals. Nine kittens 17-21 daysold and six adult cats that were anesthetized and artificially ventilated were studied. They received four consecutive doses of C,each of 10 mg/kg, administered at intervals of 20 min either asintravenous bolus injection (6 kittens, 3 cats) or continuous infusion(3 kittens, 3 cats). Bolus injections of C invariably induced a promptbut transient increase in the CSND from 4.1 ± 0.6 to 8.1 ± 1.0 (SE) impulses/s in kittens (P = 0.01)and from 3.9 ± 0.1 to 7.9 to 1.0 impulses/s in cats (after thefirst injection). This response was associated with a significantdecrease in arterial blood pressure. Continuous infusion of C did notinduce any early change in either CSND or blood pressure in kittens orcats. Fifteen minutes after C injection or infusion was begun, CSNDvalues in air, 8% O₂-balanceN₂, or 100%O₂ were not significantlydifferent from control. Haloperidol administered at theend of the experiment in four cats and four kittens significantlyincreased CSND and did not suppress the early response to C injection.It is concluded that caffeine administered by bolus in the kitteninduces a transient stimulation of the CSND that is associated with adecrease in the arterial blood pressure and is independent of thedopaminergic mechanisms in the carotid body. The lack of sustainedeffect implies the main mechanism to the ventilatory stimulation by Cmust be central.

     

Conditioned modification of viscerosensory evoked potentials during sleep and wakefulness in cats

The effects of classic conditioning on the viscerosensory evoked potentials (EPs) were studied in twenty cats during wakefulness (W), slow-wave-sleep (SWS) and paradoxical sleep (PS). Four types of the experiment were performed on four groups of animals. Weak, non-painful stimulation of the small intestine or of the left splanchnic nerve was used as conditional stimulus (CS) in all experiments. A painful or non-painful shock on the left radial nerve served as unconditional stimulus (US) which followed the CS with a delay of 500 ms. In the first and second series of experiments, the CS was paired with non-painful or painful CS during W. In the third and fourth types of experiment, weak US was used and conditioning was done during SWS or PS. The evoked responses were recorded from the primary (SI) and secondary (SII) somatosensory and associative (AS) cortex, the thalamus (VPL), hypothalamus (HPT) and dorsal hippocampus (HPC). In each experiment, the stimulus pairings resulted in a complex electrographic conditional response (CR) which included an amplitude increase of the late components of EP's (early CR) and the development of a wave of 500 ms latency (delayed CR). In the second experiment, however, a behavioural CR (limb flexion) also appeared. All these CRs proved to be extinguishable. The recall of CR established during W was successful in SWS. The traces of CS-US pairings during SWS could, however, be elicited only in SWS. Both establishment and recall of CR were unsuccessful during PS. The possible mechanism of the effects originating from an interaction of conditioning and sleep on the viscerosensory inputs of the brain are discussed.     

Temporal correlations in modulated evoked responses in the visual cortical cells of the cat

We analysed evoked responses recorded from 97 cells in the visual cortex of 4 adult cats and 8 kittens, stimulated by a drifting sinusoidal grating. A Fourier analysis of the responses allowed us to select 30 cells showing a clear modulating response (relative modulation index > 1). The 162 records from these selected cells were scanned to detect precise temporal correlations in the form of replicating triplets and associated ghost doublets. Temporal correlations of this nature were observed in these cells. They are about 10 times more abundant in adult cats than in kittens, and mostly observed in infragranular cortical layer cells. The possible role of these precise temporal patterns in information processing in the brain is examined, as well as the relation between this type of temporal correlation with coherent oscillations and principal components waveforms.     

Separation from the mother and the development of play in cats

In seven litters of domestic cats, half of each litter of four were gradually separated from the rest of the family 31–39 days after birth. The separated kittens showed significantly higher frequencies of play on some measures. In part this was because they were more active, but when the play data were corrected for general activity differences, the separated kittens were still found to have played more. The influence of separation from the mother on play may be a facultative response by the kittens to early weaning which, in natural conditions, would probably be associated with reduced opportunities for play at later stages in development.     

Expiratory effects of vagal stimulation in newborn kittens

Expiratory effects of electrical stimulation of vagal afferents were studied in 12 kittens during the first week of life. Animals anesthetized with ketamine (30 mg/kg, im) and acepromazine (1.1 mg/kg, im), tracheostomized, and paralyzed were artificially ventilated after bilateral vagotomy. Rectified and "integrated" activity of the C5 root of phrenic nerve, systemic blood pressure, and the stimulus train were recorded. The optimal stimulus parameters for expiratory prolongation were chosen. The results varied between animals. We found three types of response: A, expiratory prolongation when stimulus was applied within the initial 80% of control expiratory time (TEc); beyond this delay, a decreased response or no effect was observed in four kittens; B, graded expiratory prolongation was recorded to the end of this phase in three kittens; and C, expiratory prolongation when stimulus delay was less than 40% of TEc and expiratory shortening when the stimulus given with greater delays was observed in one kitten. Nonsignificant effects were observed in the remaining four animals. Types A and B of response suggest activation of the slowly adapting pulmonary stretch receptors. However, amplitude of stimulus and frequency of pulses were higher than those used in adult animals. Type C response indicates that fibers from both rapidly and slowly adapting stretch receptors could be activated. Our results imply that if the expiratory insensitive phase is present in kittens, it can be affected by experimental conditions. This is in contradiction to characteristics of expiratory response to vagal stretch receptor input in adult cats.