The Lateral Hypothalamic Area: Peculiarities of Aging and the Effect of Chronic Electrical Stimulation on the Lifespan in Rats

Age-related morphological and functional changes in the lateral hypothalamic area (LHA) were studied in experiments on young adult (6-8 months) and old (26-28 months) male Wistar rats. It was found that during aging the neuronal density in the LHA decreased, and significant qualitative destructive and dystrophic changes in the neuronal population developed. The background impulse activity of LHA neuronal units, the mass background electrical activity recorded from this structure, and the Na⁺, K⁺-ATPase activity decreased during aging. In old rats, the rate of LHA self-stimulation was lower, and the range of reinforcing current amplitudes, which provided self-stimulation intensity close to the maximum, was narrower than in adult animals. Chronic electrical LHA stimulation in old rats ensured an increase in the lifespan and maximum life expectancy in these animals. In addition, the lifespan positively correlated with the duration of LHA stimulation. It is concluded that lowering of the functional activity of the LHA neural systems is one of the substantial aspects of the aging process, and activation of this structure in old animals by its chronic electrical stimulation can exert a geroprotective effect.     

Profile of acetylcholinesterase in brain areas of male and female rats of adult and old age

Inhibition of acetylcholinesterase (AChE)-metabolizing enzyme of acetylcholine, is presently the most important therapeutic target for development of cognitive enhancers. However, AChE activity in brain has not been properly evaluated on the basis of age and sex. In the present study, AChE activity was investigated in different brain areas in male and female Sprague-Dawley rats of adult (3 months) and old (18-22 months) age. AChE was assayed spectrophotometrically by modified Ellman's method. Specific activity (micromoles/min/mg of protein) of AChE was assayed in salt soluble (SS) and detergent soluble (DS) fractions of various brain areas, which consists of predominantly G1 and G4 molecular isoforms of AChE respectively. The old male rats showed a decrease (40-55%) in AChE activity in frontal cortex, striatum, hypothalamus and pons in DS fraction and there was no change in SS fraction in comparison to adult rats. In the old female rats the activity was decreased (25-40%) in frontal cortex, cerebral cortex, striatum, thalamus, cerebellum and medulla in DS fraction whereas in SS fraction the activity was decreased only in hypothalamus as compared to adult. On comparing with old male rats, old female rats showed increase in AChE activity in cerebral cortex, hippocampus and hypothalamus of DS fraction and decrease in hypothalamus of SS fraction. There was a significant increase in AChE activity in DS fraction of cerebral cortex, hippocampus, hypothalamus, thalamus and cerebellum in female as compared to male adult rats. However, no significant change in AChE activity was found in the SS fraction, except hypothalamus between these groups. Thus it appears that age alters AChE activity in different brain regions predominantly in DS fraction (G4 isoform) that may vary in male and female. These observations have significant relevance to age related cognitive deficits and its pharmacotherapy.     

Effect of harmaline on the complex spike shape and depression time in cerebellar Purkinje cell discharge in rat postnatal ontogenesis

Functional relationship between wave form of complex spike (CS) and depression time of simple spike (SS) in discharge of cerebellar Purkinje cells was studied after their activation with afferent climbing fiber at different terms of postnatal ontogenesis in norm and after treatment with harmaline. The experiments were carried out on three age groups of Wistar rats: rat pups (2 weeks), the adult (4–6 months), and the old animals (22–26 months). It was established that the SS duration in norm was approximately equal in rat pups, adult, and old animals, whereas it markedly decreased form the young to the old animals during the SS depression in the Purkinje cell discharge. Frequency of small action potential (lAP) and their number in the Purkinje cell discharge were approximately equal in young rat pups and adult animals, while in old animals these parameters were higher, on average, by 30%. After administration of harmaline, all CS parameters in rat pups and old animals increased in parallel with the depression time elongation. In adult rats, harmaline did not produce statistically significant changes of the mean values of CS parameters, but an increase of the simple spike depression time was observed. The obtained results allow concluding that the SS wave form and the simple spike depression time in norm are functionally coupled and change with age. The effect of harmaline on the CS wave forms as well as on interrelation of the CS duration and the CS depression time in the Purkinje cell discharge was more pronounced at the early and the late stages of Wistar rat postnatal ontogenesis.     

Insights into a role of GH secretagogues in reversing the age-related decline in the GH/IGF-I axis

Growth hormone (GH) secretion and serum insulin-like growth factor-I (IGF-I) decline with aging. This study addresses the role played by the hypothalamic regulators in the aging GH decline and investigates the mechanisms through which growth hormone secretagogues (GHS) activate GH secretion in the aging rats. Two groups of male Wistar rats were studied: young-adult (3 mo) and old (24 mo). Hypothalamic growth hormone-releasing hormone (GHRH) mRNA and immunoreactive (IR) GHRH dramatically decreased (P < 0.01 and P < 0.001) in the old rats, as did median eminence IR-GHRH. Decreases of hypothalamic IR-somatostatin (SS; P < 0.001) and SS mRNA (P < 0.01), and median eminence IR-SS were found in old rats as were GHS receptor and IGF-I mRNA (P < 0.01 and P < 0.05). Hypothalamic IGF-I receptor mRNA and protein were unmodified. Both young and old pituitary cells, cultured alone or cocultured with fetal hypothalamic cells, responded to ghrelin. Only in the presence of fetal hypothalamic cells did ghrelin elevate the age-related decrease of GH secretion to within normal adult range. In old rats, growth hormone-releasing peptide-6 returned the levels of GH and IGF-I secretion and liver IGF-I mRNA, and partially restored the lower pituitary IR-GH and GH mRNA levels to those of young untreated rats. These results suggest that the aging GH decline may result from decreased GHRH function rather than from increased SS action. The reduction of hypothalamic GHS-R gene expression might impair the action of ghrelin on GH release. The role of IGF-I is not altered. The aging GH/IGF-I axis decline could be rejuvenated by GHS treatment.     

Effects of stress and alcohol consumption on emotional/motivational behavior of rats and their first generation offspring

Neurophysiological manifestations of formation of the dependence on ethanol under stress conditions were studied in rats and their first generation offspring. In chronic experiments on 32 male rats, emotional stress was modeled (induction by nociceptive electrocutaneous stimulation), and an increased addiction to ethanol was formed. In these animals and in the first generation of their offspring (obtained from the above males and intact females), we studied emotional/motivational behavior, recorded the mass electrical activity from different brain structures, and measured the arterial pressure. In stressed rats, which acquired attraction to ethanol, negative emotional responses became transformed into positive, and behavioral and electrographic manifestations of the seizure activity developed. In the first generation offspring, the pattern of central rearrangements in the mechanisms of emotional/motivational behavior was to a great extent similar to that in parent rats.     

Changes in the tetrapolar rheographic indices of adult and old rats under stress]

Experiments with adult (8-10 months) and old (24-26 months) male rats were carried out to investigate the effect of stress on the values of central hemodynamics and inotropic cardiac function--stroke volume, minute volume, stroke index, as well as output volume rate, output volume rate index and systolic frequency. It is found that stress causes more significant disturbance of inotropic function in old rats as compared with adult animals. This disorder occurs earlier in old rats. Probably it is a result of more pronounced damaging effect of the stress on the myocardium of old rats against the background of decreased compensatory systemic abilities.     

Salt intake and intestinal dopaminergic activity in adult and old Fischer 344 rats

We have earlier shown that the renal dopaminergic system failed to respond to high salt (HS) intake in old (24-month-old) Fisher 344 rats (Hypertension 1999;34:666-672). In the present study, intestinal Na+,K+-ATPase activity and intestinal dopaminergic tonus were evaluated in adult and old Fischer 344 rats during normal salt (NS) and HS intake. Basal intestinal Na+,K+-ATPase activity (nmol Pi/mg protein/min) in adult rats (142+/-6) was higher than in old Fischer 344 rats (105+/-7). HS intake reduced intestinal Na+,K+-ATPase activity by 20% (P<0.05) in adult, but not in old rats. Dopamine (1 microM) failed to inhibit intestinal Na+,K+-ATPase activity in both adult and old Fischer 344 rats (NS and HS diets). In adult animals, co-incubation of pertussis toxin with dopamine (1 microM) produced a significant inhibitory effect in the intestinal Na+,K+-ATPase activity. L-DOPA and dopamine tissue levels in the intestinal mucosa of adult rats were higher (45+/-9 and 38+/-4 pmol/g) than those in old rats (27+/-9 and 14+/-1 pmol/g). HS diet did not change L-DOPA and DA levels in both adult and old rats. DA/L-DOPA tissue ratios, an indirect measure of dopamine synthesis, were higher in old (1.1+/-0.2) than in adult rats (0.6+/-0.1). Aromatic L-amino acid decarboxylase (AADC) activity in the intestinal mucosa of old rats was higher than in adult rats. HS diet increased the AADC activity in adult rats, but not in old rats. It is concluded that intestinal dopaminergic tonus in old Fisher 344 rats is higher than in adult rats and is accompanied by lower basal intestinal Na+,K+-ATPase activity. In old rats, HS diet failed to alter the intestinal dopaminergic tonus or Na+,K+-ATPase activity, whereas in adult rats increases in AADC activity were accompanied by decreases in Na+,K+-ATPase activity. The association between salt intake, increased dopamine formation and inhibition of Na+,K+-ATPase at the intestinal level was not as straightforward as that described in renal tissues.     

Aging-associated down-regulation of ClC-1 expression in skeletal muscle: phenotypic-independent relation to the decrease of chloride conductance

In order to clarify the mechanism underlying the reduction of resting membrane chloride conductance (gCl) during aging, the levels of mRNA encoding the principal skeletal muscle chloride channel, ClC-1, were measured. Total RNA samples isolated from tibialis anterior muscles of aged (24-29 months old) and adult (3-4 months old) rats were examined for ClC-1 expression using Northern blot analysis, and macroscopic gCl was recorded from extensor digitorum longus muscle fibers from each adult and aged rat in vitro using a two intracellular microelectrode technique. Although interindividual variability was observed, aged rats exhibited a parallel reduction of both gCl and ClC-1 mRNA expression as compared to adult rats. A linear correlation exists between individual values of ClC-1 mRNA and gCl. These results provide evidence that ClC-1 is the main determinant of sarcolemmal gCl and demonstrate that the decrease of gCl observed during aging is associated with a down-regulation of ClC-1 expression in muscle.     

Baroreflex control of heart rate in young and adult salt hypertensive inbred Dahl rats

Baroreflex control of heart rate was studied in inbred salt-sensitive (SS/Jr) and salt-resistant (SR/Jr) Dahl rats that were subjected to chronic dietary sodium chloride loading (for 4 weeks) either in youth or only in adulthood, i.e. from the age of 4 or 12 weeks. Using phenylephrine administration to pentobarbital-anesthetized male rats we have demonstrated the decreased baroreflex sensitivity (lower slope for reflex bradycardia) in young prehypertensive SS/Jr rats fed a low-salt diet as compared to age-matched SR/Jr animals. High salt intake further suppressed baroreflex sensitivity in young SS/Jr but not in SR/Jr rats. Baroreflex sensitivity decreased with age in SR/Jr rats, whereas it increased in SS/Jr rats fed a low-salt diet. Thus at the age of 16 weeks baroreflex sensitivity was much higher in SS/Jr than in SR/Jr animals. High salt intake lowered baroreflex sensitivity even in adult SS/Jr rats without affecting it in adult SR/Jr rats. Nevertheless, baroreflex sensitivity was significantly lower in young SS/Jr rats with a severe salt hypertension than in adult ones with a moderate blood pressure elevation. It is concluded that the alterations of baroreflex sensitivity in young inbred SS/Jr rats (including the response to high salt intake) are similar to those described earlier for outbred salt-sensitive Dahl rats. We have, however, disclosed contrasting age-dependent changes of baroreflex sensitivity in both inbred substrains of Dahl rats.     

Phospholipid hydroperoxide glutathione peroxidase activity and vitamin E level in the liver microsomal membrane: effects of age and dietary alpha-linolenic acid deficiency

Age and diet-induced variations of phospholipid hydroperoxide glutathione peroxidase (PHGPx) activity and alpha-tocopherol concentration in the liver microsomal membrane were studied in male Wistar rats fed a semipurified diet either balanced in n-6 and n-3 polyunsaturated fatty acids (PUFA) (Control) or deprived of alpha-linolenic acid, i.e. n-3 PUFA (Deficient) over two generations. The animals were studied at the age of 6 months (adult) or 24 months (old). Both PHGPx activity and vitamin E level were significantly higher in 24-month old rats as compared to 6-month old rats. By contrast, the thiobarbituric acid reactive substances (TBARS) following stimulated in vitro peroxidation of membrane lipids were markedly lower (P < 0.01) with aging. The fatty acid composition of microsomal membrane phospholipids (PL) was also considerably modified by age. In particular, the levels of arachidonic acid and total n-6 PUFA were lower (P < 0.001) whereas n-3 PUFA levels were higher (P < 0.001) in most PL main classes. The alpha-linolenic acid deficiency markedly influenced these age-related changes. The higher PHGPx activity in the old rats as compared to the adult rats was only significant in those fed the control diet. In the 6-month old rats (but not in the 24-month old rats), the deficient diet led to a higher membrane vitamin E level and to lower TBARS production than the control diet. The results suggest that the nature of dietary PUFA may influence the age-related variations in this pair of membrane antioxidants and also in the fatty acid composition of microsomes.     

Developmental changes in inotropic actions of neurotoxins observed in ventricular muscle of rat heart.

Developmental changes in functions of myocardial sodium channels were examined from inotropic effects of several neurotoxins in ventricular muscle preparations obtained from prenatal (20-22 day gestation) or adult (3-4 months old) rat hearts. Tetrodotoxin caused a negative inotropic effect in low concentrations and a loss of muscle responsiveness to electrical stimulation in high concentrations in preparations obtained from either prenatal or adult rat heart. The tetrodotoxin concentration that caused a 50% decrease in developed tension was higher in prenatal rats. Anemonia sulcata toxin, Androctonus australis toxin, veratridine, and Centruroides sculpturatus toxin all produced positive inotropic effects in adult rat heart. The effects were largest with A. sulcata and A. australis toxins, intermediate with veratridine, and smallest with C. sculpturatus toxin. Prenatal heart required higher concentrations of either veratridine, or A. sulcata or A. australis toxins to produce comparable positive inotropic effects. With C. sculpturatus toxin, no significant positive inotropic effect was observed in prenatal heart muscle preparations. These results indicate that cardiac sodium channels undergo significant functional changes during development and that negative and positive inotropic effects of neurotoxins resulting from inhibition and enhancement of fast Na+ channels reflect developmental changes in the cardiac sodium channels.     

Age-related alteration of poly(ADP-ribose) polymerase activity in different parts of the brain

Poly(ADP-ribose) polymerase (PARP) is a conserved enzyme involved in the regulation of DNA repair and genome stability. The role of PARP during aging is not well known. In this study PARP activity was investigated in nuclear fractions from hippocampus, cerebellum, and cerebral cortex of adult (4 months), old adult (14 months) and aged (24-27 months) rats. Concomitantly, the free radical evoked lipid peroxidation was estimated as thiobarbituric acid reactive substances (TBARS). The specific activity of PARP in adult brain was about 25, 21 and 16 pmol/mg protein per min in hippocampus, cerebellum and cerebral cortex, respectively. The enzyme activity was higher in all investigated parts of the brain of old adults. In aged animals PARP activity was lower in hippocampus by about 50%, and was unchanged in cerebral cortex and in cerebellum comparing to adult rats. The concentration of TBARS was the same in all parts of the brain and remained unchanged during aging. There is no direct correlation between PARP activity and free radical evoked lipid peroxidation during brain aging. The lowered enzyme activity in aged hippocampus may decrease DNA repair capacity which subsequently may be responsible for the higher vulnerability of hippocampal neurons to different toxic insults.     

Postnatal developmental changes in CO2 sensitivity in rats.

Ventilatory sensitivity to CO(2) in awake adult Brown Norway (BN) rats is 50-75% lower than in adult Sprague-Dawley (SD) and salt-sensitive Dahl S (SS) rats. The purpose of the present study was to test the hypothesis that this difference would be apparent during the development of CO(2) sensitivity. Four litters of each strain were divided into four groups such that rats were exposed to 7% inspired CO(2) for 5 min in a plethysmograph every third day from postnatal day (P) 0 to P21 and again on P29 and P30. From P0 to P14, CO(2) exposure increased pulmonary ventilation (Ve) by 25-50% in the BN and SD strains and between 25 to over 200% in the SS strain. In all strains beginning around P15, the response to CO(2) increased progressively reaching a peak at P19-21 when Ve during hypercapnia was 175-225% above eucapnia. There were minimal changes in CO(2) sensitivity between P21 and P30, and at both ages there were minimal between-strain differences. At P30, the response to CO(2) in the SS and SD strains was near the adult response, but the response in the BN rats was 100% greater at P30 than in adults. We conclude that 1) CO(2)-sensing mechanisms, and/or mechanisms downstream from the chemoreceptors, change dramatically at the age in rats when other physiological systems are also maturing ( approximately P15), and 2) there is a high degree of age-dependent plasticity in CO(2) sensitivity in rats, which differs between strains.     

Interrelations between the contents of transmitter amino acids in the brain structures and the level of convulsion readiness in rats

In rats with high and low levels of the audiogenic excitability (68 and 62 animals, respectivels, we measured the thresholds of convulsive reactions elicited by electrical stimulation of a few limbic and brainstem structures. The obtained figures were compared with the those of the levels of transmitter amino acids (glutamate, aspartate, glycine, and taurine) measured in the same brain structures in corresponding groups of the animals (80 rats in each group. It was found that the thresholds of convulsive reactions evoked by electrical stimulation of most tested brain structures are lower in the audiogenically excitable animals than those in the animals with high thresholds of the audiogenic excitability. These dissimilarities demonstrated certain correlation with increased glutamate concentrations in some structures under study and, probably, to a considerable extent depended on a deficiency of inhibitory amino acids, glycine and taurine, in most tested brain structures.     

Age-related changes in mutagen activation by rat tissues

Age-related changes in drug metabolism of the liver, lung and kidney of adult female Long-Evans rats were determined by measuring changes in mutagen formation. Activation of aflatoxin B1 (AFB1), 2-aminofluorene (AF) and 2-acetylaminofluorene (AAF) to mutagenic derivatives was assayed using the Ames Salmonella test system. The promutagens were incubated with tissue fractions from rats ranging in age from 2.5 to 25 months. With all three compounds, hepatic, renal and pulmonary activation was lower in the senescent than in the young adult animals. The largest decrease, however, occurred prior to middle-age, i.e. before 9-13 months. In liver and kidney, little change was detectable between the middle-aged and the old (20-25 months) animals. However, pulmonary metabolism in the oldest animals was slightly higher than in the extracts from the middle-aged rats. The observed decline in mutagen activation may thus be a function of maturation rather than senescence.     

Triggering of discharges from an epileptogenic focus in the rat by stimulation of the contralateral hemisphere. an ontogenetic study.

Fifty-two male albino rats aged 7, 9, 12 and 18 days and adult, immobilized with d-turbocurarine, were studied. Discharges were triggered from a penicillin focus with electrical pulses of double the threshold intensity needed to evoke an interhemispheric response (IHR). Developmental changes in the IHR and in spontaneous interictal discharges did not differ from the results described in earlier studies. Practically no discharges could be triggered in 7-day old animals (only a few at a very low stimulation frequency). In the other age groups, discharges were triggered at two optimal frequencies, of which the lower one rose from 0.1 to 0.6 c/s during development, while the higher one was relatively stable (about 1 c/s). With higher frequency triggering, marked signs of fatigue of the focus (intermittent triggering, loss of the main negative wave) appeared, especially in young animals. The averaged shape of triggered discharges was similar in 9- and 12-day-old rats. It consisted of a first IHR positivity which triggered the first positive wave of the focal discharge, followed by a high negative wave. In the 18-day-old and adult group, both initial positive waves merged to form a single wave. The duration of the individual waves of the triggered discharge was not significantly shorter than the duration of the corresponding waves of spontaneous discharge.     

Changes in the content of glycolysis products in the myocardium of adult and older rats under stress]

The experiments on adult (8-10 months) and old (24-26 months) male rats have been performed to determine the glucose content in myocardium as well as the content of pyruvic and lactic acid after the stress impact. Findings show that the maximum accumulation of glycolysis products and the reduction of glucose content occur 18-60 hours after the stress, the effect being more pronounced in old animals.     

Taste aversions in the ontogeny of the rat

The characteristics of acquisition and extinction of conditioned taste aversion (CTA) were studied in rats of both sexes and various ages by pairing of saccharin solution consumption with discomfort (LiCl intoxication, rotation). Pairing of saccharin consumption with LiCl in adult rats led to acquisition of CTA, more profound in male rats than in female ones. In rats of both sexes 30 days old, a profound CTA, comparable in intensity with CTA of adult male rats was acquired. In 2 months after acquisition of CTA in adult rats its magnitude did not change, while in rats of the junior group which by that time had reached puberty, CTA was reduced in females and did not change in males. Pairing of saccharin intake and rotation led to acquisition of CTA only in rats 30 days old. The role of external factors in duration of retention of CTA acquired by pairing of saccharin solution consumption with LiCl injection was studied in male and female rats 1 and 3.5 months old. In all cases CTA was extinguished much sooner in home cages than in experimental chambers, and in the elder group sex dimorphism was found: in both situations CTA disappeared sooner in female rats. The obtained data allow to suggest modulating influences of hormonal background and of contextual stimuli on CTA acquisition and retention.