The effect of chronically ingested inorganic lead on brain levels of Fe,Zn, Cu,and Mn of 25 day old rat

Lead poisoning was produced in suckling rats by lead fed to lactating mother rats being transmitted to newborns $\text{via}$ maternal milk. The brain of 25 day old lead poisoned rats contained 6.0 to 12.5 ppm lead. Zinc was depressed 56% (cerebral cortex), 45% in cerebellum and 43% (caudate nucleus) whereas copper was depressed 52% in the cerebellum. Inhibition of monoamine oxidase (pargyline) or partial depletion of serotonin and norepinephrine did not alter the concentration of Fe, Cu, Zn, or Mn in brain.     

Protective Role of Lithium in Ameliorating the Aluminium-induced Oxidative Stress and Histological Changes in Rat Brain

This study was carried out to investigate the effects of lithium (Li) supplementation on aluminium (Al) induced changes in antioxidant defence system and histoarchitecture of cerebrum and cerebellum in rats. Al was administered in the form of aluminium chloride (100 mg/kg b.wt./day, orally) and Li was given in the form of Li carbonate through diet (1.1 g/kg diet, daily) for a period of 2 months. Al treatment significantly enhanced the levels of lipid peroxidation and reactive oxygen species in both the cerebrum and cerebellum, which however were decreased following Li supplementation. The enzyme activities of catalase, superoxide dismutase (SOD) and glutathione reductase (GR) were significantly increased in both the regions following Al treatment. Li administration to Al-fed rats decreased the SOD, catalase and GR enzyme activities in both the regions; however, in cerebellum the enzyme activities were decreased in comparison to normal controls also. Further, the specific activity of glutathione-s-transferase and the levels of total and oxidized glutathione were significantly decreased in cerebrum and cerebellum following Al treatment, which however showed elevation upon Li supplementation. The levels of reduced glutathione were significantly decreased in cerebrum but increased in cerebellum following Al treatment, which however were normalized upon Li supplementation but in cerebellum only. Apart from the biochemical changes, disorganization in the layers of cerebrum and vacuolar spaces were also observed following Al treatment indicating the structural damage. Similarly, the loss of purkinje cells was also evident in cerebellum. Li supplementation resulted in an appreciable improvement in the histoarchitecture of both the regions. Therefore, the study shows that Li has a potential to exhibit neuroprotective role in conditions of Al-induced oxidative stress and be explored further to be treated as a promising drug against neurotoxicity.     

LIPID DEFICIENCY IN THE CENTRAL NERVOUS SYSTEM OF LANDRACE PIGLETS AFFECTED WITH CONGENITAL TREMOR AIII, A FORM OF CEREBROSPINAL HYPOMYELINOGENESIS

—Congenital tremor, type AIII, is characterized by partial agenesis of the white matter of the CNS affecting mainly the spinal cord. The percentage water content of the fresh cord is consistently higher than normal and other parts of the CNS are sporadically affected. The total lipid content (mg/g fresh tissue) is markedly decreased in the cord but brain stem and cerebellum are less severely deficient; the cerebrum is barely deficient. Total amounts of cholesterol, cerebroside and phospholipid (mmol/part) are significantly reduced predominantly in cerebellum, brain stem and cord. Total DNA and protein contents are decreased to a significant extent only in spinal cord. Broadly similar lipid changes are found in fixed tissues. The data are consistent with sub-normal myelination, associated with a deficiency of oligodendrocytes.     

Effect of hyperphenylalaninemia induced during suckling on brain DNA metabolism in rat pups

We studied DNA metabolism (synthesis and degradation) in brain to investigate the effect of hyperphenylalaninemia induced in rats by treatment with PCPA or MPA plus PHE during suckling (4th–20th days of postnatal age) on cell proliferation and naturally occurring cell death. The incorporation of¹⁴C in DNA as percent of total radioactivity in the tissue, 30 min after administration of [¹⁴C]thymidine served as a measure of DNA synthesis in vivo, and the amount of radioactivity recovered in DNA as percent of total¹⁴C in the tissues of 21 day old rats, injected with [¹⁴C]thymidine on 2nd day after birth, indicated the turnover (degradation) of DNA. The results showed that the DNA content of cerebellum as well as cerebrum was reduced by treatment with PCPA plus PHE, while treatment with MPA plus PHE had no effect on DNA content in cerebellum but reduced the levels in cerebrum. Treatment with PCPA or MPA plus PHE reduced the synthesis of DNA in cerebrum of 11 day old rats but not in 21 day old rats, and the treatments did not affect DNA synthesis in cerebellum of either 11 or 21 day old rats. The turnover (degradation) of DNA was increased in both cerebellum and cerebrum from rats treated with PCPA plus PHE but MPA plus PHE treatment did not alter the DNA turnover either in cerebellu or in cerebrum. The activity of acid DNase was reduced in both cerebellum and cerebrum from 11 as well as 21 day old rats treated with PCPA plus PHE, but the enzyme activity was not altered in the tissues from rats of both ages treated with MPA plus PHE. The data thus indicate that in rats treated with PCPA plus PHE the reduction in cerebral DNA levels occurs due to reduced synthesis and/or increased turnover (degradation) of DNA but that the reduction in cerebellar DNA may occur only as a result of increased turnover (degradation), and that in rats treated with MPA plus PHE the reduction in cerebral DNA must occur due to reduced synthesis. This suggests that treatment of rats with PCPA plus PHE during suckling inhibits cell proliferation and/or increases naturally occurring cell death in both cerebellum and cerebrum while treatment with MPA plus PHE inhibits only cell proliferation and in cerebrum alone.     

CONGENITAL HYPOMYELINOGENESIS (BORDER DISEASE) OF LAMBS: POSTNATAL NEUROCHEMICAL RECOVERY IN THE CENTRAL NERVOUS SYSTEM

Abstract— In a neurochemical study of experimental Border Disease in lambs it was found that the fresh weights of four parts of the CNS (cerebrum, cerebellum, brain stem and spinal cord) from clinically affected lambs were significantly smaller than those of controls at birth but by 20 weeks of age the cerebrum, cerebellum and brain stem had reached near normal weights. The spinal cord was still considerably smaller, however. Clinical symptoms of the disease (muscular spasms and'hairy'birthcoat) had disappeared during this period, accompanied by a regression in the neurochemical abnormalities seen at birth. Thus the deficiency of myelin lipids was partially made up by the rapid deposition of cerebrosides and by 20 weeks differences in the fatty acid composition of this lipid fraction were no longer apparent. Myelin degeneration as indicated by the presence of elevated levels of esterified cholesterol was apparently absent at 20 weeks of age and this was parallelled by a fall in the level of'anti-myelin'antibodies in the sera of affected lambs. The altered distribution of copper in spinal cord myelin seen at birth had also become nearly normal at the end of the period.     

STUDIES OF THE MECHANISM OF DEMYELINATION REGIONAL DIFFERENCES IN MYELIN STABILITY IN VITRO1

—Incubation of slices of rat central nervous system in Krebs-Ringer bicarbonate buffer produced a lipoprotein fraction which floated on 10·5% sucrose after homogenization of the slices and centrifugation. This fraction was not found after homogenization and centrifugation of fresh tissue and appeared to depend upon incubation. The amount of the light fraction increased in the following order per 100-mg slice: cerebrum < thalamic area < cerebellum < brain stem < spinal cord. The lipid composition of this fraction was similar to that of myelin, but contained a lower protein content compared to myelin of the corresponding area. This fraction was termed ‘dissociated myelin’. Upon incubation of slices a portion of the basic protein was lost from myelin subsequently isolated, and the dissociated fraction was slightly enriched in basic protein. The distribution of myelin protein among the characteristic three groups (basic, proteolipid and high mol. wt.) was quite different in myelin from spinal cord compared to that from other CNS area. Spinal cord myelin contained about 17% protein compared to about 23% in cerebrum, with brain stem myelin intermediate (19%), and the difference appeared to be due to lesser amounts of proteolipid in the caudal areas. The amount of dissociation after incubation was about 3–5 per cent of the total myelin in the cerebral cortex, 10 per cent in the thalamic area, 20 per cent in cerebellum, 35 per cent in the brain stem, and around 45 per cent in spinal cord. The smaller amount of proteolipid protein in spinal cord myelin may result in a deficiency of cohesive forces holding lipids and proteins together, thus causing greater instability and dissociation. Myelin dissociation increased with time of incubation up to 3 h, was augmented by Ca²⁺, and was substantial at pH 11, reaching a peak at pH 7, then decreased in the acid range. A similar fraction has been isolated previously from fresh CNS tissue made edematous by chronic treatment of rats with triethyl tin. The possible relationship of swelling in the disease process and myelin dissociation are discussed.     

EFFECT OF UNDERNUTRITION ON CELL FORMATION IN THE RAT BRAIN

Abstract— Rats were undernourished by approximately halving the normal food given from the 6th day of gestation throughout lactation. Growth of the foetuses was nearly normal, in marked contrast to the severe retardation caused by undernutrition during the suckling period. In comparison with controls the size and the DNA content of the brain were permanently reduced by undernutrition during the suckling period: this effect was relatively small, approx. 15 per cent decrease at 21 and 35 days. The rate of ¹⁴C incorporation into brain DNA at 30 min after administration of [2-¹⁴C] thymidine was taken as an index of mitotic activity; compared with controls there was severe reduction in mitotic activity (maximal decrease by about 80 per cent at 6 days in the cerebrum and by 70 per cent at 10 days in the cerebellum). The rate of acquisition of cells was calculated from the slopes of the logistic curves fitted to the estimated DNA contents. In normal animals the maximal slope was attained at 2·7 days and at 12·8 days after birth in cerebrum and cerebellum respectively; the daily acquisition of cells at these times was 4·8 × 10⁶ and 18 × 10⁶ cells respectively. The fractional increase in cell number at the maximum was 5·4 percent per day in the cerebrum and 15·2 per cent per day in the cerebellum. The rate of acquisition of cells relative to the rate of mitotic activity was higher in the brains of undernourished animals than in controls. One of the compensatory mechanisms for the severe depression of mitotic activity in the brain of undernourished animals Seems to involve a reduction in the normal rate of cell loss.     

BIPHASIC MYELINATION AND THE FATTY ACID COMPOSITION OF CEREBROSIDES AND CHOLESTEROL ESTERS IN THE DEVELOPING CENTRAL NERVOUS SYSTEM OF THE DOMESTIC PIG

Abstract— The chemical composition of four parts of the CNS (cerebrum, cerebellum, brain stem and spinal cord) was determined in 107 pigs at 11 stages of fetal and postnatal development and also in 6 adults. In cerebrum, cerebellum and brain stem, but not in spinal cord, the rate of increase in weight and the rates of change in lipid content slowed down for a period of about 10 days before and after birth. Cholesterol esters and desmosterol were only found in progressively decreasing amounts during the fetal stages of development and together with DNA these were exceptions to the general increases in the tissue concentrations and total amounts of other components during the period studied.
The onset of myelination, as measured by calculated daily increases in tissue contents of cerebroside took place between 70 and 80 days conceptual age and there were two peaks of activity, the first occurring 2 weeks before and the second 3 weeks after birth. Unlike the rate curve for total spinal cord weight the biphasic accumulation of DNA was not synchronous with myelin lipid accretion and the earlier prenatal DNA peak probably denotes proliferation of oligodendrocytes. The two phases of myelination are discussed in relation to an observed generalized pause in development immediately before and after birth.
Fatty acid analysis of cerebrosides indicated that, in spinal cord, chain elongation and desaturation are associated with myelination and continue with increasing activity until maturity. Consequently there was a progressive decrease in the proportion of saturated fatty acids. The fatty acid components of cholesterol esters in the developing pig were shown to be similar to those found during development in the CNS of other species but different from those found in demyelinating conditions.     

CHANGES OCCURRING IN THE CHEMICAL COMPOSITION OF THE CENTRAL NERVOUS SYSTEM DURING FOETAL AND POST-NATAL DEVELOPMENT OF THE SHEEP

(1) The chemical composition of the CNS (separated into cerebrum, cerebellum, brain stem and spinal cord) was determined in sheep during foetal and post-natal development and in adults. (2) The spinal cord differed from the remainder of the CNS in growing more after the period studied (50-day-old foetuses to 5-week-old lambs) than before it. This was largely attributable to lipid accumulation. (3) Chemical growth (accumulation of DNA, protein and lipid) proceeded linearly in spinal cord, logarithmically in cerebrum and cerebellum while in brain stem growth was described by a sigmoid function. (4) Fat-free dry matter, protein, total lipid, cholesterol and phospholipid concentrations increased progressively in all parts of the CNS but DNA concentrations changed little. In the cerebrum alone there was an increase in DNA concentration during maturation suggesting an increased cell population. Cholesterol was present predominantly in the free form but esters were detected in foetal tissues from 70 up to 120 days gestation. (5) Cerebroside, the characteristic lipid of myelin, increased in concentration soon after 85 days of gestation, up to which point very low values were recorded, the rate varying according to the region of the CNS examined. Rates of increase in total regional cerebroside content were used to identify periods of myelination and the results suggest that there are two periods of peak activity, one about 20 days before birth and the other at 10-20 days after birth. (6) The composition of lipids added during the two phases of myelination and during maturation were characteristically different. In the spinal cord, lipid analyses best reflect changes in myelin composition.     

Oxidative damage following chronic aluminium exposure in adult and pup rat brains.

Aluminium is known to cause neurotoxic effects. In the past few years there has been an upsurge of interest in aluminium exposure through diet and environment, which might impair the development of mammals. The present in vivo study was designed to investigate the potential of aluminium to participate in either antioxidant or pro-oxidant processes in both developed and developing rat brain. Markers of oxidative stress were determined in rat brains exposed to AlCl3 (100 mg/kg body weight) for 8 weeks. The aluminium dose was given to adult rats for 8 weeks and in another group, exposure of aluminium for 60 days was done postnatally, 21 days to the feeding mother (lactation period) and 39 days to the rat pups. The results showed a statistically significant (p相似文献   

Gastric lipolysis of milk lipids in suckling rats

Fatty acid composition of the major lipid classes in stomach contents of suckling rats at 1, 5, 10, 17 and 20 days of lactation was compared to that of milk lipids. In milk, 98% of fatty acids were in triacylglycerols at all lactation times. Medium-chain fatty acid concentrations increased from 8% in colostrum to 26% at day 5. Fatty acid composition of stomach acylglycerols at all lactation times was different from that of milk triacylglycerols, containing less medium-chain fatty acids, 8:0 and 10:0. This preferential hydrolysis was also shown by higher concentrations of medium-chain fatty acids in the free fatty acid fraction. The lipolysis of medium-chain fatty acids from triacylglycerols resulted in the appearance of di- and monoacylglycerols with 50-100% higher amounts of 14:0 and 16:0. The similar fatty acid composition of products suggests that considerable lipolysis occurred in stomachs of suckling rats even at 1 day of age. Although there was a 10-fold increase in milk consumption, the extent of lipolysis was similar throughout the suckling period because of a parallel rise in lingual lipase levels.     

Developmental patterns of aluminum and five essential mineral elements in the central nervous system of the fetal and infant guinea pig

Al is found in the developing conceptus, but little information is available concerning its tissue distribution and its changes in concentration with age. Because Al has affinity for many of the same biological ligands as the essential mineral cations Ca, Mg, Zn, Fe, and Mn, we hypothesized that Al might show a pattern of developmental concentrations that was similar to one or more of these elements in the brain, a major target of Al toxicity. Concentrations of Al, Ca, Mg, Zn, Fe, and Mn were measured in spinal cord, brainstem, cerebellum, and forebrain of guinea pig fetuses on gestation day (GD) 30 and 45, at birth, and on postnatal day (PND) 3, 6, and 12. Dams were fed commercial guinea pig chow, which contained 47 μg Al/g. Tissue Al and Mn were measured with electrothermal atomic absorption spectrophotometry (ETAAS), and the other elements with inductively coupled axial plasma spectroscopy (ICAP-AES). Al concentrations in the brain regions were highest in spinal cord, brainstem, and cerebellum, and decreased during late gestation and lactation. Al did not show marked increases in regional brain concentrations during the final third of gestation as did Fe, Mg, and Zn. In contrast to Fe and Ca, Al did not accumulate in placenta. Al was the only element to show higher concentrations in spinal cord than in any other tissue at birth. In summary, the tissue distribution of Al did not follow that of essential cations as examined in this study.     

Antioxidant Enzymes and Related Trace Elements in Aging Brain Capillaries and Choroid Plexus

The activities of superoxide dismutase (SOD), glutathione peroxidase, glutathione reductase, and catalase were measured in isolated brain capillaries, choroid plexus, cerebrum, and cerebellum from rats of 2, 6, 12, and 24 months. The contents of copper, zinc, and manganese were determined in capillaries, cerebrum, and cerebellum, and the profile of fatty acids was studied in brain capillaries. In brain capillaries, the activities of glutathione peroxidase and glutathione reductase did not change with age. The activities of the two enzymes increased in cerebrum and cerebellum. In choroid plexus, glutathione peroxidase activity increased, but glutathione reductase activity remained unchanged. Catalase activity in brain capillaries declined, whereas in choroid plexus, cerebrum, and cerebellum, it did not change. The activities of the three enzymes were significantly higher in brain capillaries and choroid plexus than in cerebrum and cerebellum. SOD activity increased in the four tissues. Copper content in the capillaries increased initially and then levelled off, whereas it continued to increase in cerebrum and cerebellum. Zinc increased in brain capillaries, but did not vary in cerebrum and cerebellum. Manganese content remained constant in all tissues studied. The percent of saturated fatty acids in brain capillaries did not change with age, whereas those of mono- and polyunsaturated fatty acids increased and decreased, respectively. The possibility that a deficiency of enzymes protective against free radicals causes blood-brain barrier and blood-cerebrospinal fluid barrier degeneration is ruled out.     

Vulnerability of myelin development of the chick to the herbicide 2,4-dichlorophenoxyacetic butyl ester

Fertilized hens' eggs were treated externally with 2,4-Dichlorophenoxyacetic butyl ester (2,4-D b.e.) (3.1 mg/egg) immediately before starting incubation, and after different times of incubation (5, 10 and 15 days). Controls were treated externally with ether. Hatchability studies demonstrated that fetotoxic effects of 2,4-D b. e. were similar on the 0, 5 and 10 incubation day, but the 15 Day Group improved the hatching percentage. One day after hatching, chicks were decapitated, and CNS tissue was dissected. Myelin markers, as cerebrosides and CNP, were determined in cerebrum, cerebellum, brain stem and spinal cord of the four groups. They were reduced in cerebrum and brain stem of the 0, 5 and 10 Day Groups, but in the 15 Day Group they were in normal levels. Cerebellum presented normal myelin marker contents in each group studied, while spinal cord only presented decreased marker contents in the 5 Day Group. UDP galactose-ceramide galactosyl transferase (EC 2.4.1.45) activity was reduced in whole brain of chicks born from eggs treated preincubation. The results show the importance of time drug application and suggest that the vulnerable period in CNS development includes proliferation and development of myelin forming cells. Among CNS regions, cerebrum and brain stem seem to be the most vulnerable to the toxic action of 2,4-D b.e. in the chick.     

THE EFFECT OF HYPOCHOLESTEREMIC AGENTS ON MYELINOGENESIS

Abstract— Three drugs known to inhibit biosynthesis of cholesterol, Clofibrate, 20, 25-diazacholesterol and AY-9944 were administered by stomach intubation to suckling rats. At weaning the rats were killed and subcellular fractions, including myelin, were prepared from the brains and spinal cords and analysed for sterol content. Central nervous tissue fractions from Clofibrate-treated rats showed some decrease in total sterols, but the sterol species were qualitatively normal. AY-9944 given to rats caused high amounts of 7-dehydro-cholesterol to accumulate in all brain and spinal cord fractions with the highest amounts (32–38 percent of total sterols) in myelin. In diazasterol-treated rats desmosterol reached 48 per cent of the sterols of myelin. A group of rats was allowed to survive after the final drug intake (21 days) and their brain and spinal cord sterol content followed up to 60 days. At 30 days the proportion of dehydrocholesterol or desmosterol comprised over half the total myelin sterol. By 60 days of age the 7-dehydrocholesterol had almost completely disappeared from all fractions while substantial amounts of desmosterol were retained in myelin. Myelination was retarded by treatment with AY-9944 and 20, 25-diazasterol, possibly by the limited amount of sterols available. The metabolism of the abnormal myelin constituents in drug-treated animals is discussed in relation to the molecular structure of the myelin membrane.     

Lactational performance, consummatory behavior, and suppression of estrous cyclicity in rats suckling underfed pups

The role of pups' appetite in the regulation of maternal consummatory behavior (food intake of nursing mothers), lactational performance and postpartum diestrus was studied over a period of 45 days postpartum in rats chronically exposed to either underfed or normally fed pups. Experimental rats (n = 10) daily received 5 pups, 4-10-days-old, that had been deprived of food for the preceding 24 h while under the care of nonlactating foster mothers. Control rats (n = 10) received normally fed pups obtained daily from lactating foster mothers. Throughout the experimental period, the daily milk yield (estimated by litter weight gain), the intake of food and water by the mother, as well as the ratio of litter weight gain to mother's intake of food and water were all markedly higher in rats nursing underfed pups than in rats nursing normally fed pups. After a peak in lactation around Day 15 postpartum, experimental rats produced the same amount of milk during extended lactation as they did in the beginning of lactation, while control rats produced only half the amount of milk during extended lactation as they did in early lactation. Regardless of the nutritional state of the suckling pups, maternal body weight increased progressively over the first four weeks of lactation and remained unchanged during the time of extended lactation. The postpartum diestrus and the subsequent diestrous phase in the time of extended lactation were considerably longer in duration in rats that nursed underfed pups. On Day 45 of lactation, prolactin levels were higher and the adrenal glands were larger in experimental rats than in controls.(ABSTRACT TRUNCATED AT 250 WORDS)     

Fish oil supplementation of maternal rats on an n-3 fatty acid-deficient diet prevents depletion of maternal brain regional docosahexaenoic acid levels and has a postpartum anxiolytic effect

Docosahexaenoic acid (DHA) and arachidonic acid (AA) are the major polyunsaturated fatty acids (PUFA) in the neuronal membrane. Most DHA and AA accumulation in the brain occurs during the perinatal period via placenta and milk. This study examined whether maternal brain levels of DHA and AA are depleted during pregnancy and lactation due to meeting the high demand of the developing nervous system in the offspring and evaluated the effects of the reproductive cycle on serotonin metabolism and of fish oil (FO) on postpartum anxiety. Pregnant rats were fed during pregnancy and lactation with a sunflower oil-based n-3 PUFA-deficient diet without or with FO supplementation, which provided 0.37% of the energy source as n-3 PUFA, and the age-matched virgin rats were fed the same diets for 41 days. In both sets of postpartum rats, decreased DHA levels compared to those in virgin females were seen in the hypothalamus, hippocampus, frontal cortex, cerebellum, olfactory bulb and retina, while AA depletion was seen only in the hypothalamus, hippocampus and frontal cortex. Serotonin levels were decreased and turnover increased in the brainstem and frontal cortex in postpartum rats compared to virgin rats. FO supplementation during pregnancy and lactation prevented the decrease in maternal brain regional DHA levels, inhibited monoamine oxidase-A activity in the brainstem and decreased anxiety-like behavior. We propose that the reproductive cycle depletes maternal brain DHA levels and modulates maternal brain serotonin metabolism to cause postpartum anxiety and suggest that FO supplementation may be beneficial for postpartum anxiety in women on an n-3 PUFA-deficient diet.     

Humoral and cellular immune responses in gluten-treated suckling or hand-fed rats

We analyzed the immune response to gliadin in suckling rats and rats hand-fed with an artificial milk formula, an animal model of gluten enteropathy. Animals of both groups were intragastrically given either gliadin or albumin (control animals) or gliadin from birth till day 55. When compared to the controls, spleen lymphocytes from both groups of gliadin-treated rats cultivated in vitro exhibited a significant increase of spontaneous 3H-thymidine incorporation. Moreover, the proliferation of spleen and mesenteric lymph node (MLN) lymhocytes from both groups of gliadin-treated suckling and hand-fed rats was specifically increased by the in vitro gliadin challenge. Spleen B cells from gliadin-treated rats spontaneously produced higher amounts of gliadin-specific antibodies than those from the controls, however, in vitro stimulation by gliadin caused no further increase in antibody production. Apoptotic DNA fragmentation in MLN cells was higher in gliadin-treated rats than in albumin-treated ones, independently of the milk diet during the suckling period.     

Potential of lithium to reduce aluminium-induced cytotoxic effects in rat brain

The present study was aimed to explore the potential of an antidepressant drug lithium (Li) in reducing aluminium (Al) induced neurotoxicity. To carry out the investigations, Al was administered orally (100 mg AlCl₃/Kg b wt/day) whereas, Li was administered through diet (1.1 g Li₂CO₃/Kg diet, daily) for a total duration of 2 months. Al treatment resulted in a significant increase in the activity of enzyme nitric oxide synthase and the levels of l-citrulline which, however, were decreased appreciably following lithium supplementation. Al treatment also revealed an increase in DNA fragmentation as evidenced by an increase in number of comets. Interestingly, Li supplementation to Al treated rats reduced the damage inflicted on DNA by Al. Ultrastructural studies revealed an increase in chromatin condensation with discontinuity in nuclear membrane in both the cerebrum and cerebellum of Al treated rats which showed improvement following Li supplementation. Alterations in the structure of synapse and mitochondrial swelling were also seen. The present study shows the potential of Li in containing the damage inflicted by Al on rat brain.