Effect of prenatal lead toxicity on surface ultrastructural features, elemental composition and infrared absorption characteristics of the skin of albino mice

The epidermis and dermis of albino mice born to females receiving oral sublethal doses of lead during pregnancy developed several abnormalities. These included perforations, tissue damage, cell deformity, and disordered organization of collagen bundles, as revealed by scanning electron microscopy. An increase in the concentrations of zinc, iron, magnesium, calcium and a decrease in that of copper was evident from atomic absorption spectroscopical analysis, when entire skin tissues were examined. Infrared spectroscopy revealed the occurrence of split bands in the spectra at 1,200-1,000 cm(-1), suggesting a reduction in the symmetry of the sulphate group (glycosaminoglycans) of skin probably caused by covalent bonding of it with lead.

Genotoxicity induced in CD-1 mice by inhaled lead: differential organ response

Lead is perhaps the longest used and best recognized toxic environmental chemical and it is still being used recklessly. Lead (Pb) has been found to be capable of eliciting a positive response in an extraordinarily wide range of biological and biochemical tests; among them tests for enzyme inhibition, fidelity of DNA synthesis, mutation, chromosomal aberrations, cancer and birth defects. Since inhalation is one of the most important routes of environmental Pb exposure, in the present study a lead inhalation model in mice was implemented in order to detect the induction of genotoxic damage as single-strand breaks and alkali-labile sites in several mouse organs (nasal epithelial cells, lung, whole blood, liver, kidney, bone marrow, brain and testes), assessed by single cell gel electrophoresis (SCGE) or Comet assay. We found differences among the organs studied after a single and subsequent inhalations: in the organs analyzed we observed a positive induction of DNA damage after a single inhalation only in the liver and the lung. In subsequent inhalations the response was positive in all organs except the testicle, however, DNA damage induction over time was different for each organ. A correlation between length of exposure, DNA damage and metal tissue concentration was observed for lung, liver and kidney. Differences in DNA damage occurred in organs when lead acetate was administered acutely or sub-chronically. These results show that lead acetate inhalation induces systemic DNA damage but that some organs are special targets of this metal, such as lung and liver, depending in part on length of exposure, suggesting alternative organ processes to handle lead intoxication.

Lead poisoning in Indian silver refiners

The refining of silver from old silver ornaments, articles and jeweller's waste by smelting these with lead scraps for the fabrication of new jewellery is an important small scale industry in India. The present survey and clinical investigations have shown that 31 out of 50 silver refiners with a mean blood lead level of 32.84+/-1.78 microg/dl (range 20.3-64.9), decrease in blood delta-aminolevulinic acid dehydratase (ALAD) activity and thiamine (as pyruvate) level and an enhanced urinary excretion of ALA as compared to control, were suffering from lead poisoning. Most of these workers have shown anaemia, abdominal colic, blue lining of gum and muscular wasting indicative of lead toxicity. Twenty-four workers with relatively high blood lead levels were equally divided into two groups and given either vitamin B1 (75 mg, once a day) or vitamin C (250 mg. twice a day) for 1 month. The treatment with both the vitamins significantly lowered the blood lead levels and reduced blood thiamine and copper deficiency. In addition, vitamin C was also effective in reversing the inhibition of blood ALAD activity while the effect of vitamin B1 on its activity was marginal. The daily intake of vitamin B1 and vitamin C may prevent the accumulation of lead and reduce its toxic effects particularly in those regularly exposed to lead.

Pathology of "toxic oils" and selected metals in the MRL/lpr mouse

The Toxic Oil Syndrome epidemic that occurred in Spain in 1981 and affected nearly 20,000 people was caused by ingestion of oil mixtures that contained analine-denatured rapeseed oil. To date, an animal model in which to identify the actual etiologic agents(s) and to investigate the pathogenesis of the disease has not been discovered. In this study, the MRL/lpr was used to assess the histopathological response of 3 "toxic oils" and 3 metals. The oils tested were a denatured rapeseed oil collected from a family who were affected by the Toxic Oil Syndrome epidemic in Spain (CO756) plus two synthesized oils (RSD and RSA). Female mice, 7 weeks of age, received an undiluted (neat) or a 1:10 diluted dose of each oil; mercury (50 ppm), cadmium (100 ppm), or lead (50 ppm). Half of each group was killed after 5 weeks of exposure and the remaining mice after 10 weeks of exposure. Body and organ weights (liver, kidney, thymus, and spleen) were recorded and selected organs were collected for histopathology. Ten weeks after treatment, body weights (BW) of the cadmium and lead groups were significantly suppressed, and the body weight of the C0756-neat group was significantly increased compared to their respective controls. Kidney/BW were decreased in the RSA-neat and RSA 1:10 groups after 10 weeks of exposure, and the kidney/BW in the mercury and cadmium groups were increased. Spontaneous development (12 weeks of age) and progression (17 weeks of age) of histopathological lesions are described for selected organs examined in the naïve mice as are changes that resulted from exposure to the "toxic oils" and metals. C0756-neat, mercury, and lead suppressed progression of the glomerulonephritis that normally occurs in the MRL/lpr mouse. Also of interest were lesions that included mononuclear cuffing of hepatic bile ducts, progression of the granulomas that formed in the renal glomeruli, vessels in the lymphoid organs that contained tightly packed lymphocytes, and the presence of plasma cells in the thymus. All 3 oils stimulated early development of the lymphoproliferative syndrome characteristic of the MRL/lpr mouse as demonstrated by an increase in the thymus/BW and spleen/BW ratios after 5 weeks of treatment. These data contribute to our knowledge of spontaneous disease progression in the thymus, spleen, lymph nodes, and kidneys in the MRL/lpr mouse and the effects of 3 different "toxic oils" and metals on the development and progression of those lesions.

Changes in serum and hepatic cholesterol in lead-induced liver hyperplasia

Lead nitrate when injected intravenously as a single dose to male Wistar rats causes a strong hepatic proliferative response followed by reabsorption of excess tissue within 10-14 days. The rate of cell proliferation in this hyperplastic model was positively correlated with hepatic de novo synthesis of cholesterol, stimulation of the hexose monophosphate shunt pathway of glucose metabolism and with alterations in serum lipoproteins.

[Stereologic analysis of mammary glands in primiparous rats with lead poisoning]

The mammary glands of primigravid Wistar rats were investigated by stereological analysis in conditions of lead acetate administration via drinking water. The experiment was made in early summer period when absorbing ability of rat intestinum for lead is highest. Morphological state of glands was observed on 7th, 14th and 21st day of pregnancy. Groups of control animals were drinking deionized water but groups of experimental animals were drinking deionized water with added lead acetate. On paraffin sections coloured by HE method, volume density (VV) of glands structural elements were determined by multipurpose test system M42. Stereological analysis shows that lead diminishes the proliferative capacity of the mammary parenchyma and changes the morphofunctional differentiation of the overall structure in mammary gland during pregnancy. At the same time lead modifies quantitative trait of the mammary gland, i.e. the composition of the volume units in organ, without changing intramammary syncornization between the epithelium and lipocytes.

Necropsy findings and environmental contaminants in common loons from New York

Diagnostic and analytical findings are presented for 105 common loons (Gavia immer) found dead or debilitated in New York (USA) from 1972-99. Aspergillosis (23% of cases) and ingestion of lead fishing weights (21%) were the most common pathologies encountered. Stranding on land, shooting, other trauma, gill nets, air sacculitis and peritonitis, and emaciation of uncertain etiology accounted for most of the remaining causes of disease or death. Analysis for total mercury in the liver of 83 loons yielded a geometric mean (gm) of 10.3 mg/kg (wet basis) and range of 0.07 to 371 mg/kg, with emaciated birds generally showing higher levels. Organochlorine contaminant levels in brain were generally low, principally consisting of PCB's (gm = 2.02 mg/kg) and DDE (0.47 mg/kg).

Catcholamine and nitric oxide systems as targets of chronic lead exposure in inducing selective functional impairment

Rats were exposed for ten months to 60 ppm of lead (Pb, as acetate) in drinking water to further assess cardiovascular effects of chronic Pb exposure. At the end of the treatment, mean blood Pb was 3.1+/-0.3 microg/dL in the control rats and 22.8+/-1.2 microg/dL in the Pb-exposed rats (means+/-SE, n=12 in each group); these values were not comparable to those of humans. Pb greatly increased plasma levels of noradrenaline (NA) and adrenaline (A), but not those of L-DOPA and dopamine; monoaminoxidase activity was augmented by Pb, mostly in the aorta and in the liver; the aorta, liver, heart and kidney showed discrete histopathological alterations in the Pb-exposed rats, in which plasma levels of nitric oxide (NO, determined as L-citrulline) were reduced. Pb was able to induce blood hypertension, resulting from increase of cardiac inotropism and, mostly, total peripheral resistance. These data were discussed also in relation to those obtained in our previous studies carried out in rats exposed to Pb in drinking water (15-60 ppm) for periods ranging from five to eighteen months. Pb appeared to increase both sympathetic nerve activity by central mechanisms (thus increasing plasma NA and A) and cyclic adenosine monophosphate (cAMP)-dependent availability of calcium ions (Ca++) for contractile mechanisms in the vascular and cardiac myocells (also through an increased vascular alpha2- and myocardial beta1-adrenoreceptor reactivity). The reduction of plasma NO, contributing to increase vascular resistance and cardiac inotropism, was explained as a result of actions of Pb on enzyme activities concerned with the kallikrein-kinin (KK) and renin-angiotensin-aldosterone (RAA) systems. It was concluded that chronic Pb exposure is able to affect selective neuroendocrine (i.e., catecholamine), au- tacoidal (i.e., KK and RAA) and transductional pathways (i.e., cAMP, NO, Ca++) involved in the cardiovascular function.

Lead toxicosis in a puppy

After showing clinical and radiographic signs of a gastrointestinal foreign body, a 5-month-old puppy began head pressing, which progressed to convulsions. Hematological abnormalities suggested lead poisoning; serum lead was 2.61 mumol/L. The puppy made a complete recovery after intensive treatment for lead toxicosis.

Study of the neurochemical alterations produced in discrete brain areas by perinatal low-level lead exposure

Although the neurotoxic effects of Pb are well documented, the subcellular mechanisms of this action in the central nervous system are not fully understood. The present work examines some neurochemical parameters in discrete brain areas of pups whose mothers were intoxicated via drinking water with lead (300 mg/L), from day 1 of pregnancy until postnatal day 12. Lead intoxication produced a significant reduction in the activity of the enzymes alkaline phosphatase and ATP-ase in the brain. Furthermore, the levels of adenine nucleotides were significantly altered by treatment, the striatum being the area more affected, whereas lead did not vary the levels of ATP, ADP and AMP in the hypothalamus. On the other hand, there was a general decrease in neurotransmitter levels in all areas, specially in the hippocampus. These data suggest that gestational and lactational exposure to low dose of lead could produce neurochemical changes in discrete brain areas which can be responsible for the neurophysiological and behavioral changes described in lead-intoxicated animals.

Histochemical demonstration of changes in the activity of hepatic phosphatases induced by experimental lead poisoning in male white rats (Rattus norvegicus)

Seven hepatic phosphatases were histochemically investigated in male white rats (Rattus norvegicus) pretreated with chronic subtoxic doses of lead acetate. Lead has increased the activities of alkaline-, acid-, neutral-, adenosine mono- and glucose-6-phosphatase, but has markedly decreased the activity of membrane-bound Na+-K+, ATPase while the activity of mitochondrial Mg2+-ATPase was not altered. It has also produced heterogenous alterations in the distribution patterns, sites of the enzymatic activities and in the intensity of phosphatase activities among the same type of cells in the terminal afferent and efferent venules of the hepatic lobules. The obtained histochemical findings indicate that the alterations in the activities of hepatic phosphatases could be an adaptation to the metabolic, structural and functional changes in the organelles of hepatic cells due to lead intoxication.

Experimental lead arthropathy: an animal model

BACKGROUND

We previously demonstrated short-term effects of intra-articular lead on joint structures in an animal model. We now present histopathologic findings in animals studied over a more extended period.

METHODS

Twelve female New Zealand White rabbits had identical lead or stainless steel pellets, or a sham arthrotomy (without implant) inserted in both front knees. The rabbits were killed 4 at a time at 6, 10, and 14 weeks after implantation, and the knee joint structures were evaluated histologically for changes in the synovium, articular cartilage, and meniscus.

RESULTS

Histology of the tibial articular surface, femoral articular surface, medial meniscus, lateral meniscus, and synovium showed greater signs of degeneration in the knees with lead implants than controls at all time periods.

CONCLUSION

Intrasynovial lead, which does not undergo fibrous encapsulation, has been linked to lead intoxication. Clinical and experimental reports support removal of lead bodies from articular areas in an attempt reduce or slow the degeneration of affected joints. Nonmechanical effects of lead on intraarticular structures may lead to degenerative changes

Lead poisoning in woodpeckers in Sweden

Lead poisoning was demonstrated in two gray-headed woodpeckers (Picus canus) and one white-backed woodpecker (Dendrocopus leucotos) in Sweden; they had liver lead levels between 9.4 and 26.2 mg(-1) wet weight. At necropsy one gray-headed woodpecker showed signs of emaciation and the other one had severe traumatic injuries, caused by a cat. The white-backed woodpecker died in the transportation box during a translocation program. The source of the lead could not be determined, but it was suspected that it may have originated from lead pellets shot into trees and picked out by the woodpeckers during food search.

Spatial and temporal variation in lead levels related to body condition in the Mississippi Valley population of Canada geese

Concern over lead poisoning led to progressive prohibition of toxic shot to harvest waterfowl in the 1980's. Nevertheless, waterfowl remain susceptible to ingestion of lead shot because illegal use continues and spent shot persists in soil and wetland substrates. While mortality due to lead toxicosis has subsided, sublethal effects may still affect survival and reproduction. We measured liver lead levels and body condition in 732 Canada geese (Branta canadensis interior) during July 1984 to April 1989 in southern Illinois (USA), east-central Wisconsin (USA), and northern Ontario (Canada). Although we sampled only individuals that were visibly healthy, 55 of 732 (7.5%) geese had elevated liver lead levels (> 2 ppm). Lead levels of 46 (6.3%) geese indicated subclinical poisoning (2-6 ppm) and 9 (1.2%) geese had lead levels indicative of clinical poisoning (> 6 ppm). A greater proportion of juveniles (14.3%) had elevated lead levels than did adults (6.0%), but there was no difference between genders. Lead levels were highest in autumn and winter in southern Illinois, but were low during nesting and summer, despite legal use of lead shot in northern Ontario during our study. Lead poisoning (> or = 5% of the population) was still evident during all seasons in juveniles, and during autumn and winter in adults, 5 to 10 yr after toxic shot was banned from areas where we collected geese during migration and winter. Elevated lead levels did not affect total body mass, lipid reserves, or mineral levels of geese we collected. Protein levels also were unaffected below 10 ppm, but there was evidence of decline at higher concentrations. Thus, it seems unlikely that lead exposure currently affects survival or reproduction of Mississippi Valley Population (MVP) geese via body condition, although other sublethal effects cannot be discounted.

Lead and hypertension in a sample of middle-aged women

OBJECTIVES

The role of lead exposure as a risk factor for hypertension is less well defined among women than among men. This case-control study assessed the relation of blood and bone lead concentrations to hypertension in women.

METHODS

Cases and controls were a subsample of women from the Nurses' Health Study. Hypertension was defined as a physician diagnosis of hypertension between 1988 and 1994 or measured systolic blood pressure > or = 140 mm Hg or diastolic blood pressure > or = 90 mm Hg.

RESULTS

Mean (SD) blood lead concentration was 0.15 (0.11) mumol/L; mean tibia and patella lead concentrations by K-x-ray fluorescence were 13.3 (9.0) and 17.3 (11.1) micrograms/g, respectively. After adjustment for potentially confounding factors, an increase from the 10th to the 90th percentile of patella lead values (25 micrograms/g) was associated with approximately 2-fold (95% confidence interval = 1.1, 3.2) increased risk of hypertension. There was no association between hypertension and either blood or tibia lead concentrations.

CONCLUSIONS

These findings support a potentially important role for low-level lead exposure as a risk factor for hypertension among non-occupationally exposed women.

Experimental lead toxicosis of raccoons (Procyon lotor)

Four pairs of raccoons were treated orally with the following doses of lead acetate (mg/kg; 5 days/week, for 8 weeks): 0 (control), 1, 2 and 4. In the six experimental animals, this treatment produced dose-dependent increases in blood lead, without clinical signs or changes in haematological parameters. After 8 weeks, the liver and kidney of all lead-treated animals and the calvarium and radius of those receiving doses of 2 and 4 mg/kg contained elevated concentrations of lead. Acid-fast inclusions were observed by light and electron microscopy in the kidneys of all raccoons receiving the two highest doses and in one animal receiving the lowest dose. Hepatic acid-fast inclusions were seen in only one animal (dose 4 mg/kg). No inclusions were seen in osteoclasts of the radius. It is suggested that the findings, which support earlier observations that raccoons are fairly resistant to lead, may be of value in studying interactions between lead exposure and oral vaccination of wildlife against rabies.

Histopathological lesions in lead intoxicated dogs

The ultra-structural lesions of lead poisoning and the deposition of lead in liver, kidney, peritoneum, cerebellum and retina of dogs were studied. Specimens were obtained from 5 3-4 mo-old crossbreed dogs each injected i.p. with a total dose of 120 mg lead acetate, divided in 10 equal doses of 12 mg, administered every other day. Two dogs were controls. Histopathological examination revealed degeneration of the epithelial cells of the urinary tubules, the endothelial cells of the renal capillaries and the hepatocytes. Characteristic lead inclusion bodies were observed intracytoplasmically and intranuclearly in mesothelial and giant cells of the peritoneum. Lead needle-like inclusions were intracytoplasmically in the interstitial connective tissue cells of the kidney, and substantial quantities of lead were in collagen fibers of the interstitial kidney tissue.

Myopathy: a possible effect of chronic low level lead exposure

Morphological changes in the central nervous system and other organs have been reported in numerous studies investigating low level lead exposure. To date, however, there are no investigations on the effect of low level lead exposure on striated muscles, although varying neuromuscular changes in different species have been known for years. Rhesus monkeys were exposed pre- and postnatally to lead acetate in the diet (350 ppm or 600 ppm) over 9 years, followed by a lead free period of 32 months, while a control-group received regular diet. No signs of muscular dysfunction were evident. To elucidate neuromuscular pathomorphology frozen sections of the vastus medialis muscle were processed for routine and enzymohistological staining (Hematoxilin and Eosin, Sudan Black, Gomori, NADH, ATPase). Resin histology was processed for electron microscopy. Morphometric analysis was made with commercial software. Light microscopy revealed dose-related signs of myopathy in the lead-exposed groups. The scatter of fibre diameters was increased, and split fibers and internal nuclei were more frequent. Fibres became separated from each other by copious endomysial connective tissue. Ultrastructural examination showed hydropic mitochondria and a massively dilated sarcotubular system in the 600 ppm group. Dose-related extracellular collagen deposition increased. A heavy fibrosis was seen in the 600 ppm group. These findings are interpreted as myopathical reaction due to chronic low level lead exposure, as there were no signs of neurogenical lesion. It remains unknown how the fibrosis developed. A primary fibrosis could be based upon a developmental delay of satellite cells (expressing metalloproteases for collagen-catabolism). Lead is known to inhibit regular development in many ways if exposure has started prenatally. As the skeletal muscle is a common target of toxicity, the myotoxic effects of chronic low level lead exposure comes into question.

Magnetic resonance imaging and spectroscopy of regional brain structure in a 10-year-old boy with elevated blood lead levels

OBJECTIVE

The effects of elevated blood lead levels on the development of children have been examined only in the context of behavioral and neuropsychological evaluations. No studies have examined the effects of lead on brain metabolism in vivo or on structural and/or functional correlates of brain function in children. In the human brain, magnetic resonance spectroscopy (MRS) provides a noninvasive, risk-free method to monitor the biochemistry of acute and chronic stages of disease. The purpose of this study was to examine in vivo the use of MRS for the evaluation of the neurotoxic effects of lead on the nervous system, by detection of brain metabolism, especially N-acetylaspartate, a metabolite shown to decrease in processes that involve neuronal loss.

METHODOLOGY

Two male cousins who live in the same household and share the same socioeconomic background and home environment were studied. The subject, a 10-year-old boy, had elevated blood lead levels. His cousin, a 9-year-old boy, was not exposed to lead. Both underwent a comprehensive neuropsychological evaluation and both were evaluated using the magnetic resonance imaging (MRI) and MRS at the University of Pennsylvania Medical Center. High-resolution MRI and MRS were performed using a 3-in surface coil. Localized proton spectra were obtained from contiguous 6 x 6 x 10-mm voxels using one-dimensional phase encoding, with a 2000-millisecond repetition time and a 31-millisecond echo time.

RESULTS

Neuropsychological evaluation demonstrated areas of impairment in the lead-exposed child, including difficulties in academic skills of reading, writing, and arithmetic, as well as deficient linguistic skills and attentional mechanism. By contrast, studies of the cousin, who was not exposed to lead, showed overall neuropsychological functioning within normal limits. Although both children had a normal MRI examination of the brain, studies of the lead-exposed boy showed a significant alteration in brain metabolites, with a reduction in the N-acetylaspartate:creatine ratio for both gray and white matter on the MRS examination, compared with his cousin.

CONCLUSIONS

The present study is a first attempt to determine in vivo metabolic differences in the brain of a child exposed to lead compared with a healthy control subject. This is a unique case because these children were matched on a number of variables usually regarded as confounders in behavioral lead studies, and therefore can be regarded as matched controls. The present study demonstrates that MRS is a feasible, noninvasive technique for in vivo examination of the brains of children exposed to lead. We were able to obtain high-quality spectra from voxels as small as 0.36 cm at 1.5T. The spatial resolution used in the present study is sufficient to obtain spectra from voxels almost exclusively composed of gray matter. The one-dimensional phase-encoding approach used presents the advantage of obtaining several spectra simultaneously in a relatively short time. The present study has allowed us to examine the spectroscopic patterns of frontal gray and white matter after lead exposure relative to the normal pattern seen in healthy children and adults. The MRS study of the healthy, nonlead-exposed cousin demonstrated spectra entirely consistent with the spectral pattern reported in previous studies of healthy individuals. By contrast, the spectra obtained from the lead-exposed child deviated from the expected pattern in all metabolite ratios analyzed. Because N-acetylaspartate has been shown as a measure of neuronal viability, the level of N-acetylaspartate may enable us to evaluate the degree of neuronal loss in children exposed to lead. The MRI examination indicated no structural abnormalities or cortical thinning, and no abnormal findings in either case. By contrast, MRS indicated a significant change from normal values for the lead-exposed child. This supports the idea that lead neurodevelopmental toxicity may be related to inter

Synaptic plasticity in the CA1 and CA3 hippocampal region of pre- and postnatally lead-exposed rats

The effects of low level lead exposure on synaptic plasticity in hippocampal regions CA1 and CA3 were determined in adult rats in vitro. In the CA3 region the NMDA (N-methyl-D-aspartate)-independent mossy fiber-CA3 synapse potentiation was not influenced by chronic pre- and postnatal lead exposure, while in the same rats, in the CA1 region the NMDA-dependent long-term potentiation was slightly reduced as compared to controls. Paired-pulse facilitation was neither impaired in CA1 nor in CA3 region in the lead-exposed rats. These findings suggest that NMDA-dependent forms of synaptic plasticity are more susceptible to chronic low level lead exposure than NMDA-independent forms of potentiation or paired-pulse facilitation.

Developmental cholinotoxicity of lead: loss of septal cholinergic neurons and long-term changes in cholinergic innervation of the hippocampus in perinatally lead-exposed rats

The effects of perinatal lead exposure on choline acetyltransferase-immunoreactive (ChAT-IR) cell counts in the medial septum and AChE-positive fiber counts in the hippocampus were examined in relation to changes in cholinergic markers in the septohippocampal pathway of the rat. Maternal exposure to 0.2% lead acetate in drinking water from gestational day 16 through weaning at post-natal day 21 (P21) induced in the offspring a 30% reduction in septal ChAT activity and a 20% reduction in ChAT-IR cell profile counts in the medial septum/vertical diagonal band (MS/vDB). These changes were seen as early as P7, persisted through 2 months post-exposure (P81), and were followed by recovery of ChAT activity but not the ChAT-IR cell numbers, at 3 months post-exposure (P112). The loss of ChAT activity and ChAT-IR neurons in the septum was temporally associated with a reduction of ChAT activity (30%), hemicholinium-3 (HC-3) binding (40%), and AChE-positive fiber counts (13-15%) in the hippocampus. The hippocampal ChAT activity and AChE-positive fiber counts returned to control levels by P112 whereas HC-3 binding was restored to normal levels by P200. These results indicate that perinatal, low-level lead exposure induces loss of septohippocampal cholinergic projection neurons in neonate animals, resulting in a deficit in hippocampal cholinergic innervation that persists into young adulthood. The disruption of cholinergic septohippocampal system may be an important factor in lasting cognitive impairments associated with early Pb exposure.