Perinatal lead exposure alters locomotion induced by amphetamine analogs in rats.

AIMS: The precise neurochemical perturbations through which perinatal (gestation/lactation) lead exposure modifies the reinforcement efficacy of various psychoactive drugs (e.g., cocaine, opiates) are unknown. The present study considers the role of altered serotonin and dopamine functionality in perinatal lead-psychostimulant interactions. MAIN METHODS: Female rats were administered a 16-mg lead or a control solution (p.o.) for 30days prior to breeding with non-exposed males. Lead exposure was discontinued at weaning (postnatal day [PND] 21). Starting at PND 120, male rats born to control or lead-exposed dams were injected with either PAL-287 or PAL-353, at doses of 0, 2, 4, 8, or 16umol/kg (i.p.) with each dose given prior to an acute (45min) locomotion test. Whereas PAL-287 is a potent releaser of serotonin, PAL-353 is not. Each drug induces comparable release of norepinephrine (NE) and of dopamine (DA). KEY FINDINGS: Control and lead rats exhibited minimal locomotion to PAL-287. PAL-353 produced a dose-dependent activation of locomotion in control rats relative to the effects of PAL-287 in control rats. Lead-exposed rats exhibited a subsensitivity to PAL-353 at doses of 4 and 8umol/kg. SIGNIFICANCE: The subsensitivity of lead rats to PAL-353 is consistent with a lead-induced diminution of dopamine function, an effect noted earlier for the reuptake inhibitor cocaine (Nation et al. 2000). The similar response of lead and control rats to PAL-287 is inconsistent with diminished serotonin function.

Prenatal lead exposure enhances methamphetamine sensitization in rats.

Adult female rats were exposed to lead-free sodium acetate via gavage [0 mg (vehicle control)] or to 16 mg lead as lead acetate for 30 days prior to breeding. Following confirmation of breeding, the female animals continued to be exposed to their respective doses throughout gestation and lactation. When weaned, 16 control and 16 lead-exposed offspring were placed on regular water and food (lead-exposure was discontinued) until postnatal day (PND) 70. At this time, one-half of the control animals and one-half of the lead-treatment animals received intraperitoneal (i.p.) injections of the vehicle (saline) for 10 successive days and the remaining animals in each exposure conditions received daily injections of 1.0 mg/kg (+)-methamphetamine (METH) for 10 days (N=8/group). Locomotion in automated chambers was monitored daily for 45 min post-injection. Subsequently, during dose-effect testing, all animals received consecutive daily i.p. injections of 0, 1.0, 2.0, and then 4.0 mg/kg METH. The results of the experiment showed that both control and lead-exposed animals exhibited heightened locomotor activity (i.e. behavioral sensitization) to the repeated administration of 1.0 mg/kg METH. More importantly, animals developmentally (perinatally) exposed to lead showed more rapid sensitization than did their control counterparts. These data indicate that early lead exposure increases sensitivity to the locomotor-stimulating effects of METH. In contrast, identically exposed lead animals exhibit diminished METH dose-effect responding when tested in an intravenous (i.v.) self-administration paradigm [Rocha A., Valles R., Bratton G.R., Nation J.R. Developmental lead exposure alters methamphetamine self-administration in the male rat: acquisition and reinstatement. Drug Alcohol Depend 2008a;95:23-29, Rocha A., Valles R., Hart N., Bratton G.R., Nation J.R. Developmental lead exposure attenuates methamphetamine dose-effect self-administration performance and progressive ratio responding in the male rat. Pharmacol Biochem Behav 2008b;89:508-514].

Inorganic nutrients and contaminants in subsistence species of Alaska: linking wildlife and human health.

OBJECTIVES: To determine inorganic nutrient and contaminant concentrations in subsistence foods consumed by Alaska Natives, concentration changes related to common preparation methods and provide a basic risk-benefit analysis for these foods. STUDY DESIGN: Eleven essential and six non-essential elements were measured in foods derived from spotted seals and sheefish. METHODS: Essential nutrients in foodstuffs were compared to Daily Recommended Intake (DRI) criteria. Non-essential elements were compared to Tolerable Daily Intake Limits (TDIL). These comparisons serve as a risk-benefit analysis, not as consumption advice. RESULTS: Cooking altered nutrient and contaminant concentrations. Spotted seal muscle and kidney are rich in Fe and Se; liver in Cu, Fe, Mo and Se; and sheefish muscle in Se. TDIL was exceeded in a 100 g serving of seal for THg in raw and fried liver and boiled kidney; MeHg in dried muscle and raw and fried liver; Cd in raw and boiled kidney; and As in raw and rendered blubber. Arsenic exceeded TDIL in sheefish muscle. However, toxicity potential is likely reduced by the element form (i.e., organic As, inorganic Hg) and the presence of protective nutrients such as Se. CONCLUSIONS: Preparation methods alter wildlife tissues from their raw state, significantly affecting element concentrations. Direct evaluation of actual food items is warranted to determine risk-benefit ratios of traditional diets. Traditional foods provide many essential nutrients with a very limited risk from contaminants. We encourage continued consumption of traditional foods, and urge public health agencies to develop applicable models for providing consumption advice, incorporating food processing considerations.

Heavy metal and mineral concentrations and their relationship to histopathological findings in the bowhead whale (Balaena mysticetus).

The bowhead whale (Balaena mysticetus) is a species endangered over much of its range that is of great cultural significance and subsistence value to the Inuit of Northern Alaska. This species occupies subarctic and arctic regions presently undergoing significant ecological change and hydrocarbon development. Thus, understanding the health status of the Bering-Chukchi-Beaufort Sea (BCBS) stock of bowhead whales is of importance. In this study, we evaluated the concentrations of six essential and non-essential elements (Zn, tHg, Ag, Se, Cu and Cd) in liver and kidney of bowhead whales (n=64). These tissues were collected from the Inuit subsistence hunt in Barrow, Wainwright and Kaktovik, Alaska between 1983 and 2001. Reference ranges of these elements (including previously reported data from 1983-1997) were developed for this species as part of a health assessment effort, and interpreted using improved aging techniques (aspartic acid racemization and baleen isotopic (13)C methods) to evaluate trends over time with increased statistical power. Interactions between element concentrations and age, sex and harvest season were assessed. Age was found to be of highest significance. Sex and harvest season did not effect the concentrations of these elements, with the exception of renal Se levels, which were significantly higher in fall seasons. In addition, histological evaluation of tissues from whales collected between 1998-2001 was performed. Associations between concentrations of Cd in kidney and liver and scored histopathological changes were evaluated. Liver Cd concentration was strongly associated with the degree of lung fibromuscular hyperplasia (P=0.001) and moderately associated with the degree of renal fibrosis (P=0.03). Renal Cd concentration influenced the degree of lung fibromuscular hyperplasia and renal fibrosis (P=0.01). A significant age effect was found for both pulmonary fibromuscular hyperplasia and renal fibrosis, indicating age may be a causative factor. Improvements in aging techniques and the addition of histological indices help clarify the relationships between elements and the influence of life history parameters on concentrations of these elements and potential impacts on health. These data provide essential baseline input useful for monitoring the effects of arctic ecosystem change as it relates to global climate change and industrial development, as well as help inform epidemiological studies examining the public health implications of heavy metals in subsistence foods.

Developmental lead exposure attenuates methamphetamine dose-effect self-administration performance and progressive ratio responding in the male rat.

Perinatal (gestation/lactation) lead exposure modifies the reinforcement efficacy of various psychoactive drugs (e.g., cocaine, opiates) across the phases of initial selection, use, and abuse [Nation J.R., Cardon A.L., Heard H.M., Valles R., Bratton G.R. Perinatal lead exposure and relapse to drug-seeking behavior in the rat: a cocaine reinstatement study. Psychopharmacol 2003;168: 236-243.; Nation J.R., Smith K.R., Bratton G.R. Early developmental lead exposure increases sensitivity to cocaine in a self-administration paradigm. Pharmacol Biochem Behave 2004; 77: 127-13; Rocha A., Valles R., Cardon A.L., Bratton G.R., Nation J.R. Enhanced acquisition of cocaine self-administration in rats developmentally exposed to lead. Neuropsychopharmacol 2005; 30: 2058-2064.]. However, changes in sensitivity to methamphetamine across the phases of drug abuse have not been examined in animals perinatally exposed to lead. Because the mainstream popularity of methamphetamine in the United States is increasing and lead exposure continues to be widespread, an examination of this drug and how it may be modified by perinatal exposure to lead is warranted. The studies reported here examined the effects of perinatal lead exposure on adult self-administration of intravenous (i.v.) methamphetamine across the maintenance phase of drug addiction. Experiment 1 examined dose-effect patterns in control and lead-exposed animals. Experiment 2 evaluated control and lead-exposed animals in a progressive ratio task. Female rats were administered a 16-mg lead or a control solution for 30 days prior to breeding with non-exposed males. Exposure continued through pregnancy and lactation and was discontinued at weaning (postnatal day [PND] 21). Animals born to control or lead-exposed dams received indwelling jugular catheters as adults (PND 70) and subsequently were randomly assigned to one of the two studies, using only one male rat per litter for each study. The data showed a general attenuation of the reinforcement efficacy of methamphetamine in animals perinatally exposed to lead, as compared to control animals.

Developmental lead exposure alters methamphetamine self-administration in the male rat: acquisition and reinstatement.

The rate of acquisition of drug self-administration and the return to drug seeking are important elements of the overall drug profile, and are essential factors in understanding risks associated with drug abuse. Experiment 1 examined the effects of perinatal (gestation/lactation) lead exposure on adult rates of acquisition of intravenous (i.v.) methamphetamine self-administration. Experiment 2 investigated the effects of perinatal lead exposure on drug-maintained responding in a reinstatement (relapse) paradigm. In Experiment 1, female rats were gavaged daily with 0 or 16 mg lead for 30 days prior to breeding with nonexposed males. Lead exposure continued through gestation and lactation and was discontinued at weaning (postnatal day [PND] 21). Male rats born to control or lead-exposed dams were tested daily as adults in an acquisition paradigm that incorporated both Pavlovian and operant components. An initial 3-h autoshaping period preceded a 3-h self-administration period. For 35 daily training sessions i.v. methamphetamine infusions [inf] (0.02 mg/kg) were paired with the extension and retraction of a lever (autoshaping), while inf occurred during self-administration only when a lever press was executed (FR-1). In Experiment 2 animals developmentally exposed to lead were trained on an FR-2 to self-administer methamphetamine (0.04 mg/kg/inf) and then placed on an extinction schedule prior to receiving intraperitoneal (i.p.) priming injections of saline, 0.50, 1.00, or 1.50 mg/kg methamphetamine. The findings from Experiment 1 showed that acquisition was delayed in rats born to lead-exposed dams gavaged daily with 16 mg lead throughout gestation and lactation when a 0.02-mg/kg/inf of methamphetamine served as the reinforcement outcome. Additional data from Experiment 2 indicated priming cues (injections of methamphetamine [i.p.]) administered after extinction were less likely to occasion a return to drug seeking (relapse) in the 16-mg group relative to the 0-mg control group. These results suggest perinatal lead exposure alters patterns of methamphetamine self-administration during the adult cycle.

Total mercury body burden in Pacific harbor seal, Phoca vitulina richardii, pups from central California.

To determine body and tissue compartment-specific burdens (mg) of total mercury (THg), tissues were weighed and analyzed for THg concentration (microg/g fw) in Pacific harbor seal (Phoca vitulina richardii) pups from central California in 2006. THg concentrations were related as follows: hair >> liver = kidney = pelt > muscle > other = heart > brain > blubber > bone. THg burden, however, was related as: pelt = muscle > liver = other > kidney = blubber > brain = heart > bone. THg concentration and burden in muscle were strongly associated with delta(15)N. delta(13)C and delta(15)N values were significantly greater in muscle than liver, and delta(13)C was significantly lesser the longer animals were in rehabilitation. Because THg concentration and burden in muscle correlated most significantly with other tissue compartments, we recommend that muscle from the specific sites we sampled be used instead of liver or hair for biomonitoring THg in harbor seals. Assessment of proportional THg burdens within each tissue compartment for harbor seals pups included use of a conceptual model, allowing for more complete visual characterization of THg body burden.

Stable isotope and trace element status of subsistence-hunted bowhead and beluga whales in Alaska and gray whales in Chukotka.

Tissues of bowhead, beluga, and gray whales were analyzed for Ag, Cd, Cu, Se, Zn, THg and MeHg (belugas only). Delta15N and delta13C in muscle were used to estimate trophic position and feeding habitat, respectively. Trace element concentrations in tissues were significantly different among whale species. Hepatic Ag was higher in belugas than bowheads and gray whales. Gray whales had lower Cd concentrations in liver and kidney than bowhead and belugas and a sigmoid correlation of Cd with length was noted for all whales. Renal and hepatic Se and THg were higher in belugas than in baleen whales. The hepatic molar ratio of Se:THg exceeded 1:1 in all species and was negatively correlated to body length. Hepatic and renal Zn in subsistence-harvested gray whales was lower than concentrations for stranded whales. Se:THg molar ratios and tissue concentrations of Zn may show promise as potential indicators of immune status and animal health.

IGF-1 administration to prepubertal female rats can overcome delayed puberty caused by maternal Pb exposure.

Because prepubertal female rats maternally exposed to lead (Pb) exhibit suppressed serum levels of insulin-like growth factor-1 (IGF-1) and delayed puberty, we investigated the ability of centrally administered IGF-1 to stimulate luteinizing hormone (LH) release in vivo and LH-releasing hormone (LHRH) release in vitro from maternally Pb-exposed prepubertal female rats. Additionally, we assessed whether IGF-1 replacement could affect the timing of female puberty. Results demonstrated that IGF-1 stimulated significantly LH release in both control and Pb-exposed animals. When median eminences from control and Pb-exposed females were incubated with rat IGF-1 in vitro, they responded similarly with significant peptide-induced LHRH release. Lastly, we showed IGF-1 replacement reversed the delay in puberty caused by Pb. These results indicate the central LHRH response to IGF-1 is intact and that Pb-induced delayed puberty is due, at least in part, to suppressed circulating IGF-1 available to the hypothalamus.

The effects of the GABAA antagonist bicuculline on cocaine self-administration in rats exposed to lead during gestation/lactation.

The present investigation examined the effects of perinatal lead exposure on cocaine self-administration following a GABAA antagonist pretreatment. Female rats were exposed to either 0 or 16 mg lead daily for 30 days prior to breeding with unexposed males. Beginning on postnatal day (PND) 75, control (N=10) and lead-exposed (N=8) animals were trained to self-administer 0.50 mg/kg cocaine intravenously (IV). After stable responding was established, animals were tested at 0.03 and 0.06 mg/kg cocaine delivered intravenously (IV), combined with intraperitoneal (IP) administration of either saline, 0.50, 1.00 or 2.00 mg/kg bicuculline (a GABAA antagonist). The results showed that control animals increased self-administration responding at a cocaine dose of 0.06 mg/kg as bicuculline dose increased. Lead-exposed animals exhibited an opposite pattern, i.e., a decrease in active (cocaine) lever responding occurred as the bicuculline dose was increased. Results at the 0.03 mg/kg cocaine dose failed to show group separation, or significant changes consequent to the bicuculline pretreatment. The data suggest that GABA antagonism results in increased reward potency of a low dose of cocaine and further, that this effect is differentially expressed in animals exposed to perinatal lead.

Enhanced acquisition of cocaine self-administration in rats developmentally exposed to lead.

The rate of acquisition of drug self-administration may serve as a predictor of later drug-taking behavior, possibly influencing the vulnerability to use drugs. The present study examined the effects of perinatal (gestation/lactation) lead exposure on adult rates of acquisition of intravenous cocaine self-administration using an automated procedure that included both Pavlovian and operant components. For Experiment 1, female rats were gavaged daily with 0 or 16 mg lead for 30 days prior to breeding with nonexposed males. Metal administration continued through pregnancy and lactation and was discontinued at weaning (postnatal day (PND) 21). Animals born to control or lead-exposed dams subsequently were tested daily as adults in a preparation where sessions included an initial 3-h autoshaping period followed by a 3-h self-administration period where 0.20 mg/kg cocaine was delivered contingently. During autoshaping, intravenous cocaine infusions were paired with the extension and retraction of a lever, while infusions occurred during self-administration only when a lever press was executed (FR-1). The criterion for acquisition was a 2-day period during which a mean of 50 infusions/session occurred during self-administration. Animals were given 35 days to reach criterion. In Experiment 1, accelerated rates of acquisition of cocaine self-administration were evident for lead-exposed animals relative to controls. Overall, the number of self-administered cocaine infusions per session was significantly higher for lead-exposed rats as compared to control rats. Experiment 2 replicated Experiment 1 except that a higher dose of cocaine (0.80 mg/kg) was employed as the reinforcer, and 30 infusions/session was the set criterion. At the higher cocaine dose (Experiment 2), acquisition rates for control and lead-exposed animals were not markedly different, and significantly different infusion rates were not observed.

Exposure to cadmium during gestation and lactation decreases cocaine self-administration in rats.

This investigation examined the effects of perinatal cadmium exposure on subsequent self-administration of cocaine during the adult cycle. Female Sprague-Dawley rats were gavaged daily with 0.0 (14% sucrose solution, w/v) or 5.0 mg cadmium chloride (dissolved in 14% sucrose solution, w/v) for 30 days prior to breeding with non-exposed males. Dams continued to experience cadmium exposure through gestation and until pups were weaned at postnatal day (PND) 21. On PND 70, offspring were anesthetized and chronic indwelling jugular catheters were implanted. Following recovery, test subjects were trained in operant chambers to self-administer 0.500 mg/kg infusion (inf) intravenous cocaine on a fixed-ratio (FR) 2 schedule of reinforcement. Following acquisition, self-administration rates were tested for saline, 0.030, 0.060, 0.125, 0.250, and 0.500 mg/kg inf cocaine. Rats exposed developmentally to cadmium self-administered significantly less than controls at saline, 0.030, and 0.060 mg/kg inf cocaine. These data indicate that early-life cadmium exposure, a common exposure vector of which is the use of tobacco products, may affect cocaine sensitivity.

Self-administration of heroin in rats: effects of low-level lead exposure during gestation and lactation.

RATIONALE: Developmental lead exposure has been found to produce differential patterns of drug self-administration in adult animals. OBJECTIVES: The present study examined the effects of perinatal (gestation/lactation) lead exposure on adult patterns of heroin self-administration. METHODS: Female rats were gavaged daily with 0 mg or 16 mg lead for 30 days prior to breeding with non-exposed males. Metal administration continued through pregnancy and lactation and was discontinued at weaning [postnatal day 21 (PND 21)]. Animals born to control or lead-exposed dams received indwelling jugular catheters as adults and were randomly assigned to one of two studies. In experiment 1, animals were tested on a FR-2 schedule in an effort to examine differential sensitivity to heroin in an intravenous self-administration paradigm. Seven doses of heroin were selected ranging from 0.56 microg/kg to 36 microg/kg per infusion. In experiment 2, littermates were tested on a progressive ratio (PR) schedule in order to more explicitly determine the nature of the change in sensitivity to the drug. RESULTS: In experiment 1, lead-exposed animals responded for heroin at significantly lower rates across most doses as evidenced by a downward shift in the inverted-U dose-effect curve. Congruent with these findings, lead-exposed animals in experiment 2 exhibited a decrease in progressive ratio responding (lower breaking points) across all heroin doses, further suggesting that perinatal lead exposure attenuates opiate self-administration in adult animals by altering the rewarding efficacy of the drug. In experiment 2, it was determined further that lead-exposed animals had lower latencies to make the initial lever press for heroin. CONCLUSIONS: These results support previous literature suggesting that perinatal exposure to inorganic lead attenuates the effectiveness of opiates as a reinforcer when animals are tested in the adult life cycle.

Early developmental lead exposure increases sensitivity to cocaine in a self-administration paradigm.

The purpose of this investigation was to determine if lead exposure during pregnancy and nursing alters cocaine sensitivity later in the adult cycle, although lead exposure had been discontinued following early development. Female rats were exposed via gavage to 0 or 16 mg/kg lead daily for 30 days prior to breeding with nonexposed males. The respective daily exposure regimens continued throughout gestation and lactation (perinatal lead exposure). Lead exposure was discontinued on the day of weaning (postnatal day [PND] 21). Beginning on PND 70, male offspring were trained to self-administer cocaine HCl intravenously. Examination of a range of cocaine doses (0.030, 0.060, 0.125, 0.250, and 0.500 mg/kg/infusion) revealed that, as adults, animals exposed to lead during early development self-administered cocaine at significantly greater rates at a low dose of the drug. In addition, self-administration rates were lower among lead-exposed animals at higher doses of cocaine. These findings were observed in metal-exposed animals where blood and brain tissue levels had returned to the levels of controls. Collectively, these data suggest that early developmental lead exposure may increase sensitivity to cocaine later in the life cycle.

Low level lead (Pb) exposure during gestation and lactation: assessment of effects on pubertal development in Fisher 344 and Sprague-Dawley female rats.

Studies using both Fisher 344 and Sprague-Dawley (SD) rat lines have shown that gestational and/or lactational maternal lead (Pb) exposure causes delayed reproductive maturation in their respective female offspring. Because these studies utilized different experimental regimens for dosing and for monitoring Pb levels, it has not been possible to determine which rat line provides the best model for low level Pb toxicity studies. This study was designed to address this issue. Adult Fisher and SD female rats were dosed with either a solution of PbAc containing 12 mg of Pb/ml or sodium acetate (NaAc) for controls. Dosing began 30 days prior to breeding and continued until their pups were weaned at 21 days of age. At the time of breeding and through weaning the blood lead (BPb) levels in the Fisher dams averaged 37.3 microg/dl and the SD dams averaged 29.9 microg/dl. Pb delayed the timing of puberty (p < 0.01) in Fisher offspring, and suppressed serum levels of luteinizing hormone (LH, p < 0.001) and estradiol (E2, p < 0.01). These effects did not occur in the SD offspring. Doubling the dose given to the SD rats increased their BPb levels to 62.6 microg/dl, yet there were still no effects noted. These results indicate that Fisher offspring are more sensitive to maternal Pb exposure with regard to puberty related insults than are SD rats, suggesting that the Fisher line may be a more reliable rodent model to study the effects of low level Pb toxicity.

The effects of low-level Pb on steroidogenic acute regulatory protein (StAR) in the prepubertal rat ovary.

Estradiol (E2) is suppressed in prepubertal females exposed maternally to lead (Pb); thus, we assessed effects of Pb on ovarian steroidogenic acute regulatory protein (StAR) as a potential mechanism for this action. Adult Fisher 344 females were dosed with 12 mg of lead acetate per ml of Pb acetate (PbAc) or sodium acetate (NaAc; control), beginning 30 days prior to breeding and continuing until their pups were weaned. For the first part of this study, animals from both groups were killed when 31 days old, at 0800 h, for assessment of basal ovarian StAR gene expression. Results indicated Pb decreased (p < 0.01) both StAR transcripts. In the second part of the study, pregnant mare serum gonadotropin (PMSG) was administered to half of the Pb-treated and control animals at 0800 h. These animals, and animals from both groups that did not receive PMSG, were killed and ovaries and blood collected at 1600 h to assess ovarian StAR protein and E2 responsiveness to gonadotropin stimulation. Pb decreased (p < 0.0001) basal StAR protein expression and lowered (p < 0.001) E2 levels in animals that did not receive PMSG. PMSG induced (p < 0.0001) StAR protein in both the Pb-treated and control animals, an action associated with increased (p < 0.001) serum levels of E2. These results are the first to show that Pb alters basal StAR synthesis, but does not alter gonadotropin-stimulated StAR synthesis, hence, suggesting the primary action of Pb to suppress E2 is through its known action to suppress the serum levels of luteinizing hormone and not due to decreased responsiveness of StAR synthesizing machinery.

Morphine conditioned place preference is attenuated by perinatal lead exposure.

The purpose of this investigation was to determine if perinatal lead exposure alters the conditioned reinforcing properties of morphine when offspring were tested as adults. Dams were gavaged daily with 0- (sodium acetate) or 16-mg lead (as lead acetate) for 30 days prior to breeding with nonexposed males. Administration continued through gestation and lactation and was discontinued at weaning (postnatal day [PND] 21). At PND 70 animals were tested in a conditioned place preference (CPP) preparation using 0.00, 0.60, 1.25, 2.50, or 5.00 mg/kg i.p. morphine as the unconditioned stimulus (US). Relative to controls, attenuation of CPP was evident in animals exposed to 16-mg lead at 1.25 and 2.50 mg/kg morphine. Analysis of blood lead concentration revealed that by the end of testing residue levels in metal-exposed animals had returned to control levels. However, data from littermates sacrificed well beyond the current testing period revealed that brain lead residues remained elevated in animals exposed to lead, even though the metal had gained clearance from blood. The present data suggest that early lead exposure may have an enduring impact on the reinforcing properties of morphine.

Lead-induced cell signaling cascades in GT1-7 cells.

The effects of lead on the signal transduction pathways that may be involved in the release of gonadotropin-releasing hormone (GnRH) from neurons in the hypothalamus have not been well defined. Using the GT1-7 cell line, an in vitro model for GnRH-secreting neurons, we examined signal transduction pathways directly affected by lead. We found that lead-induced phosphorylation of extracellular signal-regulated kinase 1 and 2 (ERK1 and ERK2), as well as p90RSK and cAMP response element-binding protein (CREB), but did not induce IkappaB degradation. MEK1/2 inhibitor (PD98059) suppressed lead-induced ERK and p90RSK activation. Neither PKC inhibitors (Go6983, Go6976) nor CaMKII inhibitor (KN-62) had a pronounced effect on lead-induced ERK1 and ERK2 phosphorylation. However, MEK1/2 inhibitor, CaMKII inhibitor, and PKC inhibitor significantly suppressed lead-induced CREB phosphorylation. These results indicate that lead-activated PKC, CaMKII and MEK/ERK/p90RSK pathways simultaneously, all of which contributed to CREB phosphorylation. Our results also indicate that lead-induced p90RSK and CREB activation does not alter expression of early response genes like c-fos. We conclude that lead activates PKC, CaMKII or MEK-ERK-p90RSK pathways in GT1-7 cells, leading to CREB phosphorylation and modulation of gene expression.

Perinatal lead exposure and relapse to drug-seeking behavior in the rat: a cocaine reinstatement study.

RATIONALE: Intravenous self-administration of cocaine at low doses is increased by chronic low-level exposure to lead during gestation and lactation (perinatal lead exposure). Insofar as drug potency is increased by early lead exposure, it must be considered that cocaine-seeking and relapse after periods of withdrawal similarly may be enhanced by perinatal lead exposure. OBJECTIVES: Employing an animal model, the present study examined the effects of lead exposure during gestation and lactation on cocaine-induced reinstatement of drug-seeking, when animals were tested as adults. METHODS: Adult female rats were gavaged once daily with 0 or 16 mg lead for 30 days prior to breeding with non-exposed males. This exposure regimen continued until offspring were weaned at postnatal day (PND) 21. At PND 120, male offspring were trained to self-administer cocaine intravenously (IV) [0.50 mg/kg cocaine per infusion on a fixed-ratio schedule where two lever presses resulted in drug delivery (FR-2 schedule)]. After steady-state responding was established, cocaine reinstatement responding was assessed for each group within an extinction paradigm. During the initial 1 h of reinstatement testing, the previous baseline contingencies were in place, i.e. animals operated under an FR-2 schedule for an infusion of 0.50 mg/kg cocaine. During the 2 h, 3 h, and 4 h of testing saline infusions were substituted for cocaine infusions. After responding extinguished during hour 4, reinstatement of responding was tested by administering an intraperitoneal (IP) priming injection of 0.00, 5.00, 10.00, or 20.00 mg/kg cocaine. Following these injections, lever responding for saline infusions was monitored during hour 5. RESULTS: The number of saline infusions self-administered during hour 5 increased in a dose-dependent fashion for both controls (group 0-mg) and lead-exposed (group 16-mg) animals. However, lead-exposed animals self-administered significantly more saline infusions than controls at the 5.00 mg/kg and 10.00 mg/kg doses. This apparent metal-related increase in sensitivity to cocaine was evident with blood lead in metal-exposed test animals returning to control levels. However, brain lead levels remained elevated in lead-exposed test animals, relative to controls. CONCLUSIONS: The results of this investigation suggest that low-level lead exposure during gestation and lactation increases sensitivity to the relapse phase of drug abuse. It is further apparent that this increased sensitivity to the reinstatement of drug-seeking behavior is long-lasting.

Effects of lead (Pb) exposure during gestation and lactation on female pubertal development in the rat.

Lead (Pb) can delay sexual maturation; however, the mechanism and critical time of insult are not clearly defined. Therefore, we assessed maternal Pb levels during low-level gestational and/or lactational exposure, as well as blood and tissue Pb in developing fetuses in relation to the subsequent detrimental effects of Pb on puberty-related hormones and the onset of female puberty. Adult Fisher 344 female rats were gavaged daily with either a 1-ml solution of PbAc containing 12 mg/ml Pb or an equal volume of sodium acetate (NaCl), for the controls, from 30 days prior to breeding until their pups were weaned at 21 days. By cross-fostering at the time of birth, the pups were either exposed to PbAc or NaAc during gestation only, lactation only, or during both gestation and lactation. Pb delayed the timing of puberty and this delay was associated with suppressed serum levels of insulin-like growth factor-1 (IGF-1), luteinizing hormone (LH), and estradiol (E(2)). Liver IGF-1 mRNA was not affected, suggesting that Pb altered translation and/or secretion of IGF-1. We reported previously that peripherally derived IGF-1 acts at the hypothalamic level to facilitate LH release at puberty; hence, we suggest that the action of Pb in decreasing circulating IGF-1 contributes to the delayed puberty. The detrimental effects occurred regardless of the developmental time of exposure, although gestational exposure appeared more sensitive to the effects of Pb. Also, the effects noted were with blood Pb levels less than previously reported and these levels are relevant to human health concerns.