Reproductive Experience and the Response of Female Sprague�CDawley Rats to Fear and Stress

The present work examines the relationship between reproductive experience (comprising breeding, parturition, and lactation) and the behavioral and hormonal processes of fear and stress in the female laboratory rat. Previous research has indicated that reproductive experience functions to decrease the female''s stress response in potentially harmful environments, thereby providing her with numerous survival benefits, including decreased fearfulness, increased aggression, and refined hunting skills. This study was designed to determine how nulliparous (no reproductive experience), primiparous (1 reproductive experience) and multiparous (at least 2 reproductive experiences) rats respond to a Pavlovian paradigm of learned fear, involving the pairing of a neutral stimulus (conditioned stimulus) with an aversive stimulus (unconditioned stimulus). We report evidence that reproductive experience is linked with fear-response and anxiety-like behaviors. Our findings indicate that reproductive experience has an additive effect: primiparous mothers showed a different response to the paradigm of conditioned fear not only compared with those of nulliparous rats as well as multiparous mothers. Assessing the complex interconnections among the behavioral and physiologic measures recorded in this study, multidimensional scaling confirmed a clear separation among the 3 groups of rats in terms of the behavioral and physiologic responses to the experimental paradigm, supporting the conclusion that reproductive experience influences the maternal mind.Stress, fear, and lack of adequate stimuli can constitute a serious problem for laboratory animals. Although several studies have investigated various social and environmental changes to improve the health of laboratory animals, the literature on husbandry regimen and reproductive experience is scarce.^{3,23,44,56,58} Pregnancy and lactation represent the quintessence of change in mammals.^13,38 Reproduction entails high physiologic costs, especially in small mammals like rodents, including increased energy and nutrient demands, making the connection between husbandry and health in laboratory rats even more compelling.⁴⁹ Extensive neuroendocrine and behavioral modifications ensure mothers the flexibility to meet their own survival needs with the survival of their offspring in most environmental contingencies.^30,46 The long-term effects of these changes on the somatic and psychologic development of infants are well-known and pervasive in most mammals: from immediate infant survival to the ability to cope with stress during adulthood.^5,7,22,26,43 Several studies have indicated that the long-term consequences on mothers themselves are as compelling. Although some authors have found a significant decrease in cell proliferation in the dentate gyrus of the hippocampus in primiparous and multiparous rats during the postpartum period, associated with temporary impaired learning skills,¹⁵ others have found that motherhood can improve spatial cognition, learning and memory,^9,27,33,42 through mechanisms based on increased glucocorticoid production.^31,41 The combination of improved behavioral performances and increased physiologic stress in mothers is hardly surprising considering that the sequence of modifications during pregnancy involves, as a cascade of events, the whole body and shapes the inherently plastic central nervous system to cope with the extra challenges of providing for offspring. At the pinnacle of its fruition, the maternal brain is responsible for a complex set of behaviors that mold mothers in every aspect of their life.^28,29 In this scenario, we expect that empirical examinations of laboratory female rats with differential reproductive experience would yield significant differences in both the fear and stress response of maternal and virgin rats. Because stress and fear can impair the health of research animals and, if not controlled for, confound results obtained in experimental data, it is important to evaluate how reproductive experience can modify both stress and fear responses. Previous studies have indicated that, when confronted with a stressful stimulus, maternal rats display fewer stress-related behaviors than do nonmaternal rats.^32,57One common method of examining the animal''s reaction to a threatening environment is to use a Pavlovian model of learned fear. The neural circuitry of learned fear, involving the association of a conditioned stimulus or context with an unconditioned stimulus, is of particular interest because learned fear processes involve multiple cognitive functions including predicting, representing, and defining relationships between events.⁴⁵ The literature discussing the neural correlates of learned fear is vast and, further, agrees that the amygdala is the central brain structure responsible for learned fear. In fact, bilateral damage to the amygdala seriously impairs Pavlovian fear conditioning.^8,53 Studies conducted in developing rats revealed that different nuclei of the amygdala process sensory information of different modalities, mediate unconditioned freezing behavior, and may be involved in developmental changes in the fear response in young rats.¹⁴ Research elucidating a relationship or lack thereof between reproductive experience and changes in fear response is limited presently.^19,55 Examinations of unconditioned fear and maternal experience have suggested that an attenuated stress response and an overall decrease in fearfulness provides numerous survival benefits, such as enhanced and increased hunting and gathering skills, exploration, social awareness, and aggression, to the female rat.^21,37,50,51 Because survivability is dependent upon the prediction and appropriate response to threatening stimuli, this research paradigm can provide pertinent information about the animal''s fitness, thus providing critical information on both the health of animals and the quality of experimental data.Pregnancy, lactation, and the complex behavioral repertoire comprising maternal care constitute an expensive metabolic and genetic investment that is pivotal to species survival.^11,52 Alterations of the female brain due to occurrences of several cycles of pup exposure are reflected in many aspects of maternal life, including fear responses, activation of the hypothalamic–pituitary–adrenal axis, and anxiety.¹⁰ In the present work, we assessed whether reproductive experience plays a specific role on fear response and how this response activates the hypothalamic–pituitary–adrenal axis and interacts with anxiety-related behaviors in rats. We also assessed whether these effects are additive, that is, whether multiparous mothers (2 or more pregnancies) have a different fear response than do primiparous mothers (only 1 pregnancy). On the basis of information provided by previous studies, we hypothesized that during the retention–testing trials of the conditioning model, maternal subjects (primiparous and multiparous groups) would express fewer fear-related (freezing) behaviors than would nonmaternal subjects (nulliparous group). We further hypothesized that the maternal groups would express anxiety-related behaviors less frequently than would the nonmaternal group during the retention–testing trials. In addition, we speculated that the nulliparous group would exhibit significantly higher activation of the hypothalamic–pituitary–adrenal axis than would the reproductive groups (primiparous and multiparous), as measured by corticosterone concentrations after the fear-conditioning training trials.     

Response to Dangl: Complex harmonies of the host–pathogen interaction

In the accompanying Research Focus article that summarises our recent research article [1], Jeffery Dangl likens the interplay of the intracellular pathogen Salmonella enterica serovar Typhimurium with the host resistance protein Nramp1 to the response of a congregation to the teachings of a preacher. In principle, this is a fair interpretation of what we believe to be occurring on the molecular level between host and pathogen within the limited scope of our experiments. However, as with most biological systems, we believe that this analogy might be too simplistic. As Dangl points out, Nramp1 ‘might have a multitude of messages that it sends to different vacuolar inhabitants’. This cannot exclude the fact that the effects of Nramp1 on any single pathogen are pleiotropic and that we focused solely on one aspect of Nramp1 function in our studies, that is, divalent cation limitation. Therefore, we suggest that the interplay between innate host defences and pathogens is far more complex than simple call-and-response. Instead, we propose that it is more like a musical round, where one instrument makes the initial statement of the tune followed by the response of a second instrument, building over successive entrances to a complex orchestral whole. As a case in point, we wish to draw the reader's attention to the complex influences of both Nramp1 and S. enterica Typhimurium on the generation of toxic oxygen and nitrogen intermediates by the host during infection.     

Hypothalamo–Pituitary System Controls the Development of Humoral Immune Response during Prenatal Ontogenesis in Rats

We studied the influence of the neuroendocrine system on the development of humoral immune response to sheep erythrocytes in rat fetuses. The removal of brain in utero by decapitation of 18-day fetuses induced a fourfold increase in the number of antibody-forming cells in the liver, as compared to the unoperated fetuses. After the removal of the forebrain, including hypothalamus (encephalectomy), the number of antibody-forming cells was comparable to that in unoperated fetuses. The observed increase in the number of antibody-forming cells in the liver was not due to a disturbed migration of precursors of B-lymphocytes in the spleen, since their content in the spleen was also four times that in the encephalectomized and unoperated fetuses. The increased number of antibody-forming cells in decapitated fetuses could be due to an enhanced proliferative activity of the lymphocytes in the liver of these fetuses. It has been proposed that humoral immunity is controlled by the hypothalamo–pituitary–adrenal system already during prenatal development; the adrenocorticotropic hormone and glucocorticoids appear to be involved in this regulation.     

Use of Fat-Fed Rats to Study the Metabolic and Vascular Sequelae of Obesity and ��-Adrenergic Antagonism

Obesity-associated cardiovascular disease exerts profound human and monetary costs, creating a mounting need for cost-effective and relevant in vivo models of the complex metabolic and vascular interrelationships of obesity. Obesity is associated with endothelial dysfunction and inflammation. Free fatty acids (FFA), generated partly through β-adrenergic receptor-mediated lipolysis, may impair endothelium-dependent vasodilation (EDV) by proinflammatory mechanisms. β-Adrenergic antagonists protect against cardiovascular events by mechanisms not fully defined. We hypothesized that β antagonists may exert beneficial effects, in part, by inhibiting lipolysis and reducing FFA. Further, we sought to evaluate the fat-fed rat as an in vivo model of obesity-induced inflammation and EDV. Control and fat-fed rats were given vehicle or β antagonist for 28 d. Serum FFA were measured to determine the association to serum IL6, TNFα, and C-reactive protein and to femoral artery EDV. Compared with controls, fat-fed rats weighed more and had higher FFA, triglyceride, leptin, and insulin levels. Unexpectedly, in control and fat-fed rats, β antagonism increased FFA, yet inflammatory cytokines were reduced and EDV was preserved. Therefore, reduction of FFA is unlikely to be the mechanism by which β antagonists protect the endothelium. These results reflect the need for validation of ex vivo models of obesity-induced inflammation and endothelial dysfunction, concurrent with careful control of dietary fat composition and treatment duration.Abbreviations: CRP, C-reactive protein; EDV, endothelium-dependent vasodilation; FFA, free fatty acids; FTI, flow–time integral; L-NAME, N_ω-nitro-L-arginine methyl ester; MAP, mean arterial pressure; PKA, protein kinase AThe prevalence of overweight and obese adults in the United States has increased by almost 20% over the last 3 decades.³⁶ Similar upward trends have been observed in persons between 6 and 19 y of age.³⁷ The obesity epidemic extracts a monetary cost of more than $92 billion on medical care alone⁵⁶ and a profound human price in the form of increased disease³⁵ and higher death rates.⁵⁰Obese adults have a higher risk of morbidity and mortality due to cardiovascular disease.⁵⁷ In health, endothelial cells that line the luminal surface of blood vessels release mediators that facilitate the appropriate regulation of multiple processes, including vascular permeability, inflammation and cell adhesion, coagulation, maintenance of intercellular matrix, lipid metabolism, and vascular reactivity.^25,42 Dysregulation of these processes favors inflammation, coagulation, and vasoconstriction. Not surprisingly, endothelial dysfunction as measured by impairment of endothelium-dependent vasodilation (EDV) is an early and reliable predictor of cardiovascular events in humans.^43,47Obese persons have increased serum free fatty acids (FFA).¹ Obesity^14,53 and FFA¹³ are associated with increased circulating inflammatory markers, specifically IL6, TNFα, and C-reactive protein (CRP). In addition, both obesity³² and FFA^8,46 are associated with impaired EDV, and FFA exert direct adverse inflammatory effects on the endothelium.¹⁸Partly in response to stimulation of β-adrenergic receptors, FFA are the principle moiety secreted from adipocytes. β-Adrenergic antagonist drugs reduce morbidity and mortality in patients with coronary artery disease^9,26 and affect both the myocardium^2,38 and vasculature.^5,51,55 The mechanisms by which β-adrenergic antagonists exert protection remain unclear, but reduced generation of FFA might play a role.The first aim of the present study was to determine whether β antagonism lowers serum FFA in fat-fed rats and whether the magnitude and direction of change in FFA is correlated with circulating inflammatory markers and EDV. The β₁- and β₃-receptor subtypes predominantly mediate lipolysis in rodent adipose;^12,30 however, to minimize the potential for compensatory upregulation of unopposed receptors in this study, the β₁β₂ antagonist propranolol was combined with the β₃ antagonist SR59230A (Sigma-Aldrich, St Louis, MO) to exert antagonism at all 3 receptor subtypes. To test whether the high-fat dietary treatment was associated with a metabolic milieu consistent with obesity, serum triglycerides, leptin, glucose, and insulin concentrations were measured.An inexpensive, valid, and physiologically relevant in vivo system would be valuable for studying the pandemic of obesity³¹ and related endothelial dysfunction.¹⁷ We are unaware of studies of whether long-term high-fat feeding affects in vivo EDV in the rat, although a study validating the use of high-resolution ultrasonography to measure in vivo flow-mediated vasodilation in normal rats was published recently.¹⁷ The second aim of our study was to investigate the fat-fed rat as a model of human diet-induced endothelial dysfunction. To retain the complex metabolic-vascular interplay that occurs in the intact organism, we used in vivo measures of EDV to assess the integrated physiologic response. In humans, the dilator response of peripheral vessels is associated with coronary EDV response.⁴⁸ We studied the rat femoral artery, with the aim of demonstrating changes in vasodilator responses in this easily isolated peripheral vascular bed.     

Study of Uridine Effect on the Development of Audiogenic Tonic Seizures in Krushinsky–Molodkina Strain Rats

The latency of tonic seizure in response to loud sound (in rats of the Krushinsky–Molodkina strain with audiogenic epilepsy) had been slightly (although statistically significantly) longer after chronic uridine injections (100 mg/kg, i.p., three times a day during 9 or 12 days). The recovery time from the tonic seizure was shorter after 12 days of injections in comparison to the 9-day injection period. At the same time, the intensity of tonic seizures provoked by loud sound did not change after chronic uridine injections. The lack of uridine anticonvulsive effect demonstrated in the audiogenic epilepsy model contradicts the anticonvulsant effects of uridine in experiments with other seizure models, in which the epileptic foci were localized in the forebrain structures.     

Combination of ‘omics’ data to investigate the mechanism(s) of hydrazine-induced hepatotoxicity in Rats and to identify potential biomarkers

To gain novel insight into the molecular mechanisms underlying hydrazine-induced hepatotoxicity, mRNAs, proteins and endogenous metabolites were identified that were altered in rats treated with hydrazine compared with untreated controls. These changes were resolved in a combined genomics, proteomics and metabonomics study. Sprague–Dawley rats were assigned to three treatment groups with 10 animals per group and given a single oral dose of vehicle, 30 or 90 mg?kg^?1 hydrazine, respectively. RNA was extracted from rat liver 48 h post-dosing and transcribed into cDNA. The abundance of mRNA was investigated on cDNA microarrays containing 699 rat-specific genes involved in toxic responses. In addition, proteins from rat liver samples (48 and 120/168 h post-dosing) were resolved by two-dimensional differential gel electrophoresis and proteins with changed expression levels after hydrazine treatment were identified by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry peptide mass fingerprinting. To elucidate how regulation was reflected in biochemical pathways, endogenous metabolites were measured in serum samples collected 48 h post-dosing by 600-MHz ¹H-NMR. In summary, a single dose of hydrazine caused gene, protein and metabolite changes, which can be related to glucose metabolism, lipid metabolism and oxidative stress. These findings support known effects of hydrazine toxicity and provide potential new biomarkers of hydrazine-induced toxicity.     

Study on Embryo-Fetal Development to Artesunate in Rats

The present study was conductedtoinvestigate the potential embryo-fetal toxicity of Artesunate,an antimalarial drug,inSprague-Dawleyrats.Thetestitemwas orallyadministered bygavageto pregnant rats(22females per group)fromgesta-tional day(GD)6through15at doselevels of0,2,4and8mg/kg,All dams were subjectedtocaesareansectionon GD20andtheir fetuses were examined for external,visceral,and skeletal abnormalities.There were no treatment-relatedclinical signs,body weights andfood consumptionin any o…     

Application of the Miles Assay to Study Microvascular Permeability in Ischemia–Reperfusion Injury of the Small Intestine

Biophysics - Abstract—The Miles assay using Evans Blue dye is a conventional method to assess vascular permeability. The penetration Evans dye into intestinal tissue was studied in the early...     

Features of the Response of Long-Term Cultured Adipose Tissue–Derived Mesenchymal Stem Cells to γ-Irradiation

Biology Bulletin - Tissue regeneration following radiotherapy occurs due to the survival and regenerative abilities of tissue stem cells and resident or invading mesenchymal stem cells (MSCs), and...     

Effects of Cadmium Chloride and Sodium Selenite Alone or in Combination on the Liver of Male Sprague–Dawley Rats Assessed by Different Assays

This study assessed the impact of either cadmium chloride (Cd) or sodium selenite (Se) alone or in combination on male Sprague–Dawley rats. For this purpose, body and liver weights, comet and TUNEL assays, histological analysis and levels of lipid peroxidation and antioxidants in liver were determined in four groups of male Sprague–Dawley rats. The rats were given subcutaneous doses of 1 mg/kg body weight (BW) of either normal saline (control = Ct) or Cd or Se or Cd plus Se (Cd + Se) on alternate days for 4 weeks. The Cd group showed increased DNA damage, apoptosis and hepatic levels of lipid peroxidation and altered histology. Conversely, the antioxidant levels in this group were decreased as compared with the control group. The Se group also showed DNA damage, apoptosis and altered histology and reduced catalase activity, but it was less severe than the Cd group. In the Cd + Se group, ameliorating effects of Se on Cd-induced changes were observed. While the Se was able to curtail the toxic effect of Cd, the Cd or Se alone were genotoxic and cytotoxic for rats receiving a high pharmacological but non-fatal dose of 1 mg/kg BW.     

Statistical Comparison of Carcinogenic Effects and Dose–Response Relationships in Rats and Mice for 2,4-Toluene Diamine to those Ascribed to Toluene Diisocyanate

The U.S. National Toxicology Program (NTP) conducted 2-year bioassays of commercial grade toluene diisocyanate (TDI) (80% 2,4-TDI and 20% 2,6-TDI) and 2,4-toluene diamine (TDA) and concluded that both were carcinogenic in rodents. In the TDI study, there was an unproven but likely formation of TDA either because of flawed test-substance handling and storage conditions and/or the atypical exposure conditions employed. Although the carcinogenic responses in both studies were qualitatively similar, several statistical analyses were performed to substantiate this possibility more rigorously. Seven different statistical approaches combine to yield a robust and consistent conclusion that, if only a small fraction (approximately 5%) of the dose of TDI were hydrolyzed to TDA in the TDI study, then that would be sufficient to explain the observed carcinogenic responses in the TDI study.     

Unique 31P Spectral Response to the Formation of a Specific Restriction Enzyme–DNA Complex

Protein-induced distortion is a dramatic but not universally observed feature of sequence-specific DNA interactions. This is illustrated by the crystal structures of restriction enzyme–DNA complexes: While some of these structures exhibit DNA distortion, others do not. Among the latter is PvuII endonuclease, a small enzyme that is also amenable to NMR spectroscopic studies. Here ³¹P NMR spectroscopy is applied to demonstrate the unique spectral response of DNA to sequence-specific protein interactions. The ³¹P NMR spectrum of a noncognate DNA exhibits only spectral broadening upon the addition of enzyme. However, when enzyme is added to target DNA, a number of ³¹P resonances shift dramatically. The magnitudes of the chemical shifts (2–3 ppm) are among the largest observed. Site-specific substitution with phosphoramidates and phosphorothioates are used analyze these effects. While such spectral features have been interpreted as indicative of DNA backbone distortions, FRET analysis indicates that this does not occur in PvuII-cognate DNA complexes in solution. The distinct ³¹P spectral signature observed for cognate DNA mirrors that observed for the enzyme, underscoring the unique features of cognate complex formation.     

Slimmer or Fertile? Pharmacological Mechanisms Involved in Reduced Sperm Quality and Fertility in Rats Exposed to the Anorexigen Sibutramine

Sperm acquire motility and fertility capacity during epididymal transit, under the control of androgens and sympathetic innervations. It is already known that the acceleration of epididymal sperm transit time can lead to lower sperm quality. In a previous work we showed that rats exposed to the anorexigen sibutramine, a non-selective serotonin-norepinephrine reuptake inhibitor, presented faster sperm transit time, lower epididymal sperm reserves and potentiation of the tension of epididymal duct to norepinephrine exposed acutely in vitro to sibutramine. In the present work we aimed to further investigate pharmacological mechanisms involved in these alterations and the impact on rat sperm quality. For this, adult male Wistar rats were treated with sibutramine (10 mg/kg/day) or vehicle for 30 days. Sibutramine decreased final body, seminal vesicle, ventral prostate and epididymal weights, as well as sperm transit time in the epididymal cauda. On the contrary of the in vitro pharmacological assays, in which sibutramine was added directly to the bath containing strips of distal epididymal cauda, the ductal tension was not altered after in vivo sub-chronic exposure to sibutramine. However, there is pharmacological evidence that the endogenous epididymal norepinephrine reserves were reduced in these animals. It was also shown that the decrease in prostate weight can be related to increased tension developed of the gland, due to sibutramine sympathomimetic effects. In addition, our results showed reduced sperm quality after in utero artificial insemination, a more sensitive procedure to assess fertility in rodents. The epididymal norepinephrine depletion exerted by sibutramine, associated with decreases in sperm transit time, quantity and quality, leading to reduced fertility in this experimental model, reinforces the concerns about the possible impact on fertility of man taking sibutramine as well as other non-selective serotonin-norepinephrine reuptake inhibitors, especially considering the lower reproductive efficiency of humans compared to males of other species.     

Combination of bioimprinting and silane precursor alkyls improved the activity of sol–gel-encapsulated lipase

Bioimprinting and sol–gel encapsulation of lipases by silane precursors are efficient methods of enhancing lipase performance in non-aqueous medium. The correlation between bioimprinting, the alkyl-chain length of silane precursors, and the catalytic activity of gel-encapsulated lipase was investigated using a series of silane precursors: methyltrimethoxysilane (MTMS), vinyltrimethoxysilane (VTMOS), vinyltriethoxysilane (VTEOS), and n-octyltrimethoxysilane (OTMOS). The optimal parameters for lipase immobilization were also determined. Both bioimprinting and increasing the chain-length of alkyl groups, apparently by increasing hydrophobicity, significantly improved the specific activity and the total activity of the immobilized lipase. Compared to a non-imprinted MTMS/TMOS gel, the specific activity of an imprinted OTMOS/TMOS gel improved 14.4-fold, and the total activity improved 6.8-fold. Nitrogen adsorption–desorption assays and gel matrix surface characterization showed that the bioimprinting molecule and the hydrophobic alkyl groups of silane triggered lipase to change from the closed to the open conformation, and contributed to creating sol–gel matrices that were more porous and with less mass transfer resistance structure, apparently improving the activity of encapsulated lipase.     

A Structure–Function Study of a Catalytic Antiidiotypic Antibody to the Human Erythrocyte Acetyl Cholinesterase

The catalytic monoclonal antibody 9A8 (MA 9A8), antiidiotypic to the antibody AE-2 (MA AE2) produced to the active site of acetyl cholinesterase from human erythrocytes, was subjected to a structure–function study. The specific binding of MA 9A8 to MA AE2 (K 2.26 × 10⁹ M^–1) was found by the method of surface plasmon resonance, and the functional activity of MA 9A8 was demonstrated. Unlike acetyl cholinesterase, this antibody specifically reacted with the irreversible phosphonate inhibitors of esterases. A peptide map of MA 9A8 was analyzed by MALDI mass spectrometry. The Ser99 residue of its heavy chain was shown to be within the active site of the catalytic antibody. A computer modeling of the MA 9A8 active site suggested the existence of a catalytic dyad formed by Ser99 and His35. A comparison of the tertiary structures of the MA 9A8 and the 17E8 monoclonal antibody, which also exhibited the esterase activity and was produced to the stable analogue of the reaction transition state, indicated a practically complete coincidence of the structures of their presumed active sites.     

Ischemia–Reperfusion Injury of Sciatic Nerve in Rats: Protective Role of Combination of Vitamin C with E and Tissue Plasminogen Activator

An ischemia/reperfusion injury of rat’s sciatic nerve was experimentally developed. In this model, we measured the in vivo production of superoxide radical, as a marker of oxidative stress and the occludin expression as an indicator of blood-nerve barrier function and we examined potential protective innervations against these abnormalities. Right sciatic nerves of the animals underwent 3 h of ischemia followed by 7 days of reperfusion and were divided into three groups: ischemic, pretreated with vitamin C in conjunction with vitamin E and treated with tissue plasminogen activator. Compared to measurements from left sciatic nerves used as sham, the ischemic group showed significantly increased superoxide radical and reduced expression of occludin in western blot and immunohistochemistry. No such differences were detected between sham and nerves in the vitamin or tissue plasminogen activator groups. It is suggested that the experimental ischemia/reperfusion model was suitable for studying the relationship between oxidative state and blood-nerve barrier. The reversion of abnormalities by the applied neuroprotective agents might prove to be a clinically important finding in view of the implication of vascular supply derangement in various neuropathies in humans.