Lewis and Fischer 344 strain differences in alpha2-adrenoceptors and tyrosine hydroxylase expression.

Lewis and Fischer 344 (F344) rats differ in their pharmacological responses to a variety of drugs such as opioids, which has been partially attributed to differences in the endogenous opioid tone. Since opioid and alpha2-adrenergic mechanisms closely interact in nociception and substance abuse, a comparative study of the endogenous alpha2-adrenergic system in both inbred strains is of interest. Alpha-2 adrenoceptor subtypes and tyrosine hydroxylase, the rate-limiting enzyme of the catecholamine biosynthesis, were studied by Taqman RT-PCR analysis of gene expression in four brain areas of F344 and Lewis rats: hypothalamus, hippocampus, striatum and cortex. No differences were found in the mRNA levels of alpha2A- and alpha2C-adrenoceptors in any of the areas examined, however F344 rats exhibited lower levels of alpha2B-adrenoceptor transcripts in the hippocampus and higher levels in the hypothalamus. Tyrosine hydroxylase gene expression was found to be higher in hippocampus and striatum of F344 rats compared to Lewis, and a consistent 2-fold increase of the protein levels was detected by Western blots only in the case of the hippocampus. These results together with previous studies strongly suggest that the hippocampal noradrenergic activity of Lewis and F344 rats could be involved in their different responses to pain, stress and drug addiction.

Estradiol valerate and alcohol intake: a comparison between Wistar and Lewis rats and the putative role of endorphins.

Studies show that estrogens can influence alcohol consumption; however, findings are variable and an etiology remains unknown. Furthermore, estrogen administration can alter several neurotransmitter systems implicated in alcohol consumption, including the beta-endorphin (beta-EP) system. The present studies investigate (a) whether estradiol valerate (EV) alters voluntary alcohol consumption in Wistar and Lewis rats, (b) if an effect of EV on drinking is associated with changes in hypothalamic or pituitary beta-EP content, and (c) whether differences in alcohol drinking between treatment and rat groups are related to locomotor or defensive behavior/anxiety scores. Of 30 Wistar and 30 Lewis rats used in this study, half were injected with 2 mg EV in 0.2 ml sesame oil, while the remainder were injected with the vehicle only. After 8 weeks, all animals were tested in the open field and elevated plus maze. A week later, 4-6 animals in each group were sacrificed. The remaining animals were tested for voluntary alcohol drinking for 24 days prior to being sacrificed on the last day. Radioimmunoassay was used to estimate hypothalamic and pituitary beta-EP content. Wistar and Lewis rats injected with EV showed an increase in alcohol drinking, but their behavior scores and beta-EP levels remained unaltered. This result suggests that any EV effect on drinking is unrelated to changes in beta-EP or behavioral performance. Furthermore, Wistar rats show higher alcohol drinking, locomotor and defensive behavior scores, and hypothalamic beta-EP than Lewis rats. Higher alcohol drinking by Wistar rats might be due to higher behavioral scores or endogenous opioid activity/sensitivity.

Endotoxin decreases serum IGFBP-3 and liver IGFBP-3 mRNA: comparison between Lewis and Wistar rats.

We studied the IGFBP-3 response to endotoxin, in Wistar and Lewis rats. Compared to Wistar rats, Lewis rats have a reduced adrenal and IGF-I response to inflammatory stimuli. Rats received two injections of 1 mg/kg of lipopolysaccharide (LPS) and were killed 4 h after the second injection. LPS decreased serum concentrations of GH in Wistar (P<0.05), but not in Lewis rats. However, serum IGFBP-3 was decreased both in Wistar and in Lewis rats. Furthermore, LPS administration decreased IGFBP-3 gene expression in the liver in both rat strains (P<0.01). Lewis rats had lower serum IGFBP-3 than Wistar rats (P<0.01). This difference could be secondary to the increased IGFBP-3 proteolysis in serum observed in Lewis rats. These data indicate that acute inflammation inhibits serum concentrations of IGFBP-3 by decreasing its synthesis in the liver, rather than increasing its proteolysis. This effect seems to be GH and IGF-I independent.

Lipopolysaccharide-induced oestrogen receptor regulation in the paraventricular hypothalamic nucleus of lewis and Fischer rats.

Oestrogen receptor (ER) regulation of gene transcription in neurosecretory and pituitary cells has been proposed as an important mechanism for increased hypothalamic-pituitary-adrenal (HPA) axis responses in females of several mammalian species, including humans. Inbred female Fischer (F344/N) and Lewis (LEW/N) rats have similar oestrogen levels, although Fischer rats exhibit hyper- and Lewis rats hypo-HPA axis responses. The blunted HPA axis response of Lewis rats has been associated with their blunted hypothalamic corticotropin releasing hormone (CRH) expression. To determine if the female CRH expression deficiency in Lewis rats is associated with defective ER expression and regulation, hypothalamic paraventricular nucleus (PVN) transcript levels of CRH and ER were determined under basal conditions and after immune challenge. Microdissected PVN were obtained from control and lipopolysaccharide (LPS) treated Lewis and Fischer rats and CRH, ERalpha and beta mRNA levels were determined by semiquantitative reverse-transcriptase-polymerase chain reaction. In addition, ERalpha and beta protein levels were determined by semiquantitative Western blots. ERalpha and beta mRNA and protein levels in the PVN of control Fischer rats were significantly higher than in control Lewis rats. ERalpha and beta mRNA and protein levels in Fischer rats were reduced by LPS administration at the time of maximal CRH mRNA levels but did not change in Lewis rats, an effect independent of oestrogen levels. These data indicate that defective neuroendocrine HPA axis responses are associated with defective ER expression and regulation in Lewis PVN despite oestrogen concentrations.

The distribution of cannabinoid-induced Fos expression in rat brain: differences between the Lewis and Wistar strain.

Previous studies have suggested that cannabis-like drugs produce mainly aversive and anxiogenic effects in Wistar strain rats, but rewarding effects in Lewis strain rats. In the present study we compared Fos expression, body temperature effects and behavioral effects elicited by the cannabinoid CB(1) receptor agonist CP 55,940 in Lewis and Wistar rats. Both a moderate (50 microg/kg) and a high (250 microg/kg) dose level were used. The 250 microg/kg dose caused locomotor suppression, hypothermia and catalepsy in both strains, but with a significantly greater effect in Wistar rats. The 50 microg/kg dose provoked moderate hypothermia and locomotor suppression but in Wistar rats only. CP 55,940 caused significant Fos immunoreactivity in 24 out of 33 brain regions examined. The most dense expression was seen in the paraventricular nucleus of the hypothalamus, the islands of Calleja, the lateral septum (ventral), the central nucleus of the amygdala, the bed nucleus of the stria terminalis (lateral division) and the ventrolateral periaqueductal gray. Despite having a similar distribution of CP 55,940-induced Fos expression, Lewis rats showed less overall Fos expression than Wistars in nearly every brain region counted. This held equally true for anxiety-related brain structures (e.g. central nucleus of the amygdala, periaqueductal gray and the paraventricular nucleus of the hypothalamus) and reward-related sites (nucleus accumbens and pedunculopontine tegmental nucleus). In a further experiment, Wistar rats and Lewis rats did not differ in the amount of Fos immunoreactivity produced by cocaine (15 mg/kg). These results indicate that Lewis rats are less sensitive to the behavioral, physiological and neural effects of cannabinoids. The exact mechanism underlying this subsensitivity requires further investigation.

Differences in nicotine-induced dopamine release and nicotine pharmacokinetics between Lewis and Fischer 344 rats.

Studies have shown a greater preference for the self-administration of drugs such as nicotine and cocaine in the Lewis rat strain than in the Fischer 344 strain. We examined some factors that could contribute to such a difference. The baseline level of extracellular dopamine in nucleus accumbens shell was about 3-times higher in Fischer rats than in Lewis rats (3.18 +/- 0.26 vs. 1.09 +/- 0.14 pg/ sample). Nicotine (50-100 microg/kg)-induced release of dopamine, expressed in absolute terms, was similar in the two strains. Dopamine release expressed in relative terms (as percent of baseline), however, was significantly greater in Lewis rats than in Fischer rats at 30 min after the first nicotine injection. We suggest that the relative increase is of more influence than the absolute level for determining preference; a lower physiological extracellular dopamine level thus represent a risk factor for increased preference. Amphetamine-induced dopamine release expressed in relative terms was not greater in the Lewis strain. In the initial time period of the microdialysis experiments, a sharper peak in nicotine-induced accumbal dopamine release in Lewis and a less but more sustained release in Fischer rats was observed. This release pattern paralleled the faster clearance of nicotine from blood of Lewis compared to Fischer rats. In tissue slices the electrically induced dopamine release was highest in the nucleus accumbens and lowest in the ventral tegmentum. A significant effect of nicotine was lowering the electrically induced release of dopamine in frontal cortex slices from Fischer brain and increasing this dopamine release in the ventral tegmentum of Lewis brain slices indicating that the ventral tegmentum, an area controlling dopamine release in the accumbens, is more responsive to nicotine in the Lewis rat. Nicotine levels tended to be more sustained in Fischer rats in different brain regions, although the difference in nicotine levels between the strains was not significant at any time period. Several factors contribute to nicotine preference, including the endogenous dopamine level, and the sensitivity of ventral tegmentum neurons to nicotine-induced dopamine release. Strain differences in pharmacokinetics of nicotine may also play a role.

Differential Fos expression in the paraventricular nucleus of the hypothalamus, sacral parasympathetic nucleus and colonic motor response to water avoidance stress in Fischer and Lewis rats.

The responsiveness of hypothalamic CRF to various stressors is reduced in the young female Lewis relative to the histocompatible Fischer rat. Whether such a difference impacts the brain-gut response to water avoidance stress was investigated by monitoring Fos immunoreactivity in the brain and sacral spinal cord and fecal pellet output. Exposure for 60 min to water avoidance stress increased the number of Fos positive cells in the paraventricular nucleus of the hypothalamus (PVN), nucleus tractus solitarius (NTS), and the parasympathetic nucleus of the lumbo-sacral spinal cord (L6-S1) in both Lewis and Fischer rats compared with non stress groups. The Fos response was lower by 32.0% in the PVN, and 63% in sacral parasympathetic nucleus in Lewis compared with Fischer rats while similar Fos expression was observed in the NTS. Stress-induced defecation was reduced by 52% in Lewis compared with Fischer rats while colonic motor response to CRF injected intracisternally resulted in a similar pattern and magnitude of defecation in both strains. The CRF receptor antagonist [D-Phe12,Nle(21,38)C(a)MeLeu(37)]-CRF(12-41) injected intracisternally antagonized partly the defecation response in Lewis and Fischer rats. These data indicate that a lower activation of PVN and sacral parasympathetic nuclei in Lewis compared with Fisher rats may contribute to the differential colonic motor response and that the blunted CRF hypothalamic response to stress, unlike responsiveness to central CRF plays a role.

Sirolimus (rapamycin, Rapamune) and combination therapy with cyclosporin A in the rat developing adjuvant arthritis model: correlation with blood levels and the effects of different oral formulations.

OBJECTIVE AND DESIGN: To determine whole blood levels of sirolimus, a macrolide antibiotic in the rat developing adjuvant arthritis (AA) model after dosing orally with two different vehicles, and whether combinational doses of sirolimus and cyclosporin A (CsA) produced additive or synergistic inhibitory effects in this model. MATERIAL: Male Lewis rats (150-180g). TREATMENT: Arthritis was induced by the injection (0.5 mg/ rat) of heat-killed Mycobacterium butyricum suspended in light mineral oil. Drugs were administered orally either in fine suspension (0.5% Tween 80) or in emulsion (phosal 50 PG in 1% Tween 80) at doses of 0.1 to 5 mg/kg in a 7 day, MWF or daily regimen. METHOD: Paw volumes (ml) were measured by automated mercury plethysmograph and sirolimus concentrations in whole blood were quantitated by liquid chromatography/ mass spectroscopy. RESULTS: At 72h (7 days after adjuvant) after receiving the third oral dose (4.5 mg/kg p.o.), the phosal vehicle resulted in higher sirolimus blood levels (2.5 ng/ml) than in Tween 80 (1.6 ng/ml). After the rats received the last oral dose on day 14, (7 total doses of sirolimus at 4.5 mg/kg) the sirolimus blood levels (2h after the last dose) were about 2 times higher for the phosal dosed rats (9.8 ng/ml) compared to Tween 80 dosed rats (4.6ng/ml). Even 24h after the last dose, sirolimus blood levels were still elevated in the phosal dosed rats (0.8 ng/ml) relative to 0.5% Tween 80 dosed rats (0.5 ng/ml). At day 16 in the rat developing model, sirolimus, when given in phosal vehicle, produced an ED50 of 0.28 mg/ kg (i.e. inhibition of uninjected paw edema) that was about 5.5 times lower than using 0.5% Tween 80 as the suspending agent (ED50 = 1.6mg/kg). When combining sirolimus and CsA using precalculated doses for producing an additive effect in this adjuvant model, an additive inhibitory effect on uninjected paw edema was observed at equal combinational doses of 0.5 and 2 mg/kg, respectively. CONCLUSIONS: The phosal vehicle used in administering sirolimus increases the absorption and whole blood levels in the rat and the elevated blood levels correlated positively with the therapeutic effect in the rat developing AA model. In addition, combination therapy using sirolimus and CsA produced an additive effect in rat developing AA.

Genetic analysis of behavioral, neuroendocrine, and biochemical parameters in inbred rodents: initial studies in Lewis and Fischer 344 rats and in A/J and C57BL/6J mice.

Previous work has identified inherent behavioral, neuroendocrine, and biochemical differences among inbred rodent strains that have been related to the animals' differential responsiveness to drugs of abuse or stress. In the present study, we sought to determine (1) whether there are genetic correlations among particular phenotypic traits that differ between a pair of inbred rat strains (Lewis and Fischer 344) or a pair of inbred mouse strains (A/J and C57BL/6J); (2) which of these traits might be amenable to quantitative trait locus analysis; and (3) whether additional behavioral or biochemical differences relevant to drug- or stress-responsiveness could be identified in these strains. Specifically, we measured several behavioral, neuroendocrine, and biochemical traits in parental Lewis and Fischer 344 rats and in 298 members of an F2 intercross population, as well as in parental A/J and C57BL/6J mice and in 11 of the AXB/BXA recombinant inbred mouse strains. Traits measured included exploratory locomotor activity in a novel environment; amphetamine-induced locomotor activity; several specific protein levels in striatal regions, including inhibitory G protein subunits, the dopamine transporter, the Fos family member transcription factor DeltaFosB, and the protein phosphatase inhibitor DARPP-32; and late-afternoon plasma corticosterone concentrations. Each of the traits measured in F2 rats or recombinant inbred mice appears to be influenced by multiple genes, as well as by environmental factors. There were statistically significant, albeit relatively weak, correlations among several traits in an F2 intercross population bred from Lewis and Fischer rats. Among the traits studied in Lewis and Fischer rats, one seemed most amenable to quantitative trait locus analysis: the level of the inhibitory G-protein subunit, Galphai, in the nucleus accumbens. We also found a robust genetic correlation between levels of DeltaFosB and levels of the dopamine transporter in striatal regions in AXB/BXA recombinant inbred mouse strains. While these studies demonstrate the likely complexity of the genetic factors that influence the numerous phenotypes associated with altered responsiveness to drugs of abuse and stress, they represent an initial and necessary step toward identifying specific genetic factors involved.

The species-specific structure of microanatomical compartments in the human spleen: strongly sialoadhesin-positive macrophages occur in the perifollicular zone, but not in the marginal zone.

The microanatomical structure of human and rat splenic white pulp is compared, with special emphasis on the localization of the marginal zone occupied by immunoglobulin M (IgM)+ IgD-/dull B lymphocytes and its specialized macrophages. Our study reveals that in contrast to rats, the marginal zone of humans primarily exists in the vicinity of primary and secondary splenic follicles and that it is almost absent around the periarteriolar T-cell zones. We demonstrate that in humans there is an additional compartment, the perifollicular zone, located between the marginal zone and the red pulp. The perifollicular zone is a dynamic region of variable cellular and phenotypic composition, which can be regarded either as a part of the red pulp or of the follicles. In most cases the perifollicular zone appears as a compartment of the red pulp containing erythrocyte-filled spaces which differ from the typical red pulp sinusoids. Similar to the splenic cords, the perifollicular zone mostly harbours scattered B and T lymphocytes. However, sometimes B lymphocytes clearly predominate in the perifollicular area. In addition, strongly sialoadhesin-positive macrophages form sheaths around capillaries in the perifollicular zone. Such capillary sheaths are not observed in rats. In humans weakly sialoadhesin-positive macrophages are also present in the perifollicular zone and in the red pulp. In some specimens sialoadhesin is, however, strongly expressed by a large number of dispersed perifollicular macrophages. Interestingly, in striking contrast to rats, the human marginal zone does not contain sialoadhesin-positive macrophages and marginal metallophilic macrophages are also absent in humans. Thus, sialoadhesin-positive macrophages and IgM+ IgD- memory B lymphocytes both share the marginal zone as a common compartment in rats, while they occupy different compartments in humans. We show that the human splenic marginal zone does not contain a marginal sinus and assume that in humans the perifollicular region is the compartment where antigen and recirculating lymphocytes enter the organ.

Comparative studies on tryptophan binding to hepatic nuclear envelopes in Sprague-Dawley and Lewis rats.

Since Lewis rats are susceptible to many inflammatory diseases and have been used in an experimental model of the eosinophilia-myalgia syndrome, we investigated whether Lewis rats would respond to L-tryptophan as have Sprague-Dawley rats reported earlier. In this comparative study using females of both strains, we observed a decrease in the affinity of in vitro L-tryptophan binding to hepatic nuclei and nuclear envelopes of Lewis rats compared with Sprague-Dawley rats. However, in vivo stimulatory effects of administering L-tryptophan on hepatic polyribosomal aggregation, protein synthesis, and nuclear RNA release were similar in both strains. In vitro [3H]tryptophan binding to hepatic nuclear envelopes, using L-tryptophan implicated in cases of the eosinophilia-myalgia syndrome, revealed less specific binding than when using nonimplicated L-tryptophan in both strains. The possible significance of the quantitative difference in the binding affinity of L-tryptophan to hepatic nuclei of Lewis rats compared with those of Sprague-Dawley rats is as yet undetermined.

Expression of JUN, KROX, and CREB transcription factors in goldfish and rat retinal ganglion cells following optic nerve lesion is related to axonal sprouting.

Goldfish and rat optic nerves were cut and crushed, respectively, and the expression of the transcription factor proteins c-JUN, JUN B, JUN D, c-FOS, FOS B, KROX-24, and CREB was investigated in retinal ganglion cells (RGCs) by immunocytochemistry. Immunoreactivities (IRs) were followed up to 350 days in the goldfish and up to 22 days in the rat. In RGCs of untreated goldfish and rats, all JUN, FOS, and KROX proteins were absent whereas CREB was constitutively expressed. After optic nerve cut in goldfish, a JUN-like immunoreactivity (JUN-IR) appeared in a small number of RGCs of central retina after 24 h, reached a maximum within 5 days, declined after 30 days, and was on a half-maximal level after 50 days. Between 100 and 200 days, JUN-IR was only visible in a few RGCs and was completely absent after 350 days. Specific antibodies against c-JUN, JUN B, and JUN D gave no distinct immunoreactive signal. Thus, we could not determine which member of the JUN family contributed to the JUN-IR. The expression of CREB declined after 5 days. The number of CREB-labeled RGCs was reduced (not significant) and the intensity of labeling faded out. After 50 days, CREB-IR had returned to basal level. c-FOS, FOS B, and KROX-24 could not be detected in goldfish RGCs following optic nerve cut. After optic nerve crush in the rat, c-JUN, JUN D, and KROX-24 appeared in a substantial number of RGCs after 24 h, had a maximal expression after 5 days, and strongly declined after 8 days. c-JUN and KROX-24 were completely absent after 22 days whereas JUN D was still present in a few rat RGCs. The number of CREB-labeled RGCs decreased after 5 days and had declined by 50% after 22 days. Expression of JUN B, c-FOS, FOS B could not be detected in rat RGCs after optic nerve crush. Our data demonstrate that the decrease of CREB and the increase of JUN and KROX-24 transcription factors precedes and parallels both the alteration of de novo protein synthesis and the axonal sprouting, which are long lasting in goldfish and transient in rat.

Mercuric chloride down-regulates T cell interferon-gamma production in brown Norway but not in Lewis rats; role of glutathione.

Injection of a low dose of mercuric chloride into Brown Norway (BN) rats caused a marked decrease in the concanavalin A (ConA)-induced generation of interferon-gamma-producing cells (IFN-gamma pc) in spleen cell cultures prepared 1 h after mercury administration. A second injection 48 h later caused a further diminution of IFN-gamma pc down to 30% of the number generated in splenocyte cultures of phosphate-buffered saline (PBS)-injected controls. Injection of Lewis rats with either one or two doses of HgCl2 revealed no inhibitory effect on splenic IFN-gamma production. The presence of the reduced form of glutathione (GSH) in the culture medium was found to be essential in these experiments. In the absence of GSH there was an overall 20-fold reduction of the number of IFN-gamma pc in splenocyte cultures of normal or PBS-injected rats, which was further reduced to a 60- to 70-fold-lower level in cultures of rats exposed to HgCl2. This mercury-mediated extra reduction could be fully reversed with an excess (2 mM) of GSH in Lewis but not in BN splenocyte cultures. Since the bivalent Hg2+ ion is known to bind to and inactivate sulfhydryl groups of proteins and low molecular weight thiols, most notably GSH, we investigated a possible role for thiols in IFN-gamma production. It was found that the generation of IFN-gamma pc in normal BN and Lewis splenocyte cultures was strongly dependent on GSH or its precursor cysteine in the culture medium. Other thiol compounds were also effective but disulfides were completely inactive. Depletion of intracellular GSH in ConA-stimulated splenocytes by buthionine sulfoximide (BSO), an inhibitor of de novo GSH biosynthesis, strongly inhibited the generation of IFN-gamma pc. The inhibitory effect of BSO was not abolished by the addition of interleukin-2 (IL-2), but was mimicked with antibodies directed to the IL-2 receptor. The data stress the importance of GSH in the enhancement of IL-2-mediated IFN-gamma production and are most consistent with a model in which mercury interferes with T cell IFN-gamma production by affecting the intracellular availability of GSH. The strain-specific susceptibility to mercury-mediated inhibition of IFN-gamma production is discussed.

Fischer and Lewis rat strains differ in basal levels of neurofilament proteins and their regulation by chronic morphine in the mesolimbic dopamine system.

We studied levels of neurofilament (NF) proteins in the ventral tegmental area (VTA), and other regions of the central nervous system, of two genetically inbred rat strains, Lewis (LEW) and Fischer (F344) rats. These strains represent genetically divergent populations of rats that have been used to study possible genetic factors involved in a variety of biological processes, including drug addiction: compared to F344 rats, LEW rats show a much higher preference for several classes of drugs of abuse. We found 30-50% lower levels of three NF proteins, NF-200 (NF-H), NF-160 (NF-M), and NF-68 (NF-L), in the VTA of LEW compared to F344 rats by use of immunolabeling and Coomassie blue staining. These strain differences were highly specific to this brain region, with no differences observed elsewhere in brain or spinal cord. Interestingly, chronic treatment of F344 rats with morphine decreased levels of these three NF proteins in the VTA, as found previously in outbred Sprague-Dawley rats (Beitner-Johnson, D., Guitart, X., and Nestler, E.J.:J. Neurosci., 12:2165-2176, 1992), whereas morphine had no effect on NF levels in the VTA of LEW rats. A similar strain difference was observed in chronic morphine regulation of tyrosine hydroxylase, with morphine increasing enzyme immunoreactivity in the VTA of F344 rats (as has been observed previously in Sprague-Dawley rats [Beitner-Johnson, D., and Nestler, E.J.:J. Neurochem., 57:344-347, 1991]), but not in LEW rats. In view of the observations that LEW and F344 rats show different levels of preference for several types of drugs of abuse, and of the evidence supporting a central role of the mesolimbic dopamine system in drug reward mechanisms, the results of the current study suggest the possibility that levels of NFs and tyrosine hydroxylase may mediate some aspects of drug reinforcement and contribute to individual genetic differences in vulnerability to drug addiction.

Influencia genética sobre los requerimientos de energía: I desarrollo de un modelo experimental / Genetic variation of energy requirements: I development of an experimental model

Se presentan los resultados obtenidos en el desarrollo de un modelo animal para estudiar la variación individual en requerimientos de energía, partiendo del postulado de que los requerimientos nutricios son determinados genéticamente pero su expresión, como fenotipos distintos, está condicionada por factores ambientales. Se partió del cruzamiento sucesivo de ratas Wistar machos y hembras "buenos" y "malos" convertidores de energía. La primera generación dió tres machos y cinco hembras cuya mediana de índice de conversión (IC) fue de 2.90 y extremos de 2.54 y 3.25. Al observar los valores individuales se hizo aparente que la proporción de machos con IC abajo de la mediana era 3/3 y para las hembras 2/5; esta distribución llevó a considerar si los machos fueran mejores utilizadores de energía que las hembras, al necesitar ingerir menos alimentos para aumentar su peso. Esta hipótesis se exploró cuantificando el IC en 91 ratas.La proporción de machos por arriba de la mediana (33/38) contrastó significativamente (p menor que 0.0001) con la proporción 13/53 encontrada en las hembras. La prueba de ratas (Z = 5.47, p = 0.00003) rechaza la probabilidad de sesgo de entrada por series. La diferencia de utilización en función del sexo hizo que se buscaran si el fenómeno es general para la rata o únicamente para la cepa Wistar. Experimentos con cepas Brown-Norway y Lewis mostraron resultados iguales: los machos eran mejores convertidores de energía. Los datos de Campbell y Taverner en cerdos machos castrados apoyan los del presente informe y la sugerencia de que el modelo de liga al sexo pudiera ser adecuado para estudiar mecanismos de variación de los requerimientos energéticos.

[Genetic influence on energy requirements. I. Development of an experimental model]. / Influencia genética sobre los requerimientos de energia. I. Desarrollo de un modelo experimental.

In attempting to explore the mechanisms of interaction of genetic and environmental factors that affect the quantitative requirements of energy by man, the convenience of an animal model was considered and searched for. The idea was to start with male and female Wistar rats and through inbreeding segregate the highly effective users of energy from the poor users. The efficiency of dietary energy utilization was measured by the index of conversion (IC) defined as the dietary intake necessary to increase 1 g of body weight in a 32-day period, from day 21st to day 52nd of extrauterine life. The median value of the IC for all animals included in each experiment was the cut-off point to classify each individual as a good or a poor energy user. The first generation had three males and five females with a median IC = 2.90 and a range from 2.54 to 3.25. The proportion of males below the median was 3/3 while the proportion of females was 2/5. The difference in proportions was striking and led immediately to the consideration of a sex-link hypothesis, and to test it the, IC of 91 Wistar rats randomly selected at birth was obtained. The median value of the series was 2.99 with a range from 2.24 to 3.95. The proportion of male rats with values below the median was 33/38 while the corresponding proportion for females rats was 13/53. In other words, while nine of every ten male animals were good users of energy, only two out of ten females fell into this category.(ABSTRACT TRUNCATED AT 250 WORDS)

A cellular basis for growth hormone deficiency in the dwarf rat: analysis of growth hormone and prolactin release by reverse hemolytic plaque assay.

The purpose of this study was to elucidate the cellular basis for growth hormone deficiency in Lewis-derived dwarf rats. To this end, we used reverse hemolytic plaque assays to evaluate hormone release. This allowed us to determine the proportional abundance of GH- and PRL- secreting cells and estimate the relative amount of hormone secreted by individual pituitary cells from dwarf rats and their somatically normal counterparts. The percentage of all pituitary cells that released GH (formed plaques) in pituitary dispersions was substantially lower for dwarfs when compared with normals in the absence (3.8 +/- 2.2% vs. 43.4 +/- 2.2%) or presence (6.6 +/- 3.8% vs. 45.7 +/- 1.4%; n = 3) of GRF. In addition, GH secretors from dwarfs released less hormone (formed smaller plaques) than their normal counterparts under both basal and stimulated conditions. An analysis of the relative number of GH cells that formed plaques of various sizes was accomplished by constructing a frequency distribution. Dwarf GH secretors formed more small plaques and proportionately fewer larger plaques than normals under both basal and stimulated conditions. For comparison, we also quantified the proportions of PRL secretors and found that they were actually more abundant in dwarfs than normals in the absence (52.4 +/- 4.6% vs. 33.7 +/- 3.7%) or presence (53.4 +/- 4.9% vs. 33.8 +/- 4.1%; n = 4) of TRH. Treatment with this secretagogue consistently increased mean PRL-plaque area for both groups. Our findings demonstrate that dwarf rats are severely deficient in the proportion of GH secretors. In addition, the few GH secretors present in the dwarf pituitary were less responsive to GRF than normals. In contrast, PRL cells in dwarfs appear to be functionally similar to those of their normal counterparts. The reciprocal relationship in the proportions of GH and PRL secretors in dwarfs provides a rather unique model for investigating the functional relationship between these cell types.

Monoamines and related substances in brainstem and spinal cord of Lewis rats during the attack and recovery of experimental autoimmune encephalomyelitis.

Experimental autoimmune encephalomyelitis influenced catecholaminergic and indoleaminergic neurotransmitter systems in the central nervous system of Lewis rats. During paralysis, serotonin and noradrenaline were significantly reduced compared to animals injected with complete Freund's adjuvant in the posterior dorsomedial brainstem and in lower spinal cord segments. These diminutions remained after recovery from neurological signs in T11-S1. The serotonin metabolite 5-hydroxyindoleacetic acid was greatly augmented during the attack in all segments but was depleted during recovery in the lumbar spinal cord, which may indicate a normalized turnover at a reduced serotonin level. These results suggest functional impairment of monoaminergic neurons of the brainstem and spinal cord followed by permanent damage to some monoaminergic fibers in the spinal cord.