Interactions between nerve growth factor binding and estradiol in early development of the zebra finch telencephalon

The zebra finch telencephalon exhibits rapid and substantial development in the first few weeks after hatching. In parallel, the rate of estradiol synthesis is very high in the zebra finch forebrain, and estradiol can have potent neurotrophic effects in specific telencephalic regions, including those that control the learning and production of song. In an attempt to elucidate mechanisms regulating telencephalic development, potentially including a role for the large capacity for estrogen production, ¹²⁵I–nerve growth factor (NGF) binding was measured in homogenates of telencephalon from zebra finches age 3, 15, 30, 60, and 120 days. The highest density of low‐ and high‐affinity ¹²⁵I‐NGF binding sites was observed in 3‐day‐old finches. Using an aromatase inhibitor, Fadrozole, to reduce estradiol levels in 1 to 4‐day‐old zebra finches significantly decreased both high‐ and low‐affinity ¹²⁵I‐NGF binding sites. Conversely, treating adult or 8 to 14‐day‐old hatchlings with estradiol increased high‐affinity ¹²⁵I‐NGF binding sites. These results are consistent with the hypothesis that estradiol influences the level of NGF receptors, and suggest one mechanism through which the steroid could affect brain development. The data also indicate that estradiol and NGF activity may be important for very early development of the telencephalon. © 1999 John Wiley & Sons, Inc. J Neurobiol 40: 149–157, 1999     

Regulation of D1A and D2 dopamine receptor mRNA during ontogenesis, lesion and chronic antagonist treatment.

The developmental characteristics of D1A and D2 dopamine receptor mRNA levels were determined by Northern blot analyses. Striatal D1A and D2 dopamine receptor mRNAs of male Fischer 344 rats were about 60% of adult (day 120) levels at postnatal day 1 and reached their highest levels at day 30 (126 and 139% adult levels) and then decreased by day 120 (100%). D1 and D2 dopamine receptors showed much greater quantitative changes with densities at day 30 about 6- and 14-fold higher than at day 1, respectively, while mRNA levels showed only a 2-fold increase. The highest level of D2 dopamine receptor mRNA in the midbrain was reached at day 14 (195% of adult levels) while the level at day 1 was 31% higher than that at day 120. Striatal beta-actin mRNA levels decreased gradually as the rats developed with the level at postnatal day 1 almost twice that at day 120 postpartum. Treatment of adult rats with the selective D2 dopamine receptor antagonist, haloperidol (0.5 mg/kg/day, s.c., for 2 h, 7, 14, 21 days or 21 days + 3 days withdrawal) had no effect on striatal D2 dopamine receptor mRNA levels in spite of significant increases in dopamine receptor density at the later time points. However, 21 days following a 6-hydroxydopamine lesion of the nigrostriatal pathway, striatal D2 dopamine receptor mRNA levels were increased by 53%.     

[3H]GABA binding in developing rabbit retina

We have studied the developmental sequence of the GABA system in the rabbit retina using an in vitro binding assay to monitor developmental changes in the post-synaptic receptor. A variety of tissue treatments including perchlorate and Triton X-100 were employed to optimize binding and remove endogenous factors which inhibit binding. Pre-treatment of the tissue with 0.05% Triton X-100 revealed high affinity binding for [³H]GABA which increased in a sigmoidal fashion with the post-natal age of the animal. A constant level of binding, at about 16% of adult levels, was noted until day 8, at which time a rapid increase occurred. At 16 days post-natal, the amount of specific binding reached a plateau near adult levels. Kinetic analysis of the GABA receptor showed an increase in the number of receptors (B_max) with little or no change in the apparent affinity (K_D). Our results suggest that the onset of post-synaptic receptor activity is delayed approximately 1 to 2 days, relative to the pre-synaptic components, and the period of rapid increase in GABA receptor binding coincides with the period of maximum increase in retinal synaptic density.     

Aging-Associated Changes in the Pharmacological Properties of the Benzodiazepine (ω) Receptor Isotypes in the Rat Hippocampus

Abstract: The aging-associated changes in hippocampal benzodiazepine (ω) receptor isotypes have been investigated in rats of the Wistar and Fischer 344 strains. Displacement experiments of [³H]flunitrazepam binding by zolpidem demonstrated that in hippocampal membranes from adult (3-month-old) Wistar strain rats, high (type I; ω₁)-, intermediate (type II_M; ω₂)-, and low (type II_L; ω₅)- affinity sites for this imidazopyridine account for 27.1 ± 7.5, 44.2 ± 7.5, and 28.8 ± 5.1%, respectively. In hippocampal membranes from aged (24-month-old) rats of the same strain, the relative abundance of these sites was 42.8 ± 9.3, 26.3 ± 4, and 36.0 ± 5.9%, respectively. In contrast, no significant difference was observed in the whole benzodiazepine (ω) binding site density between adult and aged rats. The increase in type I (ω₁) binding site density in the hippocampus of aged rats was also demonstrated in saturation experiments with [³H]zolpidem. This aging-induced increase in [³H]zolpidem binding was also observed in hippocampal membranes from Fischer 344 rats. Moreover, in both rat strains, GABA induced a greater enhancement of [³H]zolpidem (5 nM) binding to type I (ω₁) sites (GABA shift) in aged than in adult hippocampal membranes. Quantitative autoradiographic analysis of [³H]zolpidem binding to coronal brain sections from adult and aged Fischer 344 rats demonstrated that the aging-associated increases in the density of type I (ω₁) binding sites were restricted to the hippocampus. Moreover, increases in binding density were larger in the dentate gyrus and in the CA2 field than in the CA1 and CA3 fields.     

Comparison of [3H]resiniferatoxin binding to spinal cord and dorsal root ganglia of newborn and adult rats

Capsaicin is frequently used in neurobiological investigations to selectively inhibit response by the primary sensory afferent neurons. The effectiveness of treatment depends significantly on the age of the animals; newborns are both quantitatively and qualitatively more sensitive than adults. In the present study, we used the [³H]resiniferatoxin binding assay to determine whether this different susceptibility to capsaicin between newborns and adult animals may reflect differences either in receptor affinity or density. We report here that whole spinal cord membranes of neonates bound [³H]RTX with similar affinity and positive cooperativity as did the spinal cord membranes from adult animals (K_d values were 24.8 ± 3.7 and 26.8 ± 4.8 pM, respectively; Hill coefficients were 2.25 ± 0.03 and 2.17 ± 0.05, respectively). However, the receptor density was three - fold higher in the spinal cord membranes of neonates than of adult rats (B_max values were 142 ± 13 and 43 ± 3 fmol/mg protein, respectively). We found no significant difference in the [³H]RTX binding properties of dorsal root ganglia membranes of newborn and adult animals. Our results suggest than a higher density of the vanilloid receptor in the spinal cord (but not in the dorsal root ganglia) of newborn animals may contribute to the quantitative differences between the sensitivity of adult animals and neonates.     

Temporal relationship of the prolactin-dependent LH-induced LH receptor to the LH stimulus

The time course for LH induction of luteinizing hormone (LH) receptors as reflected in binding of ¹²⁵l-labeled hCG was investigated in hypophysecto-mized adult male rats. A low dose of oLH (10 μg) was administered to hypophysectomized adult male rats following pretreatments with prolactin, follicle-stimulating hormone (FSH), growth hormone (GH), or saline. Testicular binding of hCG was determined at different times following the LH injection using Leydig cell membrane preparations from a testicular homogenate. Seven days after hypophysectomy, hCG binding was at a nadir of 19 ± 7% (mean ± SD) of control values. Pretreatment with prolactin (100 μg/day) for 7 days was associated with a nonsignificantly different hCG binding that was 30 ± 5% of control values. Prolactin pretreatment plus a single 10 μg LH i.p. injection increased ¹²⁵l hCG binding up to 56 ± 10% of control values within 30 minutes of the LH injection. Luteinizing hormone-induced hCG binding persisted at a high level (51 ± 4% of control values) for 2 hours but returned to hypophysectomized control levels 6 hours after the i.p. LH injection. Seven days pretreatment with FSH or GH at 100 μg/day plus 10-μg LH injections was also tested. Neither FSH nor GH had a statistically significant effect on hCG binding nor could they mimic the ability of prolactin to allow for LH induction of hCG binding in the hypophysectomized adult male rats. These studies suggest that the induction or “up-regulation” of Leydig cell hCG binding by ovine LH is rapid and specifically dependent upon pre-exposure to prolactin.     

Myogenic regulatory factors during regeneration of skeletal muscle in young, adult, and old rats

Marsh, Daniel R., David S. Criswell, James A. Carson, andFrank W. Booth. Myogenic regulatory factors during regeneration ofskeletal muscle in young, adult, and old rats. J. Appl. Physiol. 83(4): 1270-1275, 1997.Myogenicfactor mRNA expression was examined during muscle regeneration afterbupivacaine injection in Fischer 344/Brown Norway F1 rats aged 3, 18, and 31 mo of age (young, adult, and old, respectively). Mass of thetibialis anterior muscle in the young rats had recovered to controlvalues by 21 days postbupivacaine injection but in adult and old ratsremained 40% less than that of contralateral controls at 21 and 28 days of recovery. During muscle regeneration, myogenin mRNA wassignificantly increased in muscles of young, adult, and old rats 5 daysafter bupivacaine injection. Subsequently, myogenin mRNA levels inyoung rat muscle decreased to postinjection control values byday 21 but did not return to controlvalues in 28-day regenerating muscles of adult and old rats. Theexpression of MyoD mRNA was also increased in muscles atday 5 of regeneration in young, adult,and old rats, decreased to control levels by day14 in young and adult rats, and remained elevated inthe old rats for 28 days. In summary, either a diminished ability todownregulate myogenin and MyoD mRNAs in regenerating muscle occurs inold rat muscles, or the continuing myogenic effort includes elevatedexpression of these mRNAs.

     

Regulation of mitochondrial contact sites in neonatal,juvenile and diabetic hearts

Mitochondrial contact sites (MiCS) are dynamic structures involved in high capacity transport of energy from mitochondria into the cytosole. Previous studies revealed that in normal conditions the actual number of MiCS is in correlation with the energy requirements of the heart, particularly with those for its contractile work. Although the detailed mechanisms of signalling between the processes of energy utilisation and MiCS formation in the heart are not yet elucidated, it is known that intracellular Ca²⁺ transients are intimately involved in this crosstalk. The present study is devoted to investigation of Ca²⁺-linked MiCS formation in healthy adult hearts and in hearts with modified Ca²⁺-handling such as in developing, in juvenile and diabetic myocardium. Experiments were performed on hearts of healthy rats on the 22nd embryonal day, 1st, 4th, 7th and 14th postnatal days as well as on adult hearts. Diabetic hearts were investigated on the 8th day after streptozotocin injection (45 mg.kg^–1 i.v.) to adult rats. Intracellular Ca²⁺ movements were affected by modulation of Ca²⁺ concentration in perfusion solution (1.6 or 2.2 mmol.l^–1) in isolated, Langendorff-perfused hearts, by calcium paradox (CaP) or by replacing of Ca²⁺ by Cd²⁺ ions. Elevation of extracellular Ca²⁺ was reflected by 30.1, 10.4 and 24.1% increase in intracellular free Ca²⁺ concentration in healthy adult, diabetic and 14-day old hearts respectively. In developing hearts the amount of MiCS was culminating on the 4th postnatal day. In adult hearts, elevated calcium in the perfusion solution, CaP as well as diabetes led to a significant increase in the amounts of MiCS formed (58.1, 77.2 and 86.5% respectively; p < 0.05). Diabetic and 14-day old hearts naturally exhibited amounts of MiCS comparable to those obtained by Ca²⁺-stimulation of MiCS formation in adult healthy hearts. In contrast to healthy controls, perfusion of diabetic and 14-day old hearts with elevated Ca²⁺ as well as induction of CaP exerted little influence on MiCS formation (4.4 and 8.2% for elevated Ca²⁺; 2.9 and 10.7% for CaP; p > 0.05). A replacement of Ca²⁺ by Cd²⁺ ions lowered the amount of MiCS in healthy adult and diabetic hearts (61 and 52.2%; p < 0.05). In conclusion, during development, the formation of MiCS may be influenced by both, permanent stimulation by Ca²⁺-signalling and the availability of mCPK. In healthy adult hearts the amount of MiCS is modulated by intracellular Ca²⁺ transients in response to changes in extracellular Ca²⁺ concentration. In diabetic hearts the modulation of MiCS formation is naturally attenuated, apparently as a consequence of persisting alterations in Ca²⁺-handling.     

Regional Profile of Developmental Changes in the Sensitivity of the N-Methyl-D-Aspartate Receptor to Polyamines

Abstract: The NMDA receptor exhibits increased sensitivity to stimulation during early development compared with the adult. In this study, we examined modulation of the NMDA receptor by polyamines during development to see if it correlates with differences in the functional responsiveness of the NMDA receptor. [³H]MK-801 binding was measured in discrete brain regions in the presence and absence of polyamines in 3-, 7-, 15-, 25-, and 60-day-old Sprague-Dawley rats. [³H]MK-801 binding increased between postnatal days 3 and 15, with adult levels of binding being reached between days 15 and 25. Spermidine (75 μM) caused maximal stimulation of [³H]MK-801 binding during early development, ranging from 250% in the thalamus to 450% in the caudate putamen at postnatal day 3. This effect gradually declined to levels seen in the adult by postnatal days 15–25. During all developmental stages, the stimulation seen was greater in the caudate putamen compared with the hippocampus. Diethylenetriamine (1 μM) exhibited similar developmental and regional heterogeneity in its effects on [³H]MK-801 binding, producing substantial stimulation of binding in the neonate, but not in the adult. The EC₅₀ and E_max values for the stimulatory effect of spermidine were significantly higher at day 7 compared with the adult. Unlike spermidine and diethylenetriamine, there was no regional variation in the effects of the putative “polyamine site” inverse agonist 1,10-diaminodecane at any age and only a slightly attenuated inhibition at postnatal day 3 compared with the adult. This lack of complementarity in the regional and developmental profiles of spermidine and diethylenetriamine, on the one hand, and 1,10-diaminodecane, on the other, suggests that their effects on [³H]MK-801 binding are mediated at different sites. The altered sensitivity of the NMDA receptor to polyamines during development could reflect the expression of molecular variants with different sensitivities to modulation by polyamines.     

Leydig cell receptors for luteinizing hormone releasing hormone and its agonists and their modulation by administration or deprivation of the releasing hormone

Leydig cells isolated from adult rat testes bound ¹²⁵I-labelled luteinizing hormone releasing hormone (LHRH) agonist with high affinity (K_A=1.2 × 10⁹M) and specificity. LHRH and the 3–9 and 4–9 fragments of LHRH agonist competed for binding sites with ¹²⁵I-LHRH agonist but with reduced affinities, whereas fragments of LHRH, and oxytocin and TRH were largely inactive. Somatostatin inhibited binding at high (10^?4M) concentrations but was inactive at 10^?6M and less. Pretreatment of rats for 7 days with 5 μg/day of LHRH agonist reduced binding of ¹²⁵I-LHRH agonist to Leydig cells $\text{in vitro}$ by 25%, whilst inhibition of endogenous LHRH by antibodies for 7 days caused a 40% decrease.     

Age-Related Loss of t-[35S]Butylbicyclophosphorothionate Binding to the γ-Aminobutyric AcidA Receptor-Coupled Chloride Ionophore in Rat Cerebral Cortex

Muscimol and t-butylbicyclophosphorothionate (TBPS) are known to label two distinct sites within the gamma-aminobutyric acidA (GABAA) receptor complex, i.e., the GABA recognition site and the chloride ionophore, respectively. Age-dependent changes in the specific binding of [3H]muscimol and [35S]TBPS were compared in membranes prepared from the cerebral cortex of rats, 2-800 days old. Perinatal (day 2) binding of muscimol and TBPS represented 8 and 20% of the respective values for adults (day 180). After the first week, muscimol binding increased more rapidly than TBPS binding. Levels near those of adults were reached at day 20 and remained practically unchanged in adulthood (day 180). In aged (780-day-old) rats, the binding of TBPS was significantly reduced, whereas muscimol binding did not change compared with adult values. This decrease of TBPS binding derived from a reduced density of binding sites, rather than from affinity changes. The allosteric responsiveness of TBPS binding to exogenous GABA was also reduced in aged animals. These findings indicate an age-related change in the molecular (structural) organization of the GABAA receptor-chloride ionophore complex in rat cerebral cortex.     

Adenylate cyclase activity in rat submandibular gland during postnatal development

Adenylate cyclase activity was measured in homogenates of submandibular glands of 1 to 42 day old rats. During this period of time the gland reached its final stage of differentiation. Adenylate cyclase activity was higher in the glands of one day old rats than in those of 7 and 14 day old animals. Between 14 and 28 days of age the enzyme activity more than doubled and approached the level that characterized the glands of adult animals. Fluoride (10mM) stimulated the enzyme activity in all age groups but the stimulation was less in the case of one day old rats as compared to older animals. Isoproterenol (10^?4 M) stimulated adenylate cyclase by 50–60% in the gland of adult rats but had no effect on the enzyme activity in 7 to 28 day old animals. Administration of isoproterenol for 5 days to 9 day old rats increased the weight of the submandibular gland by 70 per cent. Total adenylate cyclase activity increased parallel with the weight of the gland but the specific activity of the enzyme remained unchanged. It is concluded that during the postnatal development of the submandibular gland the rapid increase in adenylate cyclase activity occurs after weaning and it coincides with an accelerated rate of functional differentiation of the acinar cells.     

Binding of lipophorin to the fat body of the migratory locust

The interaction of locust high density lipophorin (HDLp) with pieces of fat body tissue was studied at 33°C using a radiolabelled ligand binding assay. Under the assay conditions, binding of tritium-labelled HDLp ([³H]HDLp) was demonstrated to correlate linearly with tissue concentration up to ∼ 7 mg of fat body protein per ml of incubation medium. The [³H]HDLp binding that was displaceable by a 20-fold excess of unlabelled HDLp (which is an approximation of the specific binding) reached equilibrium after ∼ 2 h, whereas low levels of non-displaceable binding increased linearly during this time interval. Analysis of the concentration dependent total binding of [³H]HDLp revealed the presence of a specific binding site with an equilibrium dissociation constant of K_d = 3.1 (±0.5) × 10⁻⁷ M and a maximal binding capacity of 9.8 (±0.5) ng μg⁻¹ tissue protein. Competition experiments demonstrated that the affinity of unlabelled HDLp for the binding site is similar to the affinity of [³H]HDLp. Unlabelled low density lipophorin (LDLp), however, was shown to have an approx. 20-fold lower affinity for the binding site.     

Age-dependent change in arachidonic acid metabolic capacity in rat alveolar macrophages

Arachidonic acid (AA) metabolism was assessed in cultured alveolar macrophages (AM) obtained from newborn (10 days old) and adult (2 months and 4 months old) rats. The AMs were stimulated with the calcium ionophore, A23187 (10 microM). The released radiolabelled AA metabolites were measured by thin layer chromatography. The results showed that among different aged rats, the synthesis of 5-lipoxygenase (5-LO) metabolites, LTB4, LTC4, LTD4 and 5-HETE were increased with age inspite of similar levels of [14C]AA release. In response to A23187, 5-LO metabolic capacity of 2 and 4 months old adult rat AMs were increased 21-fold and 34-fold, respectively, compared with 10 days old rat AMs. As the metabolic capacity increased, the release of prostaglandins and thromboxane B2 tended to decrease markedly. Newborn rats (10 days old) AM, at the initial developmental stage, did not produce a noticeable amount of 5-LO metabolites which, conceivably, contribute to high susceptibility of neonatal lung to infection.     

Forebrain binding sites for atrial natriuretic factor: Alterations in spontaneously hypertensive (SHR) rats

Binding sites for atrial natriuretic factor (ANF-28) were studied in forebrain areas of spontaneously hypertensive (SHR) and Wistar Kyoto (WKY) normotensive male rats by quantitative autoradiography. The maximum binding capacity of [¹²⁵I]ANF-28 was significantly reduced in the subfornical organ and choroid plexus of 4 and 14 week old SHR rats compared to age-matched WKY controls. In contrast, the affinity constant for [¹²⁵I]ANF-28 binding was elevated in the choroid plexus of 14 week old SHR rats. These findings indicate that marked reductions in the number of ANF-28 binding sites occur in weanling SHRs as well as in adult SHRs with elevated arterial blood pressures. Thus, these persistant reductions in forebrain ANF-28 binding sites in SHR rats may contribute to the development and maintenance of this form of experimental hypertension.     

Physiological state and the sensitivity of liver mitochondrial outer membrane carnitine palmitoyltransferase to malonyl-CoA. Correlations with assay temperature, salt concentration and membrane lipid composition.

1. Liver mitochondrial outer membranes were pre-exposed to media of low (20 mM phosphate) or high salt concentration (20 mM phosphate + 0.3 M KCl) before assay of carnitine palmitoyltransferase (CPT) at 25 degrees C. 2. With membranes from fed rats, exposure to high salt decreased sensitivity of CPT to malonyl-CoA whereas high salt increased sensitivity of CPT to malonyl-CoA in membranes from 48 hr-fasted rats. These changes were paralleled by alterations in the KD for high affinity binding of [14C]malonyl-CoA to outer membranes. 3. Decreasing the CPT assay temperatures from 25 to 10 degrees C caused qualitatively similar changes to those seen on exposure to high salt. 4. The relative content of sphingomyelin was increased 2-fold and 4-fold in liver mitochondrial outer membranes from fasted and diabetic rats respectively. Fasting had no effect on the content of cholesterol whereas diabetes decreased this by a third.     

Ontogeny of insulin-receptor interaction: Correlation with circulatory insulin levels

Interaction of [¹²⁵I]-insulin with intact hepatocytes and its correlation with circulatory insulin level was examined. The hepatocytes from new-born rats bound lowest amount of [¹²⁵I]-insulin (1.39±0.41 pM/mg cell protein) when circulatory insulin level was high (8±1.5 ΜU/ml). Hepatocytes from 7 day and 21 day old animals demonstrated a more or less similar relationship, Cells from 31 day old animals exhibited maximum insulin binding, activity (5.13±0.18.pM/mg cell protein) against a low serum insulin level (4.25±0.25 ΜU/ ml). Scatchard analysis of insulin binding shows that the affinity is higher in the hepatocytes from new-born animals than in the hepatocytes of 31 day old animals. Higher binding observed in the latter case may be due to a greater number of binding sites. Hepatocytes from one year old rats bound very little insulin (2.50±0.36 pM/mg cell protein) against a high circulatory insulin level (9.25±0.85 ΜU/ml). In view of these results, it appears that the down-regulation hypothesis holds true during ontogeny too.     

Altered Ontogenesis of Muscarinic Receptors in Agranular Cerebellar Cortex

Abstract: The developmental pattern, the agonist binding properties and the cellular origin(s) of muscarinic binding sites were investigated in agranular cerebellum of x-irradiated rats, of Gunn rats with hereditary hyperbilirubinemia, and of staggerer mutant mice. The density of muscarinic binding sites was found to be higher than normal in all of these cerebellar types, indicating that granular neurons do not greatly contribute to binding of acetylcholine in the rodent cerebellum. The total number of muscarinic binding sites as measured by binding of [³H]4NMPB remains unchanged in the agranular cerebellum of x-irradiated rats. However, the number of muscarinic sites is reduced by about 30% in the agranular cerebellum of homozygous Gunn rats (jj), in which fibrous astrocytes and Purkinje cells are also damaged. In the cerebellum of staggerer mice (sg/sg), where a cascade of events leads to massive damage to mossy fibers and Golgi cells in addition to granular neurons and Purkinje cells, the content of muscarinic receptors is reduced by 50%. Thus, the number of muscarinic binding sites in the rodent cerebellum seems to depend on the integrity of the additional cell types and cellular elements, damaged in these agranular models. The ontogenetic variations in the affinity of cerebellar muscarinic sites for binding of carbamylcholine in normal and Gunn rat cerebellum were compared with those observed in x-irradiated and staggerer cerebellum, where elimination of granular neurons induces the formation of ‘heterologous’ synapses. Muscarinic binding affinity increases 10-fold during postnatal development in the cerebellum of normal and Gunn rats. In the immature x-irradiated cerebellum, the affinity of muscarinic binding sites was found to be nearly as high as that detected in the adult normal cerebellum. In contrast, cerebella of 5-month-old staggerer mice display 5-fold lower affinity than their normal counterpart values, as low as that determined in normal immature cerebellum. The characteristic ontogenetic pattern of muscarink binding is therefore indicated to be related to the formation of correct circuitry, but not to the presence of granular neurons, in the developing rat cerebellum.     

Postnatal development and GABA allosteric modulation of benzodiazepine receptor binding in the vitamin B-6 deficient rat brain

We have measured the postnatal development and GABA modulation of benzodiazepine receptors in neuronal membranes from vitamin B-6 deficient and normal rats. In rats fed vitamin B-6 adequate and deficient diets there were age-dependent changes in [³H]flunitrazepam binding site affinity and in the number of binding sites. Vitamin B-6 deficiency produced a significant reduction in the potency of GABA to enhance [³H]flunitrazepam binding to cortical membranes prepared from 14 day old rats. These results suggests an uncoupling of the GABAa/benzodiazepine receptor at a developmental period when the animals are most susceptible to spontaneous seizures.     

Prolactin binding in rat mammary gland during pregnancy and lactation

Lactogenic hormones from the placenta and pituitary are primarily responsible for the growth and function of the mammary gland during pregnancy and lactation. In the present study we describe the optimal conditions for the measurement of ¹²⁵I-labeled ovine prolactin binding to mammary gland slices of pregnant and lactating rats. Prolactin binding is saturable (K_{d approx. 2.36 · 10^?9 M)}, hormone specific and destroyed by proteases. The hormonal environments of pregnancy and lacation dramatically influence the availability and measurement of prolactin binding sites. Whereas binding consistently appears to be low in mammary glands removed from rats during pregnancy, binding levels rise 7–8-fold shortly after birth and remain high during the 22 days of lactation. However, the removal of the ovaries and gravid uteri at specific times during pregnancy results in prompt 3–6-fold increase in prolactin binding. Elevated levels in potential prolactin binding capacity appear in mammary tissue coincident with the reported rise in serum rat placental lactogen between the eight and eleventh days. We suggest that high levels of this lactogenic hormone promote the appearance of prolactin binding sites during pregnancy and mask the sites such that they are not available for measurement in vitro.