Vitamin D in lactation. I. The localization, specific binding and biological effect of 1,25-dihydroxyvitamin D3 in mammary tissue of lactating rats

Radiolabelled 1, 25-dihydroxyvitamin D₃ was found to accumulate in mammary tissue of lactating rats, to bind to a specific high affinity binding component in mammary cytosol and to associate with chromatin in vivo. 1,25-dihydroxyvitamin D₃ was also shown to have a direct effect on milk calcium concentration in vivo. The cytosolic binding protein was found to sediment at 3.2S on sucrose gradients and to have a dissociation constant of 2.5 × 10^?10 M. Localization of 1, 25-dihydroxyvitamin D₃ in mammary gland and other tissues of lactating rats was compared. These results provide evidence that the lactating mammary gland is a target tissue for 1,25-dihydroxyvitamin D₃.     

Binding of [H]methyltrienolone to androgen receptor in rat liver

The synthetic androgen methyltrienolone is superior to testosterone and androstenedione for the measurement of androgen receptor in tissues where the native ligands are metabolized into inactive derivatives. [³H]Methyltrienolone binds with a high affinity to androgen receptor in cytosol prepared from male rat livers, as the Scatchard analysis revealed that the K_d value was 3.3 · 10⁻⁸ M and the number of binding sites was 35.5 fmol/mg protein. Since methyltrienolone also binds glucocorticoid receptor which exists in rat liver, the apparent binding of androgen receptor is faulty when measured in the presence of glucocorticoid receptor. The binding of methyltrienolone to glucocorticoid receptor can be blocked by the presence of a 100-fold molar excess of unlabeled synthetic glucocorticoid, triamcinolone acetonide, without interfering in its binding to androgen receptor, because triamcinolone does not bind to androgen receptor. Triamcinolone-blocked cytosol exhibited that the K_d value was 2.5 · 10⁻⁸ M and the number of binding sites was 26.3 fmol/mg protein, indicating a reduction to of that in the untreated cytosol. The profile of glycerol gradient centrifiguration indicated that [³H]methyltriemolone-bound receptor migrated in the 8–9 S region in both untreated and triamcinolone-blocked cytosols, but the 8–9 S peak in triamcinolone-blocked cytosol was reduced to about of that of untreated cytosol.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [³H]estradiol-17β are present to cytosol prepared from rabbit liver. When cytosol from sexually mature male liver was incubated with [³H]estradiol and analyzed for binding on low ionic strength sucrose gradients, two peaks of binding activity were detected. One peak had a sedimentation coefficient of 4–5 S and the other had a sedimentation coefficient of 8–9 S. The two components differed from each other regarding steroid specicity and various physiocochemical parameters. [³H]-estradiol binding to the 4–5 S component was not inhibited by estrogens, 5α-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appera to be saturable and lavel was rapidly stripped from it by cahrcoal. Estradiol bindng to the 8–9 S component was estrogen specific, saturable and of high affinity. The specific binder dissociates on high ionic strength sucrose gradients and sediments as a 4–5 S moiety. The specific binding protein has a K_d of 3.05 · 10⁻¹⁰ M and a dissociation half-time of 33 h and there are 35.2 fmol of binding sites/mg cytosol protein. Estrogen binders are also present in liver cytosol from sexually mature female and sexually immature male rabbits. During prolonged incbuation of [³H]estradiol with mature male liver cytosol at 0–5°C polar metabolites of estradiol are produced.     

Prolactin and Growth Hormone Binding in Mammary and Liver Tissue of Lactating Cows

Abstract

A radioligand/receptor binding assay was developed using homologous hormones to distinguish between bovine growth hormone (bGH) and bovine prolactin (bPRL) receptors in liver and mammary tissue of lactating cows. Mammary and liver tissues were homogenized in 0.3 M sucrose and centrifuged at 100,000 x g over a 1.3 M sucrose density gradient. Membranes from the 0.3 - 1.3 M sucrose interface were incubated with 1 ng of iodinated bGH or bPRL for 20 h at 22°C in the presence of increasing concentrations of native bGH or bPRL. High affinity receptor binding sites were found for bPRL in liver and mammary tissue membranes (Ka=3.2 and 1.3 × 10⁸ 1/mol with 34 and 63 fmol receptors/mg liver and mammary membrane protein, respectively) and for bGH only in liver tissue (Ka=1.8 × 10⁹ 1/mol, 18 fmol receptors/mg membrane protein). Receptor number estimates were 3 and 11 times higher in mammary and liver tissue using a heterologous hGH system indicating that heterologous systems may overestimate the number of receptors in bovine tissue. The absence of demonstratable bGH receptors in lactating bovine mammary tissue supports in vitro results of others with isolated mammary tissue indicating that the positive effect of bGH on milk production in intact cows is via an indirect mechanism.     

Characterization of the progesterone receptor of rabbit uterus with the synthetic progestin 16α-ethyl-21-hydroxy-19-norpregn-4-ene-3,20-dione

The synthetic progestin 16α-ethyl-21-hydroxy-19-norpregn-4-ene-3,20-dione (Org 2058) was used to characterize the progesterone receptor in the uterine cytosol of the rabbit. [³H] Org 2058 binds to a homogeneous population of protin binding sites with an apparent association equilibrium constant of 7.7· 10⁸ M⁻¹ at 0°C. The concentration of protein-bound steroid at saturation is 2.3 pmol per mg of cytosol protein. [³H] Progesterone binds to the same set of binding sites but exhibits a 4–5 fold lower apparent association constant. The difference in affinity is mainly due to a 13-fold slower rate of dissociation of the synthetic progestin compared with progesterone. Org 2058 competes very efficiently for the binding of [³H] progesterone to the uterine cytosol, and progesterone also competes, although less efficiently, for the binding of [³H]-Org 2058. There is a good correlation between the progestational activity of various steroids and their ability to compete with [³H] Org 2058 binding to the cytosol. At 0°C, there is no metabolic transformation of either Org 2058 or progesterone in the uterine cytosol.When filled with the steroid, the progesterone receptor is stable, but in the absence of the steroid the receptor binding sites are thermolabile and show a rapid decay at 20°C . Org 2058 is more effective than progesterone in protecting the receptor against thermal inactivation. The rate constant of association and dissociation of [³H] Org 2058 and the cytosol receptor are strongly dependent on temperature and the activation energy of the dissociation reaction is 17.8 kcal/mol. The equilibrium association constant is less dependent on temperature and exhibits ΔH° of −4.7 kcal/mol. The binding reaction shows a positive entropy change of 23 cal · K⁻¹ · mol⁻¹.At low ionic strength the complex of Org 2058 and the progesterone receptor tends ot aggregate. It sediments as a broad peak on sucrose gradients (4–6 S), and is excluded from columns of Sephadex G-100 and G-200. At concentrations of NaCl above 0.15 M, the receptor sediments in sucrose gradients as an homogeneous peak at 3.6 S, but upon gel filtration it aggregates and a complex elution pattern is observed, that prevents a precise estimation of the molecular weight.     

Insulin: Its binding to specific receptors and its stimulation of DNA synthesis and 2′,3′-cyclic nucleotide phosphohydrolase activity in cerebral cells cultured from embryonic mouse brain

The presence and specificity of insulin receptors was investigated in cultured cells obtained from 15–16 days old embryonic mouse cerebra. Developmental studies suggested that the maximum insulin binding occurred at about 11 days in vitro (DIV). Scatchard analysis of binding data revealed two types of binding sites. One type of receptor was the high affinity type (K _d=7.77×10^–9 M; number of receptor sites,B _max=350 fmol/mg protein) while the other type was of low affinity type (K _d=5.75×10^–8 M;B _max=1150 fmol/mg protein). The specificity of receptors for insulin was also confirmed by showing that [¹²⁵I]insulin was displaced by non-radioactive insulin but not by glucagon or growth hormone. Insulin displayed a clear dose-dependent stimulation of thymidine incorporation. It also stimulated the activity of the enzyme 2,3-cyclic nucleotide phosphohydrolase (CNPase), which is specifically associated with myelin produced from oligodendroglia. Thus insulin has a positive influence on the proliferation and differentiation of brain cells.     

Antiestrogen binding sites in rat liver nuclei

Isolated, intact rat liver nuclei have high-affiity (K_d=10⁻⁹ M) binding sites that are highly specific for nonsteroidal antiestrogens, especially for compounds of the triphenylethylene series. Nuclear [³H]tamoxifen binding capacity is thermolabile, being most stable at 4°C and rapidly lost at 37°C. More [³H]tamoxifen, however, is specifically bound at incubation temperatures of 25°C and 37°C than at 4°C although prewarming nuclei has no effect, suggesting exchange of [³H]tamoxifen for an unidentified endogenous ligand. Nuclear antiestrogen binding sites are destroyed by trypsin but not by deoxyribonuclease I or ribonuclease A. The nuclear antiestrogen binding protein is not solubilized by 0.6 M potassium chloride, 2 M sodium chloride, 0.6 M sodium thiocyanate, 3 M urea, 20 mM pyridoxal phosphate, 1% (w/v) digitonin or 2% (w/v) sodium cholate but is extractable by sonication, indicating that it is tightly bound within the nucleus. Rat liver nuclear matrix contains high-affinity (K_d=10⁻⁹ M) [³H]tamoxifen binding sites present in 5-fold higher concentrations (4.18 pmol/mg DNA) than in intact nuclei (0.78±0.10 (S.D.) pmol/mg DNA). Low-speed rat liver cytosol (20 000×g, 30 min) contains high-capacity (955±405 (S.D.) fmol/mg protein), low-affinity (K_d=10.9±4.5 (S.D.) nM) antiestrogen binding sites. In contrast, high-speed cytosol (100 000×g, 60 min) contains low-capacity (46±15 (S.D.) fmol/mg protein), high-affinity (K_d=0.61± 0.20 (S.D.) nM) binding sites. Low-affinity cytosolic sites constitute more than 90% of total liver binding sites, high-affinity cytosolic sites 0.3%–3.2%, and nuclear sites less than 0.5% of total sites.     

Detection of a pheromone-binding protein in the aquatic fungus Achlya ambisexualis

Sexual reproduction among the eukaryotic fungi of the genus, Achlya, is controlled by two steroid pheromones. Antheridiol is the pheromone constitutively produced by female cells that induces male sexual differentiation and development. A biologically active tritium-labeled derivative of antheridiol, [1,2-³H]7-deoxy-7-dihydro-antheridiol ([³H]7dA), has been synthesized. Radioligand-binding studies have revealed the presence of a specific binding protein in the cytosol of male cells that may represent the endogenous receptor for antheridiol. Binding to this macromolecule was characterized by an apparent equilibrium dissociation constant and maximum binding capacity of approx. 7 × 10⁻¹⁰ M and 1 100–2 000 fmoles/mg protein, respectively. Sedimentation analysis in sucrose gradients revealed that the binding protein distributes in the 8S region under low ionic strength and sodium molybdate-stabilized conditions. Under conditions of high ionic strength, in the presence or absence of 10 mM sodium molybdate, the binding site distributes in the 3.6S region of the gradient. Analysis of radioligand binding in the presence of other steroids and steroid hormones revealed that the binding is specific for antheridiol and its analog.     

Endothelin-1 binding to endothelin receptors in the rat anterior pituitary gland: possible formation of an ETA-ETB receptor heterodimer

1. Interaction in the recognition of endothelin-1 (ET-1), a typical bivalent ET receptor-ligand, between ET_A and ET_B receptors was investigated in the rat anterior pituitary gland, using our quantitative receptor autoradiographic method with tissue sections preserving the cell-membrane structure and ET receptor-related compounds.2. In saturation binding studies with increasing concentrations (0.77–200 pM) of ¹²⁵I-ET-1 (nonselective bivalent radioligand), ¹²⁵I-ET-1 binding to the rat anterior pituitary gland was saturable and single with a K _D of 71 pM and a B _max of 120 fmol mg^–1. When 1.0 M BQ-123 (ET_A antagonist) was added to the incubation buffer, binding parameters were 8.3 pM of K _D and 8.0 fmol mg^–1 of B _max, whereas 10 nM sarafotoxin S6c (ET_B agonist) exerted little change in these binding parameters (K _D, 72 pM; B _max, 110 fmol mg^–1).3. Competition binding studies with a fixed amount (3.8 pM) of ¹²⁵I-ET-1 revealed that when 1.0 M BQ-123 was present in the incubation buffer, ET_B receptor-related compounds such as sarafotoxin S6c, ET-3, IRL1620 (ET_B agonist), and BQ-788 (ET_B antagonist) competitively inhibited ¹²⁵I-ET-1 binding with K _is of 140, 18, 350 pM, and 14 nM, respectively, however, these compounds were not significant competitors for ¹²⁵I-ET-1 binding in the case of absence of BQ-123.4. In cold-ligand saturation studies with a fixed amount (390 pM) of ¹²⁵I-IRL 1620 (ET_B radioligand), IRL1620 bound to a single population of the ET_B receptor, and no change was observed in binding characteristics in the presence of 1.0 M BQ-123. ¹²⁵I-IRL1620 binding was competitively inhibited by ET-1 and ET-3 in the absence of BQ-123, with K _is of 20 and 29 pM, respectively, the affinities being much the same as those of 29 nM, in the presence of 1.0 M BQ-123.5. Two nonbivalent ET_A antagonists, BQ-123 and PD151242, were highly sensitive and full competitors for ¹²⁵I-ET-1 binding (5.0 pM), in the presence of 10 nM sarafotoxin S6c.6. Taken together with the present finding that mRNAs encoding the rat ET_A and the ET_B receptors are expressed in the anterior pituitary gland, we tentatively conclude that although there are ET_A and ET_B receptors with a functional binding capability for ET receptor-ligands, the ET_B receptor does not independently recognize ET-1 without the aid of the ET_A receptor. If this thesis is tenable, then ET-1 can bridge between the two receptors to form an ET_A–ET_B receptor heterodimer.     

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.     

Two isoforms of soluble auxin receptor in rice (Oryza sativa L.) plants: Binding property for auxin and interaction with plasma membrane H+-ATPase

An auxin receptor protein, isolated from the soluble fractionsof rice shoots and roots, was characterised in terms of the affinity andspecificity for IAA and the modulating effect onH⁺-ATPase of plant plasma membrane. The receptor proteingives a biphasic binding isotherm for IAA, indicating the existence ofthe primary and secondary binding sites. The predominant isoform of thereceptor in roots shows much higher affinity to IAA compared with thatin shoots. Being monomeric protein with about the same molecular mass(57–58 kDa) and showing a similar chromatographic behaviour, bothisoforms mediate IAA-induced modulation of the plasma membraneH⁺-ATPase in the respective IAA concentration rangesseparated by ca. 3 orders of magnitudes(10^-10–10^-7 M vs.10^-7–10^-4 M). Analysis of kinetic data ofthe H⁺-ATPase activity revealed that the receptor perse functions as an effector of the enzyme, causing a decrease inK_m and an increase in V_max through protein-proteininteraction at a 1:1 ratio. Further, it appeared that, while IAAdoes not affect by itself the kinetic parameters of theH⁺-ATPase, the auxin exerts its effect via thereceptor, biphasically regulating the efficiency of the effectormolecule probably by inducing two-phase conformational changes thatinvolve IAA binding to two separate binding sites. It was also foundthat other active auxins examined, such as indole-3-propionic acid,1-naphthalene acetic acid and 2,4-dichlorophenoxyacetic acid, do notwork together with the receptor to elicit the same response of theH⁺-ATPase as seen with IAA.     

Receptor-like cytokinin-binding protein(s) from barley leaves

Purified fractions of soluble proteins from barley leaves have been shown to contain specific binding sites fortrans-zeatin, a natural cytokinin. Such binding is very strong in vitro in concentrated solutions of some salts (ammonium sulfate or potassium phosphate) with optimum at pH 7–8 and temperature within the range 0–20°C. The cytokinin-binding sites have high affinity for zeatin (K_d1.5·10^–8 M) and low capacity corresponding to 1–1.5 pmol zeatin per milligram of initial soluble protein. Cytokinin binding is reversible; it is due to protein (or proteins) with molecular weight 40–45 kDa. This protein(s) does not bind³H-adenine and³H-abscisic acid. The ability of various compounds to displace³H-zeatin from its high-affinity binding sites is in strict accordance with their biological cytokinin activities. Other phytohormones as well as fusicoccin do not displace³H-zeatin from its binding sites. Specific zeatin binding is sensitive to heat, alkali, and pronase, but not to RNase treatment. The 150- to 200-fold purification of cytokinin-binding proteins was achieved by a combination of ammonium sulfate precipitation and Ultrogel AcA-54- and DEAE-cellulose chromatography. The zeatin-binding protein(s) from barley leaves is suggested to take part in cytokinin action in vivo.     

Estrogen interaction with the anterior pituitary of female rats differential cytosol binding, nuclear translocation and stimulation of RNA synthesis by 17β-estradiol and tamoxifen

The interaction of tamoxifen (trans-1-(p-β-dimethylaminoethoxyphenyl)-1,2-diphenylbut-1-ene) with the cytosol estrogen receptor of the anterior pituitary of female rats was studied. No differences were recorded between incubations of cytosol samples with 17β-[³H]estradiol performed in the presence or absence of unlabeled 17β-estradiol and tamoxifen, respectively, thus suggesting that these interactions were at common receptor sites and excluding possible cooperative interactions. Competition experiments and Scatchard plot analysis of saturation experiments add further evidence for common receptor sites. A dissociation constant for tamoxifen of K_d = 2 nM was recorded. Tamoxifen was found to be bound to a moiety sedimenting in the 4–5 S region, on a 6–24% linear sucrose density gradient at low salt concentrations, whereas 17β-estradiol sedimented in the 8–9 S area. These data suggest possible conformational changes of the receptor in the presence of tamoxifen. Furthermore, nuclear estrogen receptor levels remained elevated for at least 80 h after the application of tamoxifen alone or in a combination with 17β-estradiol, and a concomitant inhibition of cytosol receptor replenishment was noted. Tamoxifen and 17β-estradiol, respectively, were found to stimulate progesterone receptor levels when applied through 5 days. Tamoxifen plus 17β-estradiol administration elevated progesterone receptor contents above those found for each of the two compounds alone. On the other hand, tamoxifen enhanced the 17β-estradiol-induced prolactin serum levels, but did not stimulate prolactin serum levels by itself. These data combine to suggest that tamoxifen interacts with common estrogen receptor sites at the rat anterior pituitary.     

Progestin binding in mammary tissue of prepartum,nonlactating and postpartum,lactating cows

Binding of [³H]R5020 (17,21-dimethyl-19-nor-4,9-pregnadiene-3, 20-dione) to bovine mammary cytosol indicated the presence of progestin binding sites of high-affinity and low-capacity in tissue from prepartum, nonlactating and from postpartum, lactating cows. To prevent binding of [³H]R5020 to glucocorticoid binding sites, a 200-fold molar excess of nonradioactive cortisol was included during all incubations, thus specific binding was limited to progestin binding sites. Nonradioactive R5020 and progesterone effectively inhibited [³H]R5020 binding to progestin binding sites, while estradiol-17β, dihydrotestosterone (17β-hydroxy-5α-androstan-3-one), dexamethasone (9-fluoro-11β, 17, 21-trihydroxy-16α-methyl-1,4-pregnadiene-3,20-dione) or additional cortisol were ineffective. Dissociation constants for specifically bound [³H]R5020 in cytosol from mammary tissue of nonlactating and lactating cows were nearly identical, averaging 1.9 ( ± 0.3) and 0.8( ± 0.2) × 10?⁹M, respectively. However, binding capacities (fmol/mg cytosolic protein) were greater in cytosol from prepartum, nonlactating (179 ± 53) than postpartum, lactating (41 ± 15) cows. Specific binding components in cytosol from lactating cows sedimented in the 6-7S region on linear sucrose density gradients. When subjected to isoelectric focusing, specific binders with isoelectric points (pI) of approximately 6.1, 7.9 and 8.3 were resolved. The decrease in number of binding sites during lactation was due to the virtual absence of the anionic binding species, suggesting that their presence is necessary for progesterone to inhibit milk secretion.     

Effect of PT-treatment on ANP-mediated inhibition of adenylate cyclase and amylase release in rat parotid gland

Effects of pertussis toxin (PT) treatment on atrial natriuretic peptide (ANP)-mediated inhibition of adenylate cyclase and amylase release were investigated in rat parotid gland. Adenylate cyclase activity stimulated by GTPS in PT-treated membranes was much larger than that in normal membranes. ANP dose-dependently inhibited adenylate cyclase stimulated by GTPS in control rat parotid membranes, however in membranes prepared from PT-injected (in vivo) rat parotid gland, ANP did not inhibit adenylate cyclase. ANP(10^–7M) inhibited cAMP accumulation stimulated by forskolin (10^–6M) in control rat parotid acinar cells by about 34%, however, in PT-treated cells, the inhibitory effect of ANP was attenuated completely. In control cells, amylase release stimulated by isoproterenol (10^–6M) and forskolin (10^–6M) were also depressed by ANP (10^–7M) by 27 and 30%, respectively. The inhibitory response of ANP on amylase release was completely attenuated by PT-treatment. Gi was detected as a ADP-ribosylated 41-KDa protein by incubation of parotid membranes with PT and [-³²P]NAD. In rat parotid gland, these results suggested that ANP mediates adenylate cyclase/cAMP system and consequently reduces amylase release through ANP-C receptor coupled to Gi. (Mol Cell Biochem)139: 53–58, 1994)     

Increased insulin receptor binding in erythrocytes from growth hormone-deficient children

Erythrocytes from growth hormone-deficient children (GHd-children) (n=10) showed a statistically significant increase in insulin binding at low unlabeled insulin concentrations, together with a threefold decrease in apparent receptor affinity, as compared to control children (C) (n=11). Scatchard analysis of the binding data using the two-site model revealed that both the receptor concentration R₁ [GHd-children 0.10±0.01 ng/ml and C 0.03±0.002 ng/ml] and the dissociation constant K_D1 [GHd-children (0.48±0.05)×10^–9M and C (0.19±0.01)×10^–9M] for high affinitylow capacity sites were significantly increased in erythrocytes from GHd-children, while neither receptor concentrations (R₂) nor the dissociation constant (K_D2) for low affinity-high capacity sites proved to be altered. These events were accompanied by a normal sensitivity to insulin as well as glucose tolerance in the GHd-group. The meaning of the increased insulin binding with normal insulin sensitivity in GH-deficiency is discussed.     

Neurochemical,pharmacological, and developmental studies on cerebellar receptors for dicarboxylic amino acids

Specific binding ofl-[³H]glutamate ([³H]Glu) andl-[³H]asparate ([³H]Asp) to cerebellar membranes represented a time-, temperature- pH- and protein-dependent interaction which was both saturable and reversible. Binding sites for both radioligands appeared maximally enriched in synaptosomal fractions isolated by gradient centrifugation. Kinetically derived dissociation constant (K _off/K _on=K _d) for [³H]Glu binding to this fraction indicated high-affinity (443 nM). Competition experiments employing analogs of excitatory amino acids, including new antagonists, helped identify binding sites for [³H]Glu and [³H]Asp as receptors with differential pharmacological, specificities. Membrane freezing reduced numbers of both receptor types, but binding activity could be recovered partially by incubation at 37°C. Glu receptors exhibited a pronounced deleterious sensitivity to thiol modifying reagents andl-Glu (50–1000 M) provided protection, against these compounds during co-incubation with cerebellar membranes. It is suggested that cold storage may induce partially reversible receptor inactivation by promoting sulfhydryl group/bond modification. Rat cerebellar glutamatergic function (endogenous Glu content, Glu uptake and receptor sites) exhibited an apparent ontogenetic peak between days 8–12 postpartum with a plateauing profile from day 30 to adulthood. The accelerated development (days 8–12) coincides with the first demonstrable Glu release and kainic acid neurotoxicity, as described previously.     

Competition of Mn2+ and Zn2+ with59Fe2+ and59Fe3+ for the plasma membrane receptors from lactating mouse mammary gland

Nonlabeled MnCl₂ and ZnSO₄ compete with⁵⁹Fe²⁺-ascorbate and⁵⁹Fe ₂ ³⁺ O₃ for transport binding sites situated on the plasma membranes of lactating mouse mammary gland cells. The binding was found to be a process reaching saturation. The heterologous competition used here ruled out the participation of transferrin and to propose that Fe, Mn, and Zn are transported from blood to milk by a mechanism involving one receptor during lactation. Further experiments are necessary to establish the details of the transport mechanism.     

Specific binding protein for 1,25-dihydroxyvitamin D3 in bovine mammary gland

Specific binding proteins for 1,25-dihydroxyvitamin D₃ were identified in bovine mammary tissue obtained from lactating and non-lactating mammary glands by sucrose density gradient centrifugation. The macromolecules had characteristic sedimentation coefficients of 3.5-3.7 S. The interaction of l,25-dihydroxy[³H]vitamin D₃ with the macromolecule of the mammary gland cytosol occurred at low concentrations, was saturable, and was a high affinity interaction (K_d = 4.2 × 10^?10M at 25 °C). Binding was reversed by excess unlabeled 1,25-dihydroxyvitamin D₃, was destroyed by heat and/or incubation with trypsin. It is thus inferred that this macromolecule is protein as it is not destroyed by ribonuclease or deoxyribonuclease. 25-hydroxyvitamin D₃, 24,25-dihydroxyvitamin D₃, and vitamin D₃ did not effectively compete with 1,25-dihydroxyvitamin D₃ for binding to cytosol of mammary tissue at near physiological concentrations of these analogs, thus demonstrating the specificity of the binding protein for 1,25-dihydroxyvitamin D₃. In vitro subcellular distribution of 1,25-dihydroxy[³H]vitamin D₃ demonstrated a time- and temperature-dependent movement of the hormone from the cytoplasm to the nucleus. By 90 min at 25 °C 72% of the 1,25-dihydroxy[³H]vitamin D₃ was associated with the nucleus. In addition a 5–6 S macromolecule which binds 25-hydroxy[³H]vitamin D₃ was demonstrated in mammary tissue. Finally, it is possible that the receptor-hormone complex present in mammary tissue may function in a manner analogous to intestinal tissue, resulting in the control of calcium transport by 1,25-dihydroxyvitamin D₃ in this tissue.