Pasteur effect in the in vitro vascularly perfused rat small intestine

Isolated small intestine perfused in vitro with media with low oxygen concentration was found to contain low levels of ATP when compared with rat small intestine in vivo. The addition of fluorocarbon FC 75 to an erythrocyte-free perfusion medium was found to result in a high phosphate potential and a low rate of lactate production from glucose in isolated perfused small intestine, resembling the in vivo condition. This allowed the demonstration of a Pasteur effect in that replacement of oxygen by nitrogen (or the addition of 2,4-dinitrophenol) led to a rapid increase of the rate of glycolysis, and a decrease of the ATP concentration in the tissue     

Tissue selective action of tamoxifen methiodide, raloxifene and tamoxifen on creatine kinase B activity in vitro and in vivo

We have compared the cell and tissue selective estrogenic and antiestrogenic activities of tamoxifen, raloxifene, ICI 164,384 and a permanently ionized derivative of tamoxifen — tamoxifen methiodide (TMI). This non-steroidal antiestrogen has limited ability to cross the blood brain barrier and is therefore less likely to cause the central nervous system disturbances caused by tamoxifen. We have used the stimulation of the specific activity of the “estrogen induced protein”, creatine kinase BB, as a response marker in bone, cartilage, uterine and adipose cells and in rat skeletal tissues, uterus and mesometrial adipose tissue. In vitro, TMI, tamoxifen and raloxifene mimicked the agonistic action of 17β-estradiol in ROS 17/2.8 rat osteogenic osteosarcoma, female calvaria, and SaOS₂ human osteoblast cells. In Ishikawa endometrial cancer cells, tamoxifen showed reduced agonistic effects and raloxifene showed no stimulation. However, as antagonists, tamoxifen and raloxifene were equally effective in Ishikawa or SaOS₂ cells. In immature rats, all four of the antiestrogens inhibited estrogen action in diaphysis, epiphysis, uterus and mesometrial adipose tissue; when administered alone, tamoxifen stimulated creatine kinase (CK) specific activity in all these tissues. Raloxifene and TMI, however, stimulated only the skeletal tissues and had no stimulatory effect in the uterus or mesometrial fat, and the pure antiestrogen ICI 164,384 showed no stimulatory effect in any of the tissues. The simultaneous injection of estrogen, plus an antiestrogen which acted as an agonist, resulted in lower CK activity than after injection of either agent alone. These differential effects, in vivo and in vitro, may point the way to a wider therapeutic choice of an appropriate antiestrogen which, although antagonizing E₂ action in mammary cancer, can still protect against osteoporosis and cardiovascular disease and not stimulate the uterus with its attendant undesirable changes, or interfere with the beneficial action of E₂ in the brain.     

The effects of in vivo and in vitro non-enzymatic glycosylation and glycoxidation on physico-chemical properties of haemoglobin in control and diabetic patients

The erythrocyte deformability, which is related to erythrocyte internal viscosity, was suggested to depend upon the physico-chemical properties of haemoglobin. In the present study we employed ESR spectroscopy in order to explore further the extent to which the in vivo or in vitro glycation and/or glycoxidation might affect haemoglobin structure and conformation. We revealed that under both in vivo and in vitro conditions the attachment of glucose induced a mobilization of thiol groups in the selected domains of haemoglobin molecules (the increased h₊₁/h₀ parameter of maleimide spin label, MSL; 0.377 ± 0.021 in diabetics vs 0.338 ± 0.017 in controls, n = 12, P < 0.0001). The relative rotational correlation time (τ_c) of two spin labels, TEMPONE and TEMPAMINE, respectively, in erythrocyte insides (5.22 ± 0.42 in diabetics, n = 21 vs 4.79 ± 0.38, n = 16 in controls, P < 0.005) and in the solutions of in vitro glycated haemoglobin, were increased. Neither oxidation nor crosslinking of thiol groups was evidenced in glycated and/or oxidized haemoglobin. In addition, erythrocyte deformability was found to be reduced in type 2 diabetic patients (6.71 ± 1.08, n = 28 vs 7.31 ± 0.96, n = 21, P < 0.015). In conclusion, these observations suggest that: the attachment of glucose to haemoglobin might have decreased the mobility of the Lys-adjacent Cys residues, thus leading to the increased h₊₁/h₀ parameter of MSL. Such structural changes in haemoglobin owing to non-enzymatic glycosylation may contribute to the increased viscosity of haemoglobin solutions (r = 0.497, P < 0.0035) and the enhanced internal viscosity of diabetic erythrocytes (r = 0.503, P < 0.003). We argue that such changes in haemoglobin, and consequently in red blood cells, might contribute to the handicapped oxygen release under tissue hypoxia in the diabetic state.     

Highly selective inhibition of estrogen biosynthesis by CGS 20267, a new non-steroidal aromatase inhibitor

CGS 20267 is a new non-steroidal compound which potently inhibits aromatase in vitro (IC₅₀ of 11.5 nM) and in vivo (ED₅₀ of 1–3 μg/kg p.o.). CGS 20267 maximally inhibits estradiol production in vitro in LH-stimulated hamster ovarian tissue at 0.1 μM with an IC₅₀ of 0.02 μM and does not significantly affect progesterone production up to 350 μM. In ACTH-stimulated rat adrenal tissue in vitro, aldosterone production was inhibited with an IC₅₀ of 210 μM (10,000 times higher than the IC₅₀ for estradiol production); no significant effect on corticosterone production was seen at 350 μM. In vivo, in ACTH-treated rats, CGS 20267 does not affect plasma levels of corticosterone or aldosterone at a dose of 4 mg/kg p.o. (1000 times higher than the ED₅₀ for aromatase inhibition in vivo). In adult female rats, a 14-day treatment with 1 mg/kg p.o. daily, completely interrupts ovarian cyclicity and suppresses uterine weight to that seen 14 days after ovariectomy. In adult female rats bearing estrogen-dependent DMBA-induced mammary tumors, 0.1 mg/kg p.o. given daily for 42 days caused almost complete regression of tumors present at the start of treatment. Thus compared to each other, CGS 16949A and CGS 20267 are both highly potent in inhibiting estrogen biosynthesis in vitro and in vivo. The striking difference between them is that unlike CGS 16949A, CGS 20267 does not affect adrenal steroidogenesis in vitro or in vivo, at concentrations and doses several orders of magnitude higher than those required to inhibit estrogen biosynthesis.     

Vitamin D: A modulator of cell proliferation and differentiation

1,25-Dihydroxyvitamin D₃, [1,25(OH)₂D₃], the biologically most active metabolite of vitamin D₃, is involved in the regulation of calcium homeostasis and bone metabolism. Recently, receptors for 1,25(OH)₂D₃ have also been shown in cells and tissues not directly related to calcium homeostasis. Experimental data obtained with leukemic and cancer cell lines, both in vitro and in vivo, showed the effects of 1,25(OH)₂D₃ on cell differentiation and proliferation. However, high doses of the sterol have to be used to observe these effects. Additional studies are needed to establish whether 1,25(OH)₂D₃ or suitable analogues have a therapeutic potential in malignant diseases without unacceptable toxicity like the development of hypercalcemia.     

A mechanism for heterogeneous endothelial responses to flow in vivo and in vitro

Exposure of endothelium to a nominally uniform flow field in vivo and in vitrofrequently results in a heterogeneous distribution of individual cell responses. Extremes in response levels are often noted in neighboring cells. Such variations are important for the spatial interpretation of vascular responses to flow and for an understanding of mechanotransduction mechanisms at the level of single cells. We propose that variations of local forces defined by the cell surface geometry contribute to these differences. Atomic force microscopy measurements of cell surface topography in living endothelium both in vitro and in situ combined with computational fluid dynamics demonstrated large cell-to-cell variations in the distribution of flow-generated shear stresses at the endothelial luminal surface. The distribution of forces throughout the surface of individual cells of the monolayer was also found to vary considerably and to be defined by the surface geometry. We conclude that the endothelial three-dimensional surface geometry defines the detailed distribution of shear stresses and gradients at the single cell level, and that there are large variations in force magnitude and distribution between neighboring cells. The measurements support a topographic basis for differential endothelial responses to flow observed in vivo and in vitro. Included in these studies are the first preliminary measurements of the living endothelial cell surface in an intact artery.     

RU 58668: Further in vitro and in vivo pharmacological data related to its antitumoral activity

Previous studies with the pure antiestrogen RU 58668 showed that this compound proved to be highly antiproliferative in vitro, and to be the only antiestrogenic compound so far known to induce long-term regression of MCF-7 tumours implanted into nude mice. In order to obtain more insight into the therapeutic potential of this molecule, we performed a new set of experiments in vitro and in vivo in comparison with tamoxifen and/or ICI 182,780. In vitro, 1 nM RU 58668 induced an accumulation of MCF-7 cells in G0/G1 phases of the cell cycle within 48 h and, in contrast to trans-4-hydroxy-tamoxifen, blocked the invasiveness of ras-transfected MCF-7 cells into the chick embryo heart during the three weeks of co-culture. An in vivo dose-effect relationship study showed that RU 58668 induced a regression of MCF-7 tumour with as low a dose as 10 mg/kg/week, and that such an effect can not be obtained either with a sublethal dose of adriamycin or with ICI 182,780, (2–250 mg/kg/week). This reduction in the tumour volumes accords with histological modifications of the tumours, which showed a decrease in the ratio of epithelial cells over the tumoral mass, and with a concomitant decrease in their regrowth potential when reimplanted into naive nude mice. Taken together, these results suggest a promising usefulness for RU 58668 in the treatment of metastatic breast cancer in women.     

Aromatic guanyl hydrazones: Synthesis, structural studies and in vitro activity against Trypanosoma cruzi

A series of 22 aromatic guanyl hydrazones, prepared by condensation of several aldehydes with aminoguanidine hydrochloride, were fully characterized by NMR techniques and tested in vitro against the trypomastigote form of Trypanosoma cruzi, the causative agent of Chagas disease. Most of the compounds, especially those without hydrogen bonding groups and possessing ortho-substitution, were significantly more active than crystal violet (ID₅₀ 536 μM). The most active compound has an ID₅₀ value of 17 μM (25 times more potent than gentian violet).     

Effects of progestagens and Org OD14 in in vitro and in vivo tumor models

Sex steroids, in particular estradiol (E2) and progesterone (P4), play, together with other hormones and growth factors, a role in the development of normal breast tissue. The effect of four progestagens (norethisterone, 3-ketodesogestrel, gestodene and P4) and Org OD14, a steroid with weak estrogenic, progestagenic and androgenic properties were studied on growth of breast tumor cells in vitro using two subclones of MCF-7 (H and A) and T47D (S and A) cells. In addition, we investigated the effects of 3-ketodesogestrel, gestodene and Org OD14 on the growth of 7,12-dimethyl-benz(a)anthracene(DMBA)-induced mammary tumors in rats. In the in vitro assays with MCF-7 cells norethisterone, 3-ketodesogestrel and gestodene stimulated growth only at high doses (10⁻⁷ M), whereas P4 had no effect. Gestodene was more potent than 3-ketodesogestrel and norethisterone. Org OD14, stimulated cell growth at a dose of 10⁻⁸ M, while E2 is active at 10⁻¹⁰ M. In T47D-A cells similar effects were found, but the subclone S did not respond to the progestagens and Org OD14. The two T47D subclones also reacted differently to progestagens during growth stimulation with E2. In T47D-S the progestagens and Org OD14 inhibited, while in T47D-A these compounds did not modulate the effect of E2. In the DMBA model we found that gestodene and 3-ketodesogestrel were able to inhibit tumor growth to the same extent. Surprisingly, Org OD14 was even more effective in the DMBA model using the therapeutic approach. Using the prophylaxic approach tumor development was delayed and tumor growth was strongly suppressed. The inhibitory effects of Org OD14 on tumor growth in the DMBA model may be attributed to its mixed hormonal profile. From these studies we conclude that different cell lines and even subclones thereof respond quite differently to steroids. Both in vitro and in vivo studies are required to judge whether synthetic steroids might be involved in an increased risk for the development of breast tumors.     

The effect of in vivo heat treatments on blowfly flight muscle mitochondrial function: Effects on partial reactions of the respiratory chain

1. 1. The development of thermotolerance has been shown to protect blowfly flight muscle mitochondrial function from damage resulting from an LD₅₀ in vivo heat dose.

2. 2. The principal sites of the damage have been studied using specific inhibitors of the respiratory chain, rotenone and antimycin A, together with substrates that stimulate respiration through the different complexes.

3. 3. Complex I was identified as the primary site for heat damage. State III respiration was inhibited following the LD₅₀ in vivo heat dose, and uncoupling with FCCP did not restore respiration to control levels, indicating that the respiratory enzymes were inactivated. The development of thermotolerance protected this site from heat damage.

4. 4. In contrast, G3-P stimulated respiration was the same in control, LD₅₀ in vivo treated controls and LD₅₀, in vivo treated thermotolerant mitochondria, and significantly higher than state III respiration of LD₅₀ in vivo treated controls. This suggested that respiration through G3-P dehydrogenase, Co enzyme Q and Complex III is not damaged. However, as G3-P stimulated respiration of coupled mitochondria from LD₅₀ in-vivo treated flies was markedly reduced (El-Wadawi and Bowler, 1995. J. exp. Biol. 198: 2413–2421), phosphorylation at complex III may be inhibited also.

5. 5. Ferrocyanide stimulated respiration through cytochrome c-Complex IV was also inhibited in LD₅₀ in vivo treated flies, as compared with unheated control mitochondria. However, thermotolerance protected this site also from heat damage.

     

Expression of the A12 form of acetylcholinesterase by developing avian leg muscle cells in vivo and during differentiation in primary cell cultures

The accumulation of the molecular forms of acetylcholinesterase (AChE) has been studied in leg muscles during embryonic chick development and in cell cultures initiated with myoblasts obtained from embryos at different stages of development. The collagen-tailed, A₁₂ form appears in leg muscles as soon as day 5 in ovo. An early excision of the lumbar zone of the neural tube at day 2 1/2 in ovo severely delayed the morphological development. In leg muscles dissected at day 12 in ovo from operated embryos, we found that the total amount of AChE activity and particularly the proportion of A₁₂ form were dramatically reduced.

Muscle cells were grown in vitro in a medium supplemented with fetal calf serum. In these conditions, chick muscle cells unequivocally synthesize the A₁₂ form when they originated from muscles which accumulated this form in vivo. In contrast, myoblasts obtained from 5-day old embryo leg muscles did not produce the A₁₂ form either in aneural cultures or in the presence of nerve cells. In relation with previous observations concerning chick myogenesis, we discuss the possibility that this difference reflects the existence of two types of myoblasts. This hypothesis would also explain the results of cocultures performed with nerve cells and normal or demedullated leg muscle myoblasts.     

Hemoglobin and iron-evoked oxidative stress in the brain: protection by bile pigments, manganese and S-nitrosoglutathione

In the present in vitro and in vivo study we investigated the pro-oxidant effects of hemoglobin, as well as the antioxidant effects of its metabolites, in the brain. Incubation of rat brain homogenates with hemoglobin (0-10 μM) but not hemin induced lipid peroxidation up to 24 h (EC₅₀ = 1.2 μM). Hemoglobin's effects were similar to ferrous ion (EC₅₀ = 1.7 μM) and were blocked by the chelating agent deferoxamine (IC₅₀ = 0.5 μM) and a nitric oxide-releasing compound S-nitrosoglutathione (IC₅₀ = 40 μM). However, metabolites of hemoglobin — biliverdin and bilirubin — inhibited brain lipid peroxidation induced by cell disruption and hemoglobin (biliverdin IC₅₀ = 12-30 and bilirubin IC₅₀ = 75-170 μM). Biliverdin's antioxidative effects in spontaneous and iron-evoked lipid peroxidation were further augmented by maganese (2 μM) since manganese is an antioxidative transition metal and conjugates with bile pigments. Intrastriatal infusion of hemoglobin (0-24 nmol) produced slight, but significant 20-22% decreases in striatal dopamine levels. Whereas, intrastriatal infusion of ferrous citrate (0-24 nmol) dose-dependently induced a greater 66% depletion of striatal dopamine which was preceded by an acute increase of lipid peroxidation. In conclusion, contrary to the in vitro results hemoglobin is far less neurotoxic than ferrous ions in the brain. It is speculated that hemoglobin may be partially detoxified by heme oxygenase and biliverdin reductase to its antioxidative metabolites in the brain. However, in head trauma and stroke, massive bleeding could significantly produce iron-mediated oxidative stress and neurodegeneration which could be minimized by endogenous antioxidants such as biliverdin, bilirubin, manganese and S-nitrosoglutathione.     

Relative stability of chlorophyll complexes in vivo

The time course of aerobic photobleaching of various chlorophyll-protein complexes in vivo at high light intensities was studied with isolated Aspidistra elatior chloroplasts.

1. 1. C_a680 bleaching starts with the onset of irradiation and, initially, proceeds linearly with time. Washing the chloroplasts causes a nearly constant increase of the bleaching rate throughout the experiment.

2. 2. C_a670 does not appreciably, if at all, bleach initially; subsequently, bleaching proceeds linearly with time and at a slightly higher rate than that for C_a680. Washing makes C_a670 bleach concomitantly with the onset of illumination, and at a nearly constant rate.

3. 3. Bleaching at 665 nm is likely to start only after a relatively long period of illumination. Washing shows no effects during this period. Once bleaching has started, washing causes its rate to increase.

4. 4. No indication of the occurrence of “short-wave” chlorophyll a forms other than C_a670 and C_a665 was obtained.

5. 5. C_b bleaching starts concomitantly with illumination at a low rate. The rate increases more or less exponentially with time. Washing enhances bleaching in two steps.

6. 6. The importance of the results is discussed.

Regulation of proliferation of rat cartilage and bone by sex steroid hormones

We have demonstrated previously that 17β-estradiol (E₂) stimulates proliferation of skeletal tissues, both in vivo and in vitro, as measured by increased DNA synthesis and creatine kinase (CK) specific activity. The effect of E₂ on bone is sex specific. E₂ is active only in females and androgens only in males. By contrast, in cartilage of both sexes, dihydrotestosterone (DHT) as well as E₂ stimulates CK specific activity and DNA synthesis. In bone, we find that sex steroids stimulate skeletal cell proliferation in gonadectomized as well as in immature rats. Ovariectomized (OVX) rats, between 1 and 4 weeks after surgery, show stimulation of CK by E₂. The basal activity and response of CK changes with the varying endogenous levels of E₂ in cycling rats, in which the highest basal activity is at proestrus and estrus and the highest response is in diestrus. In rats of all ages tested, both the basal and stimulated specific activity of CK is higher in diaphysis and epiphysis than in the uterus, or in the adipose tissue adjacent to the uterus, which has a response similar to that of the uterus itself. The effect of E₂ in vivo, and in chrondroblasts and osteoblasts in vitro, is inhibited by high levels of the antiestrogen tamoxifen which, by itself, in similar high concentrations, shows stimulatory effects. In addition to the sex steroids, skeletal cells are also stimulated by secosteroid and peptide calciotrophic hormones. The interactions of the sex steroids and the other calciotrophic hormones. These results provide the first steps towards understanding the regulation of bone cell proliferation and growth by the concerted action of a variety of hormones and growth factors.     

Synthesis of bicyclic thiazolidine PAF antagonists

PAF antagonist 1 is susceptible to thiazolidine ring fragmentation in vitro and in vivo. The search for a more stable compound prompted the synthesis of a series of bicyclic analogs. Three classes of bicyclic thiazolidines (2: X = 0, CH₂, NCH₃) were prepared using a common synthetic pathway which generated all the possible diastereomers. The most potent PAF antagonists were the oxygen-substituted analogs which possessed receptor binding affinities largely dependent on stereochemistry.     

A Monoclonal Antibody to Oestradiol Potentiates the Stimulation of the Specific Activity of the Brain Type Creatine Kinase by Oestrogen in vivo and in vitro

We described previously the in vivo immunoneutralization effects of a high affinity anti-oestradiol antibody clone 15 in blocking ovulation and synaptic remodeling in cycling female rats. In the present study we report the enhancing effects of this antibody. Treatment of ovariectomized female rats or female derived skeletal cell cultures in vitro with anti-E₂ 15 plus oestrogen (E₂) potentiated the specific activity of the brain type creatine kinase (CK) response to E₂ in the rat tissues or skeletal cells. The enhancing CK response of anti E₂ 15 plus E₂ was time- and dose-dependent in the uterus, thymus, epiphysis and diaphysis of ovariectomized female rats. In the pituitary, on the other hand, anti-E₂ 15 blocked the stimulatory CK response to E₂. Two other high affinity anti-E₂ anti-bodies, clones 8D₉ and 11B₆, had no effect in augmenting the response of CK to E₂ in rat tissues. Moreover, the enhancing CK response in rat tissues was specific to anti-E₂ 15 plus E₂ since the intact anti-E₂ in the presence of other oestrogen mimetics, such as oestriol or stilbestrol or tamoxifen did not potentiate the CK response in rat tissues. In this model system the Fab' monomer of anti-E₂ 15 abolished the CK response to E₂ in rat tissues and not to anti-E₂ 15 plus E₂ whereas tamoxifen completely blocked the CK response to anti E₂ plus E₂. Anti E₂ 15 may therefore serve as a specific carrier in delivering E₂ to oestrogen sensitive rat tissues or cells containing functional oestrogen receptors and thereby increasing the magnitude of E₂ effects in vivo and in vitro.     

Age-dependent responsiveness of rabbit and human cartilage cells to sex steroids in vitro

Rabbit epiphyseal carilage tissue has been shown to convert testosterone (T) to dihydrotestosterone (DHT). In this report, the metabolic conversion of T into DHT is shown to be age-dependent, being most active in cartilage from animal at the age of gonadal maturation. Human cartilage from newborn and prepubertal children is also shown to convert T into DHT and—to a lesser extent—to estradiol.

Low concentrations of DHT and 17β-estradiol (E₂) (10⁻¹¹−10⁻⁹ M) were also shown to stimulate in vitro cartilage cells from boys and girls respectively. As previously shown for cultured rabbit chondrocytes, the stimulating effects of both hormones on human chondrocytes was age-dependent. Cartilage cells derived from children up to one year old did not respond, while cells from boys and girls in the early phase of puberty responded best.

These data indicate that human cartilage tissue in vivo, contains both 5-reductase and aromatase activities during post-natal skeletal growth. Androgens may act on cartilage after their metabolic conversion to estrogens. The mechanism of age-dependency of both cartilage androgen enzymatic activities and chondrocyte responsiveness to sex steroids in vitro remains to be explained.     

Specific effect of manganese on the allantoinase of Vigna Radiata

Vigna radiata seedlings germinated in the presence of Mn²⁺ show an unusual increase in allantoinase activity which is proportional to Mn²⁺ concentration up to 5 mM. Though Mn²⁺ is not an activator for V. radiata allantoinase, it specifically protects allantoinase against thermal as well as papain-catalysed inactivation. Evidence is presented to show that the primary effect of Mn²⁺ is a protective one, both in vitro and in vivo, and that this is reflected in the observed enhancement of allantoinase activity in Mn²⁺ grown seedlings. That this unusual effect of Mn²⁺ is a specific one is indicated by the lack of a similar effect with Mg²⁺. Cu²⁺ is shown to destabilize V. radiata allantoinase in vitro as well as in vivo.     

Immunomodulatory actions of 1,25-Dihydroxyvitamin D3

The sterol, 1,25-dihydroxyvitamin D₃ (1,25(OH)₂D₃), has immunosuppressive activity. The hormone inhibits the production of lymphokines (IL-2, IFN-γ) and monocyte-derived cytokine (IL-12) leading to inhibition of helper T cell subset type 1 (Th₁). When given in vivo, the hormone prevents the development of spontaneous and induced models of autoimmunity. Analogs of 1,25(OH)₂D₃, with reduced hypercalcemic effects, display an enhanced activity in autoimmunity compared to the sterol and prolong graft survival in experimental transplantation. This paper reviews our understanding of the cellular actions of the hormone and the therapeutic application of 1,25(OH)₂D₃ and analogs in autoimmunity and transplantation.     

Peripheral oxytocin treatment modulates central dopamine transmission in the mouse limbic structures

The effects of subcutaneous (s.c.) oxytocin treatment have been investigated on various parameters of dopaminergic neurotransmission in basal forebrain structures (nucleus olfactorius posterior + nucleus accumbens + septum) of the mouse. Acute oxytocin treatment failed to influence dopamine utilization in the basal forebrain. Following chronic injections of oxytocin (0.2 mg/kg) for 8 8 days, the neuropeptide decreased dopamine utilization. Neither in vivo nor in vitro oxytocin treatment was capable of influencing the in vitro uptake of [³H]dopamine in basal forebrain slices. The spontaneous release of [³H]dopamine (in the presence of 4.2 mM K⁺) from basal forebrain tissue slices was not affected by in vitro or acute or chronic in vivo oxytocin treatment. The stimulated release of [³H]dopamine (in the presence of 30 mM K⁺) was significantly inhibited by chronic in vivo oxytocin administration. Chronic oxytocin treatment decreased the B_max value of [³H]spiroperidol binding in the basal forebrain. The dissociation constant (K_d) of [³H]spiroperidol binding was not influenced by oxytocin. The data indicate that peripheral oxytocin treatment is capable of modifying dopaminergic neurotransmission in mouse basal forebrain regions.