Human lactiferous mammary gland cells produce vascular endothelial growth factor (VEGF) and express the VEGF receptors,Flt-1 AND KDR/Flk-1

Human milk contains a variety of growth factors. Recently, it was reported that vascular endothelial growth factor (VEGF) was one of them. We investigated milk VEGF isoforms, their functions, and VEGF receptors on mammary gland epithelial cells (MEC). The VEGF concentration in human milk was 74.3+/-34.9ng/ml on the first day after delivery, and rapidly decreased in a couple of days to 6.2+/-2.3ng/ml on the fifth day, and matured milk maintained about 4ng/ml. In an MTT assay, human milk accelerated HUVEC proliferation and MV303, a neutralizing antibody of VEGF, blocked 17.3 % of the effect. Immunoprecipitation and Western blotting showed that VEGF121 and VEGF165 were contained in human colostrums, and RT-PCR of human MEC confirmed that VEGF121, VEGF165 and VEGF189 were present. By immunostaining of human breast tissues, RT-PCR of MEC from human colostrum and measurement of the VEGF concentrations of conditioned media of cultured human MEC, it was confirmed that VEGF was produced by MEC. MEC was also expressed VEGF receptors, flt-1 and Flk-1/KDR. These results speculate us that the existence of autocrine or paracrine system within breast tissue via VEGF receptors on MEC and have a role in lactation.     

The internal and external protein scaffold of the T-tubular system in cardiomyocytes

The transverse tubule system of the cardiomyocyte remains undeformed despite the extreme forces it undergoes during the contraction-relaxation cycle, but the morphological basis for its stability remains unclear. Therefore, we have investigated the architecture and subcellular protein scaffold of the cardiac T-tubules and compared it with that of the costameres and of the free sarcolemma. Tissue samples from normal rat and monkey hearts, and left ventricular tissue from normal and cardiomyopathic human hearts obtained at transplantation surgery were investigated using immunocytochemistry and confocal microscopy and by electron microscopy. In addition, we used a re-differentiation model of isolated, cultured adult rat cardiomyocytes. The cell membrane of the cardiac T-tubules was found to contain the cell-matrix focal adhesion molecules (FAMs) vinculin, talin, the α₅β₁ integrin and the membrane-associated proteins (MAPs) dystrophin and spectrin. FAMs and MAPs were localized in the T-tubular membrane in a similar pattern: in longitudinally oriented myocytes as transverse punctate lines at the Z-level; in transversally cut myocytes a radial tubular network was found to extend throughout the interior of the cell. Immunolabeling for basement membrane components including collagen IV, fibronectin and laminin showed a colocalization with FAMs and MAPs parallel to the transverse T-tubules. The costameres of the sarcolemma showed a protein composition resembling that of the T-tubules but the intervening segments of free sarcolemma showed absence of FAMs and presence of MAPs. For the first time, we demonstrate the existence and protein composition of the T-tubular scaffold in the human heart. Furthermore, we show that cardiomyocytes from human failing hearts have less abundant but more dilated T-tubules than do experimental animals. These results indicate that the cardiac T-tubular system contains a subcellular scaffold closely resembling that of the costameres. It consists of FAMs, MAPs and basal lamina proteins that confer structural integrity to the cardiac T-tubular membrane during contraction/relaxation cycles.     

Nature and distribution of chondroitin sulphate and dermatan sulphate proteoglycans in rabbit alveolar bone

Summary The type and distribution of mineral binding and collagenous matrix-associated chondroitin sulphate and dermatan sulphate proteoglycans in rabbit alveolar bone were studied biochemically and immunocytochemically, using three monoclonal antibodies (mAb 2B6, 3B3, and 1B5). The antibodies specifically recognize oligosaccharide stubs that remain attached to the core protein after enzymatic digestion of proteoglycans and identify epitopes in chondroitin 4-sulphate and dermatan sulphate; chondroitin 6-sulphate and unsulphated chondroitin; and unsulphated chondroitin, respectively. In addition, mAb 2B6 detects chondroitin 4-sulphate with chondroitinase ACII pre-treatment, and dermatan sulphate with chondroitinase B pre-treatment. Bone proteins were extracted from fresh specimens with a three-step extraction procedure: 4m guanidine HCl (G-1 extract), 0.4m EDTA (E-extract), followed by guanidine HCl (G-2 extract), to characterize mineral binding and collagenous matrix associated proteoglycans in E- and G2-extracts, respectively. Biochemical results using Western blot analysis of SDS-polyacrylamide gel electrophoresis of E- and G2-extracts demonstrated that mineral binding proteoglycans contain chondroitin 4-sulphate, chondroitin 6-sulphate, and dermatan sulphate, whereas collagenous matrix associated proteoglycans showed a predominance of dermatan sulphate with a trace of chondroitin 4-sulphate and no detectable chondroitin 6-sulphate or unsulphated chondroitin. Immunocytochemistry showed that staining associated with the mineral phase was limited to the walls of osteocytic lacunae and bone canaliculi, whereas staining associated with the matrix phase was seen on and between collagen fibrils in the remainder of the bone matrix. These results indicate that mineral binding proteoglycans having chondroitin 4-sulphate, dermatan sulphate, and chondroitin 6-sulphate were localized preferentially in the walls of the lacunocanalicular system, whereas collagenous associated dermatan sulphate proteoglycans were distributed over the remainder of the bone matrix.     

Oscillating activity of a calcium-activated K+ channel in normal and cancerous mammary cells in culture

Summary Calcium-activated potassium channels were the channels most frequently observed in primary cultured normal mammary cell and in the established mammary tumor cell, MMT060562. In both cells, single-channel and whole-cell clamp recordings sometimes showed slow oscillations of the Ca²⁺-gated K⁺ current. The characteristics of the Ca²⁺-activated K⁺ channels in normal and cancerous mammary cells were quite similar. The slope conductances changed from 8 to 70 pS depending on the mode of recording and the ionic composition in the patch electrode. The open probability of this channel increased between 0.1 to 1 m of the intracellular Ca²⁺, but it was independent of the membrane potential.Charybdotoxin reduced the activity of the Ca²⁺-activated K⁺ channel and the oscillation of the membrane current, but apamin had no apparent effect. The application of tetraethylammonium (TEA) from outside and BaCl₂ from inside of the cell diminished the activity of the channel. The properties of this channel were different from those of both the large conductance (BK or MAXI K) and small conductance (SK) type Ca²⁺-activated K⁺ channels.     

Reconstitution of dopamine-sensitive adenylate cyclase from dissociated components in canine caudate nucleus

The catalytic component of adenylate cyclase and [${}^3\text{H}$]dopamine binding protein were solubilized with 2% Lubrol PX in the presence of NaF from the synaptic membranes of canine caudate nucleus and were separated into distinct fractions by gel exclusion chromatography on a Sephadex G-200 column. The dissociated adenylate cyclase was no longer responsive to dopamine but was considerably stimulated by 10 mm NaF. Dissociated [${}^3\text{H}$]-dopamine binding protein possessed the apparent dissociation constant of 3.2 μm for dopamine, almost identical to that of the particulate preparations. The affinities of [${}^3\text{H}$]-dopamine binding protein to catecholamines and neuroleptics were also very similar to those of particulate preparations. After the adenylate cyclase and [${}^3\text{H}$]dopamine binding protein were preincubated together at 4 °C for 30 min, the cyclase activity displayed a dose-dependent increase by dopamine with the K_a of 1.6 μm, the concentration of dopamine to stimulate half-maximally. Stimulation of the reconstituted adenylate cyclase by dopamine was maximally 2.7-fold and was strongly inhibited by neuroleptics such as chlorpromazine and haloperidol. These results suggest that [${}^3\text{H}$]dopamine binding protein is identical to the regulatory subunit of dopamine-sensitive adenylate cyclase in the synaptic membranes of canine caudate nucleus.     

Characterization of beta-adrenergic receptor and adenylate cyclase in canine cerebellum.

Binding of (?)-[${}^3\text{H}$]dihydroalprenolol to the synaptic membrane fractions of canine cerebellum was rapid and reversible with rate constants of 1.62 × 10⁸m^?1 min^?1 and 0.189 min^?1 for the forward and reverse reactions, respectively. The binding was of high affinity and saturable with an equilibrium dissociation constant (K_D) of 5 to 7 nm. Bound (?)-[${}^3\text{H}$]-dihydroalprenolol was displaceable with β-adrenergic agonists and antagonists, but not with a variety of other neuroactive substances such as acetylcholine, histamine, serotonin, dopamine, tyramine, (?)-phenylephrine, γ-aminobutyric acid, glycine, and glutamic acid. Adenylate cyclase of the membranes was stimulated at most three times by β-adrenergic agonists, but not significantly by the other neuroactive substances. Guanine nucleotides such as GTP and guanyl-5′-yl imidodiphosphate (Gpp(NH)p) were strictly required for β-adrenergic stimulation of adenylate cyclase with their optimum concentrations of 50 μm, although the nucleotides alone elevated virtually no basal activity. The affinities of β-adrenergic ligands including some stereoisomers for (?)-[${}^3\text{H}$]dihydroalprenolol binding sites were very similar to those for adenylate cyclase in the presence of GTP. Binding of β-adrenergic agonists to the membranes exhibited an apparent negative cooperativity as determined by displacement of (?)-[${}^3\text{H}$]dihydroalprenolol in the absence of purine nucleotides. This negative cooperativity was entirely abolished by addition of either GTP or Gpp(NH)p at 50 μm. Both (?)-isoproterenol-stimulated adenylate cyclase activity and binding of (?)-[${}^3\text{H}$]dihydroalprenolol were not affected by β₁-selective antagonists, (±)-atenolol, and (±)-practolol, at concentrations which completely inhibit peripheral β₁-responses in vitro, whereas β₂-selective agonists such as YM-08316 (BD-40A) and (±)-salbutamol not only stimulated adenylate cyclase but also competitively inhibited binding of (?)-[${}^3\text{H}$]dihydroalprenolol. These results indicate that canine cerebellar adenylate cyclase may be coupled specifically with β₂-adrenergic receptor.     

Myxobolus spirosulcatus n. sp. (Myxosporea,Bivalvulida) infecting the bile duct of the yellowtail Seriola quinqueradiata from Japan

Myxobolus spirosulcatus n. sp. (Myxosporea: Bivalvulida), infecting the cultured yellowtail Seriola quinqueradiata, is described. M. spirosulcatus n. sp. was found in the bile duct of yellowtails collected in the southern part of Japan during June 1990. The plasmodium of the new species has various shapes and contains a vegetative form plus maturing and mature spores. Mature spores, on average, measure 8.9 m in length, 7.8 m in width and 6.7 m in thickness. The unique morphological characteristics of the new species are spiral furrows in the peripheral part of the spore valves.     

Defence tactics cycle with diel microhabitat choice and body temperature in the desert locust,Schistocerca gregaria

We examined environmental factors influencing plasticity in antipredator defences of adult gregarious desert locusts, Schistocerca gregaria, including daily cycles in temperature, light, microhabitat occupied and predator threat. In the Sahara Desert in Mauritania, West Africa, daily temperature fluctuated widely from below locusts’ cold thermal limits for jump‐ and flight‐defence, to above their preferred body temperature. Locusts changed microhabitats throughout the 24‐hr period in synchrony with the daily thermo‐photocycle. They roosted in tall trees and large bushes at night, moved to the ground in the morning, shaded under or in small bushes and annuals at midday, moved back to the ground in the afternoon and then returned to night roosting sites around dusk. Locust antipredator defences varied throughout the 24‐hr period, and these changes were correlated with temperature, photocycle and habitat. Flight escape was associated with daytime, high temperatures and the ground habitat. Dropping escape (= releasing hold of vegetation and dropping to the ground or into vegetation) was associated with cool temperatures and low‐to‐medium sized bushes. Stationary behaviour was associated with the tree microhabitat and height off the ground. Roosting (a primary defence) was associated with cool temperatures at night and early morning, tree habitats and nocturnal ground‐foraging times of endothermic mammals. In summary, we propose that temperature is the key factor in determining both changing microhabitat choice and changing antipredator defence, due to thermal constraints on locust muscle for this ectothermic insect. The thermocycle also influences temporal predator loads, which influence the evolution of locust diel defence strategies. These various environmental factors not only influence one another, they also interact to influence antipredator defence expression in locusts. Overall, our study suggests that plasticity in locust antipredator defences is a complicated matter mediated by the interactions of multiple environmental factors and physiological and ecological constraints and trade‐offs.