The control of pigment migration in isolated erythrophores of Holocentrus ascensionis (Osbeck). II. The role of calcium

The integumental pigment cells (erythrophores) of the squirrel fish, Holocentrus ascensionis, are specialized for rapid radial transport of the pigment granules contained within their cytoplasm. Pigment granules in isolated denervated erythrophores alternate spontaneously between a centrally aggregated state and a radially dispersed state. In the absence of external calcium, pigment aggregation does not occur spontaneously and cannot be induced by the aggregating agents epinephrine or high concentration of external K+. Pigment aggregation is also impaired in the presence of D600 or papaverine, compounds reported to antagonize calcium influx into the cell. Pigment aggregation can be induced by experimental elevation of the concentration of cytoplasmic free Ca2+, with a Ca-EGTA buffer system in conjunction with ionophore A23187. The threshold concentration of Ca2+ required to produce this effect is 5 X 10(-6) M. These results suggest that cytoplasmic free Ca2+ is involved in mediating pigment aggregation and that some, if not all, the Ca2+ is supplied by influx from the extracellular space.     

Direct effects of visible and UVA light on pigment migration in erythrophores of Nile tilapia

Erythrophores derived from Nile tilapia (Oreochromis niloticus) are sensitive to visible light of defined wavelengths in primary culture in the same manner as erythrophores in the skin. Cultured erythrophores aggregate their pigment in response to light with peak wavelengths near 400 or 600 nm, while dispersion is caused by light near 500 nm. In this study, we report that ultraviolet A (UVA) with a peak wavelength near 365 nm also induces pigment aggregation in erythrophores in the skin and in primary culture. The responses of erythrophores in the skin or in culture depend on the light intensity, although the photo-sensitivity differs among individual cells. From the results, we conclude that the action of visible light and UVA light on tilapia erythrophores is direct, and that multiple types of visual pigments may coexist in individual erythrophores.     

Energy requirements for biosynthesis of DNA in Escherichia coli. Role of membrane-bound energy-transducing ATPase (coupling factor).

A mutant of Escherichia coli missing energy-transducing ATPase and known to be defective in a variety of membrane functions from earlier studies (Yamamoto, T. H., Mével-Ninio, M. and Valentine, R. C. (1973) Biochim. Biophys. Acta 314, 267-275; Thipayathasana, P. and Valentine, R. C. (1974) Biochim. Biophys. Acta 347, 464-468; Mével-Ninio, M. and Yamamoto, T. (1974) Biochim. Biophys. Acta 357, 63-66) has been found to be blocked for anaerobic DNA synthesis. The rate of anaerobic DNA synthesis in the mutant, measured as radioactive adenine incorporation into the alkali-resistant fraction of whole cells, is about 1/6 the rate of DNA synthesis in the wild type culture under similar conditions. Addition of NO-3- or O-2 restores DNA biosynthesis in the mutant. The entry of radioactive adenine is not appreciably affected in the mutant by anaerobiosis. It is concluded that coupling factor plays a role in some step(s) of DNA biosynthesis.     

The effects of histamine on leukocyte migration test in man. I. Demonstration of a LIF production inhibitor (LIF-PI).

The inhibition by BCG of leukocyte migration was abolished by histamine in human donors with a positive tuberculin skin test. This effect was related to two mechanisms: a direct stimulation of polynuclear cell migration by histamine, and the production of a LIF production-inhibiting soluble factor (LIF-PI) by nylon-adherent T lymphocytes with receptors for histamine. This factor was not dialyzable, had a molecular weight below 50,000, and was absorbed on aggregated human immunoglobulins. Cells which produced this factor behaved as suppressors of the in vitro human delayed hypersensitivity reaction.     

Ultrastructure of the chromatophores of Palaemon affinis Heilprin (crustacea: decapoda). The structural basis of pigment migration

The relationships between pigment granules and the prominent smooth endoplasmic reticulum in the chromatophores of the shrimp, Palaemon affinis Heilprin, were investigated by transmission electron microscopy. Different types of pigment granules within the chromatophores were found to exhibit a close structural continuity with the cisternal membranes. The membranes of membrane-bound pigment granules were seen to be continuous with those of the ER cisternae, while pigment granules lacking membranes appear to adhere to the external cisternal surfaces. The reticulum, which seems to form a network enmeshing the pigment granules, is proposed to be part of a continuum linking these granules with their translocating force.     

Transformations in the structure of the cytoplasmic ground substance in erythrophores during pigment aggregation and dispersion. I. A study using whole-cell preparations in stereo high voltage electron microscopy

Pigment migration in cultured erythrophores of the squirrel fish Holocentrus ascensionis, after manipulation with K+, epinephrine, 3',5'- dibutyryl cyclic adenosine monophosphate, theophylline, and caffeine, is essentially identical to that observed in this chromatophore in situ. For such observations, the erythrophores are dissociated from the scales with hyaluronidase and collagenase, and allowed to spread on an amorphous collagen substrate, where they resemble the discoid erythrophore in situ. In this state, they are readily fixed by glutaraldehyde and osmium tetroxide, and are then critical-point dried for whole-cell viewing in the high voltage electron microscope. The organization and fine structure of the erythrophore cytoplast was stereoscopically examined after fixation of the pigment granules in four experimental states: pigment dispersed, pigment aggregated, pigment aggregating, and pigment dispersing. In the dispersed cell, granules are contained in an extensive three-dimensional lattice composed of radially oriented microtubules and a network of fine filaments 3-6 nm in diameter (microtrabeculae), whereas in the aggregated cell, the microtrabecular system is absent, and the majority of the microtubules appear displaced into the cortices on the cytoplasmic surface of the plasma membrane. In cells fixed while aggregating, few microtrabeculae are observed, although formless thickenings are observed in the cortices, on granules, and between clumped granules. In dispersing cells, the microtrabecular system is reformed from material stored in the cortices and with the granules in the centrosphere. These observations suggest that the granules are suspended in a dynamic microtrabecular system that withdraws during pigment aggregation and is restructured during pigment dispersion. The microtubules guide linear granule motion not by defining physical channels, but by a recognizable affinity of microtubules, microtrabeculae, and granules for one another.     

Antineoplaston A in cancer therapy. (I).

Twenty-one patients with advanced cancer or leukemia were treated with antineoplaston A and followed for up to nine months. Dosage by intravenous, intramuscular, subcutaneous, rectal, intrapleural, intravesical and/or topical administration ranged from 0.6 to 33 U/m2/24 h. Treatment was well tolerated, although side effects included fever of short duration and elevation of platelet and white blood count. In 18 cases some degree of clinical improvement was observed. Complete remission occurred in 4 cases. More than 50% remission occurred in 4 other cases which, along with another 6 cases, are continuing the treatment with high doses of antineoplaston A and show a continuing regression of the tumors although not yet achieving the criteria for complete remission; 2 of these 6 cases seem unlikely to achieve remission. Two patients temporarily discontinued treatment. During treatment, 5 patients expired; in 2 of them, however, was seen significant regression of the neoplastic process. The deaths were not due to cancer or to any toxicity incurred by the treatment.     

Structure of poly (I).poly (A).poly (I)

The molecular structure of poly (I).poly (A).poly (I) has been determined and refined using the continuous intensity data on layer lines in the x-ray diffraction pattern obtained from an oriented fiber of this polymorphic RNA complex. The polymer forms a 12-fold right-handed triple-helix of pitch 39.7A and each base-triplet is stabilized by quasi Crick-Watson-Hoogsteen hydrogen bonds. The ribose rings in all the three strands have C3'-endo conformations. The final R-value for this best structure is 0.24 and the x-ray fit is significantly superior to all the alternative structures where the different chains might have different furanose conformations. This all-purine triple-helix, counter-intuitively, has a diameter roughly 3A shorter than that of DNA and RNA triple-helices containing a homopurine and two complementary homopyrimidine strands. Its compact, grooveless cylindrical shape is consistent with the lack of lateral organization.     

The opisthonephros of Rana esculenta (Anura). I. Nephron development

The development of opisthonephric nephrons in Rana esculenta generally follows the vertebrate scheme: mesenchymal cells from a blastemal cap that develops into an epitheloid, a comma-shaped, then an S-shaped body. The S-shaped body stage is followed by nephron stages I–IV. A standard pattern of nephrogenesis is maintained up to nephron stage I. In later stages (nephron stages II–IV) the arrangement of tubule loops and the position of the renal corpuscle depends on the space available in the kidney. As in mammals, anuran nephrogenesis is determined by coordinated differentiation processes: (1) induction, (2) cell polarization and proliferation, (3) morphogenetic processes, and, finally, 4) segmentation. It is further supported by growth processes of renal blood vessel analagen adjoining the nephron analoge. Ingrowth of glomerular capillary sprouts into the capsule analage is important for glomerulogenesis and differentiation of the adhesive zone. © 1995 Wiley-Liss, Inc.     

Antioxidants from Lespedeza homoloba. (I).

The stems of Lespedeza homoloba yielded eight new and three known phenolic compounds. Their structures have been elucidated on the basis of their spectral data. These compounds had strong antioxidative activity against lipid peroxidation in the rat brain homogenate test. 3,9-Dihydroxypterocarp-6a-en and lespedezol A2 showed significant antiallergic activity in allergic (type I) mice.     

Variation in Mentha arvensis L. (Labiatae). I. The North American populations

Most North American populations of Mentha arvensis differ from those in Europe in leaf and calyx characters, but the extremes of variation overlap. However the former have a diploid chromosome number of 96 and the latter 72. The North American populations are morphologically very variable and much of this variation is genotypic. However, none of it is discrete and, as it shows little geographic or ecological coherence, taxonomic recognition appears undesirable.
The following chemical races based on essential oil composition, occur in North America:
Type 1–high in pulegone, isomenthone and menthone.
Type 2–high in linalool, cfr-ocimene and trans-ocimene.
Type 3–high in cw-isopulegone and fnmi-isopulegone.
Type 4–high in cis- and trans-ocimene and in 1,8-cineol.
These four chemotypes are not correlated with any of the morphological variations. The recognition of chemical races is discussed and it is concluded that where possible they should be based on diagnostic components, rather than on quantitative differences or the mere presence or absence of given compounds. The literature relating to biosynthesis and essential oil composition in Mentha arvensis is reviewed.