Characterization of messenger RNA populations of Crithidia fasciculata

Cells of Crithidia fasciculata taken from exponentially growing cultures display a relatively high content of poly(A) RNA (roughly 45% of the total) in a nonpolysomal compartment. The proportion of this fraction is significantly higher than that of the free ribosomal units. This RNA is translationally competent and is indistinguishable from polysomal mRNA by various criteria. The significance of these findings is discussed with respect to the protein synthesis capability of the cell and the metabolic relationships between the cytoplasmic compartments of mRNA.     

Antiproliferative effect of interferon on a Burkitt''s lymphoma cell line

The effect of interferon (IF) on the growth of a Burkitt's lymphoma cell line was analysed. The degree of depression of cell doublings was the same if the cells were in a steady state mode of exponential growth or in a resting state (G0) when IF was added. As IF had a lag time of 24 h before decreased growth could be observed, cells in G0 did not seem to be more sensitive when growth was estimated by cell counts expressed as cell doublings. IF inhibited cells to proceed into the cell cycle and the possibility that IF may increase the escape into a G0 loop is discussed.     

A glycoprotein involved in aggregation of D. discoideum is distributed on the cell surface in a nonrandom fashion favoring cell junctions

We studied the distribution on the cell surface of a glycoprotein (gp150) involved in the aggregation process of Dictyostelium discoideum. Using immunohemocyanin labeling of intact aggregates and visualization by scanning electron microscopy (SEM), we found a distribution gradient of gp150 wherein the concentration was enriched at or near sites of cell contact. When the distribution of gp150 on the cell surface was examined with immunoferritin and transmission electron microscopy (TEM), we found that gp150 was closely associated with the plasma membrane.     

On the mechanism of erythroid cell sensitivity to chloramphenicol: Studies on mitochondria isolated from erythroid and myeloid tumors

Erythroleukemia mitochondria (E. Mito) and chloroma mitochondria (C. Mito) were isolated from tumors grown in their hosts, DBA/2J mice and Long-Evans rats, respectively. Oxypolarographic tests showed respiratory control and ADP/O ratios typical for well-coupled mitochondria. Therapeutic concentration of chloramphenicol (CAP) had no effect on the energy transfer of those mitochondria. l-[¹⁴C]leucine incorporation into protein was comparable in both types of mitochondria. Although the incorporation at 15 min appeared higher in C. Mito, at 60 min it became similar to that in E. Mito. When CAP was used at the therapeutic concentration of 20 μg/ml about 80% inhibition was observed in both mitochondria. The exogenous amino acid mixture added to the medium was an important determinant in both the rate of leucine incorporation as well as the sensitivity to CAP. Thus, if no amino acids were added the incorporation was reduced to 18–25%. Under these conditions, however E. Mito were significantly more sensitive to the same concentration of CAP than C. Mito. The results suggest that mitochondrial amino acid pool may be involved in the greater sensitivity of erythroid precursors to CAP.     

Temperature sensitivity of muscle and neuron differentiation in embryonic cell cultures from the Drosophila mutant, shibire.

The sex-linked temperature-sensitive mutation, shibire^ts1, which causes, at the restrictive temperature, adult paralysis and pleiotropic morphological defects in embryonic, larval, and pupal development, has been shown to exhibit temperature-sensitive inhibition of differentiation in embryonic cultures in vitro. When shi cultures were incubated at 30°C for 24 hr, both muscle and neuron differentiation were inhibited more than 90% compared to control shi cultures incubated at 20°C. Heat shift experiments showed that the temperature-sensitive periods for neuron and muscle differentiation occurred at 11 to 18 and 14 to 16 hr, respectively, where zero time was the initiation of gastrulation in donor embryos. Short heat pulses (4 and 8 hr) which extended into the temperature-sensitive period resulted in moderate inhibition of differentiation; greater inhibition occurred as the duration of the pulses increased. In contrast, heating wild-type Oregon-R cultures at 30°C for 24 hr did not inhibit muscle cell differentiation and inhibited neuron differentiation relatively little. The temperature-sensitive period in shibire for muscle differentiation occurred well after myoblast division, during the period of myocyte elongation, aggregation, and fusion, whereas that for neuron differentiation took place during a period of enzyme synthesis (acetylcholinesterase and choline acetyltransferase) and axon elongation. Thus, the shi temperature-sensitive gene product affects at least two different cell types, in vitro, at different times during differentiation.     

Purification of dog VIP from a single animal

VIP, a potent vasodilator peptide, is reported to be identical in pig, cow, human and rat but to differ in four amino acids in chicken. This report describes the purification of dog VIP from the small intestine of a single animal. The purification method is based on tissue extraction with a sequence of organic solvents. The extracted VIP is concentrated onto cation-exchange cellulose and brought to purity by three HPLC steps. A 30% final yield of pure VIP was obtained from the original extract. Dog VIP was found to have the following sequence: His-Ser-Asp-Ala-Val-Phe-Thr-Asp-Asn-Tyr-Thr-Arg-Leu-Arg-Lys-Gln-Met-Ala -Val-Lys-Lys-Tyr-Leu-Asn-Ser-Ile-Leu-Asn. Thus the amino acid sequence of dog VIP is identical with all the mammalian VIP's which have been reported. This suggests that a high degree of conservation throughout the molecule may be required for VIP bioactivity.     

The mechanism of cell elongation during lens fiber cell differentiation

Lens fiber formation is characterized by extensive cell elongation. Earlier studies have shown that lens cell elongation in vitro can occur in the absence of microtubules and is associated with a proportional increase in cell volume. We have previously suggested that lens fiber cell elongation is directly caused by an increase in cell volume. In this report, lenses from 3- and 6-day-old chicken embryos were three-dimensionally reconstructed from serial sections to provide a measure of cell volume and length during various stages of primary and secondary lens fiber formation. In both cases, cell volume was highly correlated with cell length during lens cell elongation. In addition, during primary lens fiber formation, large intercellular spaces between lens vesicle cells disappeared as these cells began to elongate to form lens fibers. Loss of intercellular spaces would be expected if increasing cell volume were responsible for cell elongation. Finally, results of experiments in which the lens capsule was cut with a fine tungsten needle suggested that the capsule was elastic and normally under tension. These findings were used to formulate a model which accounts for the major events in lens morphogenesis based on (1) the regulation of cell volume, (2) the junctions present between lens cells, and (3) the constraint provided by the elasticity of the lens capsule.     

Source and target cell specificities of a conditioned medium factor that increases choline acetyltransferase activity in cultured spinal cord cells

A macromolecular factor(s) in muscle conditioned medium (CM), when applied to spinal cord (SC) cells in culture, causes large increases in the activity of choline acetyltransferase (CAT), the enzyme which synthesizes the neurotransmitter acetylcholine. We have found apparent specificity of both species and cell type for the production, release, or action of this CAT stimulation component (CSC). Rat and mouse muscle CMs contained CSC which was active in mouse SC cells; chick muscle CM did not. In addition to muscle CM, the CM from cell cultures of mouse heart, liver, and kidney contained CSC. However, CM from secondary cultures of liver cells contained little if any CSC. These apparent specificities were not due to differences in the protein content of either the cells providing CM or of the CM itself. There was also apparent specificity of response to CSC among cholinergic cells in culture. Cultures of cells from only two of four regions of the mouse central nervous system, and from one of five neuronal cell lines tested, had increased CAT activity after treatment with muscle CM. The response in NG108-15 neuroblastoma-glioma hybrid cells was further characterized, and was used to develop a more convenient and rapid assay for CSC.     

Thyrotropin-releasing hormone and a homologous peptide in the reproductive system of the female rat and pig

TRH and a TRH homologous peptide have been shown to occur throughout the female rat and pig reproductive systems by TRH radioimmunoassay, SP-Sephadex C-25 cation exchange chromatography, and parallel line analysis of the assays. The total amount of TRH and TRH homologous peptide immunoreactivity was highest in the oviducts followed by the ovary and then uterus. The concentration of TRH immunoreactivity in all reproductive organs of the rat fell gradually from one month of age. TRH and the TRH homologous peptide were not parallel on serial dilution and measurement in the same TRH radioimmunoassay. The rapid degradation of TRH by pig follicular fluid may explain the higher measured concentration of TRH homologous peptide compared to TRH not only in pig follicular fluid but also in the pig ovary as a whole.     

Analysing the changing cell cycle

Details of the new methods of analysis of chain folding characterization of proteins proposed earlier (Srinivasan, Balasubramanian &; Rajan, 1975) and their application to six proteins are presented. Results pertaining to the angles θ and δ are presented.     

Critical photoperiod and daylength threshold differences between northern and southern populations of the butterfly Limenitis archippus

Laboratory studies show that different photoperiods induce diapause in northern (Vermont) and southern (Maryland) larval strains of the butterfly Limenitis archippus. The northern strain responds to $\text{1}\text{2}\text{hr}$ longer photoperiod thresholds and critical ranges than does the southern one. These responses are correlated with geographic differences in the ambient photoperiod of the two localities. In this facultative diapausing species, third instar larvae construct hibernacula within the basal portions of tubular leaves spun with silk, when daylength approaches either 13·5 hr (Vermont strain) or 13·0 hr (Maryland strain). When reared in total darkness some larvae develop directly to fourth inszar without diapause, although mortality is high. Among both strains different broods exhibit different incidences of diapause. Reciprocal inter-strain hybrids show intermediate diapause responses, suggesting that larval diapause is under the control of multiple genes.     

The multicomponent nature of teratoma cell adhesion factor

The multicomponent nature of teratoma cell adhesion factor has been demonstrated. Fractionation of crude ascites fluid on a DEAE cellulose ion exchange column shows that two or more components are involved in teratoma adhesion factor (TAF) activity. Glycoproteins (or proteoglycans) in fractionated ascites fluid were localized in polyacrylamide gels. The possible role of these sugar-containing molecules in teratoma cell adhesion and current hypotheses on the mechanism of carbohydrate involvement in intercellular adhesion are discussed.     

Neural cell sequestration on immunoaffinity columns

An important approach to the separation of neural cells into homotypic and still viable subpopulations is to sequester selected cell classes on immobilized ligands specifically recognized by surface constituents of those cells. A category of ligands of general applicability to this problem is provided by antibodies directed to neural cell surface antigens. This report describes an immunoaffinity chromatography system in which chick embryonal spinal cord cells are retained on columns containing immune globulin against the cord cells, while they are allowed to pass through when the globulin used is not immunocompetent. Among the procedures described are: selection of the cell-chromatography matrix, small-scale fractionation of immune sera, titration on monolayer cultures of the complement-dependent cytotoxicity of immune globulin, and covalent coupling of normal or immune globulin to the chromatography matrix.     

Bioautography of cell attachment proteins.

A simple method, termed bioautography, is described which permits the visualization of bands of biologically active collagen-dependent cell attachment protein (c-CAP) after gel electrophoresis. The principle of bioautography depends on the “staining” of electrophoretically separated c-CAP's by live mammalian cells. Bioautography demonstrates (a) two bands of cell attachment protein (c-CAP) in serum; and (b) electrophoretic mobility differences between c-CAP's derived from the sera of various mammalian species.     

Isolation of iron-containing superoxide dismutase from Bacteroides fragilis: reconstitution as a Mn-containing enzyme

Superoxide dismutase from the anaerobe Bacteroides fragilis has been purified to apparent homogeneity. The protein, Mr 42,000, is a dimer of equally sized subunits joined by noncovalent interactions. Metal analysis of the native enzyme revealed 1.8-1.9 g-atoms Fe, 0.2 g-atoms Zn, and less than 0.05 g-atoms Mn per mole dimer in a preparation whose specific activity was 1200 U/mg. Exposure of the enzyme to guanidinium chloride plus 8-hydroxyquinoline (T. Kirby, J. Blum, I. Kahane, and I. Fridovich, 1980, Arch. Biochem. Biophys. 201, 551-555) resulted in complete loss of enzymatic activity. Activity could be restored by dialysis of the denatured apoprotein against Tris buffer containing either ferrous ammonium sulfate or manganous chloride. The Fe-reconstituted enzyme was inhibited by 1 mM azide and inactivated by H2O2 in a manner similar to the native enzyme. Mn-reconstituted enzyme was inhibited by azide but resisted inactivation by H2O2 comparable to other purified manganese-containing superoxide dismutases. The manganese reconstituted protein contained approximately 1 gm-atom Mn/mol dimer. Zn ion potently inhibited reconstitution of the denatured apoprotein by either Mn or Fe and bound to the protein with a stoichiometry of 2-3 g-atoms/mol dimer.     

Atriopeptins: a family of potent biologically active peptides derived from mammalian atria

Extracts of rat atria are potent stimulators of sodium and urine excretion, and relax vascular and intestinal smooth muscle preparations. The structures of six biologically active peptides obtained from atrial extracts are reported here. Ion exchange chromatography of a low molecular weight fraction obtained by gel filtration of atrial extracts produced two natriuretic fractions: the first induced relaxation of intestinal smooth muscle strips only, whereas the second also relaxed vascular strips as well. From the first fraction four pure biologically active peptides obtained by reverse phase HPLC have been sequenced: the 21 amino acid peptide, designated atriopeptin I, and three homologs (des- ser1 -, des- ser1 -ser2-, and des- ser21 - atriopeptin I). From the second fraction two pure biologically active peptides were obtained, which had C-terminal extensions of atriopeptin I: atriopeptins II (23 amino acid residues) and III (24 residues), having respectively phe-arg and phe-arg-tyr C-termini. These results suggest that this family of six peptides, sharing the same 17 membered ring formed by an internal cystine disulfide, is derived from a common high molecular weight precursor.     

Synthesis and quantitation of glucitollysine, a glycosylated amino acid elevated in proteins from diabetics

A conceptually simple method of vertical gel electrophoresis is presented. It involves the use of pliable plastic envelopes to house individual gels and their constituent buffer reservoirs and electrical systems completely submersed in coolant separate from other gels. In conjunction with a common cooling tank this envelope technique provides unusual versatility for running a variety of different type gels simultaneously.     

Stimulatory cells in the generation of T-cell-mediated cytotoxicity: Potent stimulating activity of a small radioresistant spleen cell population (RSCs)

The combined effects of irradiation followed by cultivation on a total spleen cell population in order to study the evolution of the stimulating potential in the in vitro generation of allogeneic cytotoxic T lymphocytes (CTLs) were tested. Results revealed that, after 3 days and up to at least 7 days of cultivating irradiated (1000 rad) spleen cells, the remaining living cells (radioresistant spleen cells or RSC) have the same potential to generate CTLs as irradiated noncultivated spleen cells. RSC can resist a 5000-rad irradiation and induce a primary cytotoxic response pattern similar to that of total spleen cells; they act in primary as well as in secondary cultures with optimal responder to RSC ratios of about 100, but are still stimulatory at MLC ratios up to 1000 or 5000. They are lysed by specific allogeneic CTLs and readily inhibit the specific lysis of H-2-identical labeled targets by CTLs. RSCs do not express unusual levels of H-2 or Ia antigens and do stimulate purified T cells. Alloantisera anti-H-2 are able to completely block the RSC-induced generation of CTL. This RSC population may prove to be a good model to study non-H-2- or H-2-associated, nonserologically detectable determinants interacting in the generation of T-cell-mediated cytotoxicity.