Prenatal exposure to androgen influences morphology and aggressive behavior of male and female mice

To assess the effects of prenatal exposure to androgen on adult aggressiveness in mice, pregnant mice were given injections of 1.5 mg testosterone propionate (TP) or oil from Days 12 to 16 of pregnancy. All offspring were gonadectomized on the day of birth. Neonatal treatment occurred on the day following birth and consisted of one-half of the animals from each prenatal treatment group being injected with 100 μg TP while the other half were injected with oil, yielding four Prenatal/Neonatal treatment groups for each sex. On postnatal Day 60, all offspring were given subcutaneous implants of encapsulated testosterone (T) and tested for 10 min every other day against a male opponent until aggression was observed. Female offspring of TP-treated mothers were indistinguishable from males on external examination at birth. The duration of exposure to T required to induce aggression provides an index of the sensitivity of the neural substrate to T. When arranged from the most sensitive to the least sensitive to the aggression inducing action of T, the four Prenatal/Neonatal treatment groups of females were significantly different from each other: Group TP/TP > Group OIL/TP > Group TP/OIL > Group OIL/OIL. A similar pattern was observed for the male offspring. There were no differences in the proportion of animals per group that exhibited aggression (virtually all animals fought) or the intensity of aggression once exhibited. The results demonstrate that morphological and behavioral masculinization can occur in response to exposure to androgen during prenatal as well as neonatal life in mice.     

Functional consequences of ligand-linked dissociation in hemoglobin from the sea cucumber molpadia arenicola

It has been established that Molpadia hemoglobin tends to dissociate into subunits as oxygen is bound. The kinetics and equilibria of carbon monoxide and ehtylisocyanide binding reported here show a dependence on protein concentration that supports the conclusions that the aggregated hemoglobin has a lower ligand affinity than the dissociated subunits. This is true for the isolated D-chain as well as for the unfractionated hemolysate that contains four distinct polypeptide chains (A-D). This indicates that even homopolymers of Molpadia hemoglobin have lower ligand affinity than the dissociated subunits. At high protein concentration hemolysates of Molpadia hemoglobin show slight cooperativity. The time course of ligand binding to the deoxy D-chain also suggests cooperative interactions, The low affinity of the aggregated state may have a different molecular explanation than in human hemoglobin were tetramers of identical subunits (as in Hb H) show high oxygen affinity. The absence of tyrosine and histidine at the C-tremini of the Molpadia D-chains also suggests a different stabilization of the low affinity deoxy state. An additional functional difference between Molpadia hemoglobin and human hemoglobin is that organic phosphate do not alter the ligand affinity of the sea cucumber hemoglobin.     

Development of the chick embryo mesoblast. Formation of the embryonic axis and establishment of the metameric pattern

The mesoblast of the primary organizer region of the developing chick embryo at the early head process stage was examined with the scanning electron microscope. It was found that the mesoblast layer is patterned from its inception at the primitive streak. Viewed dorsally, the mesoblast region most recently traversed by Hensen's node is metameric. Each segment consists of two 175-μm-diameter circular buttons of paraxial mesoblast (somitomeres) and an enclosed axial region. These tripartite segments are stacked tandemly and mark precisely, in the ectoderm above, the limit of neural plate formation. Viewed ventrally, the metameric pattern of the mesoblast is most closely mimicked by underlying endoblast, which shows corresponding radially arranged wedge-shaped cells in somitomere-sized circular patches. At this stage of development, each paraxial somitomere is a slightly hollowed, squat cylinder, composed of tapering mesenchymal cells whose long axes are directed toward the core center. Closely timed with neurulation, somitomeres undergo morphogenesis, being first converted to triangular wedges and, finally, condensed into cubes. Anteriorly, somitomeres participate in branchiomeric development, while posteriorly, they develop into somites. Examination of segmental plates shows that they consist of about 11 tandem somitomeres not visible by light microscopy. The most mature somitomeres, closest to the emerging somites, are delineated from one another by cellular orientations and the progressive buildup of fibrous extracellular matrix. The least mature somitomeres are not as well defined, but appear initially just posterior to Hensen's node and merge medially with the notochordal process. The observations suggest that the emergence of somitomeres from the paraxial mesoblast of the primitive streak is the result of its association with nodal cells. Further, this combined association of the mesoblast heralds primary induction and establishes the metameric pattern of the basic body plan.     

Hydrodynamic properties of rat hepatic prolactin receptors

The hydrodynamic properties of rat hepatic prolactin receptors have been determined by a combination of gel chromatography and ultracentrifugation. Prolactin receptors were detergent extracted from partially purified plasma membranes prepared from female rat livers. Fifteen different nonionic detergents were tested for solubilizing prolactin receptors, including Triton X-100, Polyoxyethylene W-1, Lubrol WX, detergents of the Tween and Brij series, and digitonin. When the receptors were detergent solubilized after ligand was bound to the receptor, 1% Triton X-100 had the highest efficacy of solubilization. However, if the receptors were solubilized prior to exposure to ligand, maximum binding was to receptors solubilized with 0.25% Triton X-100. The K_d of 43.2–74.5 pM for binding to the soluble receptor was three to fivefold lower than the K_d for the membrane receptor. Gel chromatography (Bio-Gel A-1.5m, 2.5 × 50 cm) of the soluble receptor indicated a Stokes radius (R_s) of 5.0 nm for the hormonereceptor-detergent complex. The hydrodynamic properties of the receptor-detergentligand complex were determined by centrifugation in 5–20% sucrose gradients in H₂O and in D₂O. They are $\text{v}\text{?}\text{= 0.7; s}{}_{\mathrm{<mtext>20,</mtext><mtext>w</mtext>}}\text{= 4.7;}\text{f}\text{f}{}_0\text{= 1.49; M}{}_{\mathrm{<mtext>r</mtext>}}\text{= 118,000}$ for the complex, 73,000 for the receptor alone. Approximately 0.22 mg of Triton X-100 is estimated bound per milligram of protein. This represents about 25 mol detergent/mol receptor.     

Heavy-metal toxicity in the cyanobacterium Nostoc Linckia

The effects of HgCl₂, NiCl₂ and CoCl₂ on Nostoc linckia (Roth) Born. et Flah. were studied. Low level (0.2 p.p.m.) of mercury increased heterocyst frequency, stimulated nitrate reductase and ammonium uptake, but significantly inhibited acetylene-reducing and glutamine-synthetase activities. In contrast, NiCl₂ and CoCl₂ greatly inhibited all of the above processes.     

The influence of caging conditions and hormone treatments on fighting in male and female hamsters

After gonadectomy, more individually caged female hamsters fought prior to the initiation of hormone treatments than did group-caged females. Daily injections of testosterone propionate (TP), estradiol benzoate (EB), or progesterone (Prog) had no influence on the number of individually caged females that fought. However, TP and EB were effective in increasing the number of group-caged females that fought. In contrast to females, both individually and group-caged males fought infrequently after castration. Daily injections of TP, EB, or Prog were effective in increasing the number of individually caged males that fought, while only TP and EB were effective in group caged males. Prog failed to increase the number of group-caged hamsters of either sex that fought.     

Automated computer evaluation of time-varying cryomicroscopical images

A system has been developed to perform automatic computerized recognition, tracking, and quantitative morphological analysis of viable cells in freezing solutions. Cryomicroscopical image sequences of freezing cells are digitized and analyzed by computer. Image-processing techniques are used which are insensitive to contrast fluctuations from image to image, and which perform well even in noisy, cluttered images. The generalized Hough transform is used for shape detection, and a heuristic graph-search boundary completion algorithm is applied for shape extraction. The extracted cell shape may be analyzed for changes in cross-sectional area, perimeter length, shape deformation, and other metrics of interest. Knowledge from the shapeextraction phase is used to form a prediction of what shape the cell will be in the next image frame, and thus what to look for in the next shape-detection phase. This combination of knowledge-feedback with a powerful shape-detection technique produces an automatic, dynamic shape-recognition scheme capable of accurate recognition and analysis of the cells regardless of how deformed they may become during the freezing sequence. Example performance of the system is illustrated for a series of micrographs of freezing granulocytes.     

Hemoglobin synthesis in isolated erythroid colonies from the chick embryo.

Primary cultures derived from mechanically dissociated definitive streak chick blastoderms were grown in a warm air stream on the stage of inverted phase microscope, through which in vitro erythroid development could be observed. Proerythroid cells divide three or four times in 48 hr to give rise to erythroid colonies ranging from 10 to 1000 cells, depending on the size of the blastoderm fragments from which they were derived.Erythroid cell development follows a similar course in cultures grown in a carbon dioxide incubator. Colonies consisting of about 50 cells, derived from blastoderm fragments containing 5 to 10 cells, were isolated and labeled with [³H]leucine, and their labeled hemoglobins were analyzed by isoelectric focusing. Both early hemoglobins (E,M,P,P′, and P″) and late hemoglobins (A and D) are made in colonies derived from single blastoderm fragments. The ratio of late to early hemoglobins is about 1.7 in all colonies analyzed. The implications of this finding for the clonal model of erythroid development are discussed.     

Application of a direct spectrophotometric assay employing a chromogenic substrate for tryptophanase to the determination of pyridoxal and pyridoxamine 5′-phosphates

Improved procedures for the isolation of apotryptophanase and its use in estimation of the vitamin B-6 coenzymes are presented. An excess of the apoenzyme is allowed to react with limiting amounts of pyridoxal-P. Estimation of the holotryptophanase thus formed by use of the chromogenic substrate. S-o-nitrophenyl-l-cysteine, provides a sensitive (1–400 pmol) and conveniently direct spectrophotometric assay for pyridoxal-P. For the specific estimation of pyridoxamine 5′-phosphate, samples are first reduced with NaBH₄ to convert pyridoxal-P to pyridoxine-P (inactive). By nonenzymatic transamination with glyoxylate, pyridoxamine-P is then converted quantitatively to pyridoxal-P and estimated with apotryptophanase. The method gives excellent recoveries of the added coenzymes and indicates that in many tissue extracts pyridoxamine-P surpasses pyridoxal-P in concentration.     

Osmotic response of individual cells during freezing. II. Membrane permeability analysis

An analytical model is presented to simulate the freezing of individual yeast cells. In addition the model is solved numerically on a digital computer to obtain values for cell volume as a function of temperature, based on the thermal protocol during freezing, and the transport parameters of the cell membrane. The numerical procedure was modified to enable values for the membrane hydraulic permeability reference coefficient, Lpg, and activation energy, ELp, to be deduced by nonlinear analysis of complementary experimental data (10). It was observed that the apparent values of both Lpg and ELp increase with cooling rate, from Lpg = 0.0116 micrometer 3 micrometers-2 atm-1 min-1 and ELp = 19.4 kJ mol-1 for 9 degrees K/min to Lpg = 2.11 micrometers 3 micrometer-2 atm-1 min-1 and ELp = 101 kJ mol-1 for 35 degrees K/min. The deduced permeabilities fall within the range of values determined in a prior study by Levin (6). Analysis with the model also indicates that the turgor pressure exerts a negligible effect on yeast exposed to freezing stress.     

Chromosome condensation activity in Rana pipiens eggs matured in vivo and in blastomeres arrested by cytostatic factor (CSF)

The ability of brain nuclei to give rise to condensed chromosomes was studied inRana pipiens eggs which had undergone meiotic maturation in vivo, in blastomeres of two-cell embryos which had been arrested at metaphase by the injection of cytostatic factor (CSF) from mature eggs, and in immature fully grown ovarian oocytes with and without prior CSF injection. Chromosomes from brain nuclei were found to condense within 4 h in mature eggs and this chromosome condensation activity was enhanced by the chelation of free Ca²⁺ in the nuclear isolation medium. Chromosomes also condensed in CSF-arrested blastomeres whether they were placed in the blastomere 30 min before the CSF injection or as long as 22 h after the CSF. Both the Ca²⁺-sensitive CSF, 1CSF, and the Ca²⁺-insensitive CSF, 2CSF, resulted in chromosome condensation within arrested blastomeres. The condensation was accompanied by the formation of multipolar spindles and asters. However, it was found that cytoplasm in CSF-arrested blastomeres does not arrest mitosis at metaphase when transferred into a cleaving blastomere. Other experiments demonstrated that chromosome condensation does not occur in ovarian oocytes even when supplied with CSF. The results are interpreted as indicating that CSF does not directly bring about chromosome condensation, but arrests the cell cycle at metaphase and stabilizes the cytoplasmic conditions of metaphase which, in turn, induce chromosome condensation in foreign nuclei as well as spindle and aster formation.     

Characterization of the sperm receptor on the surface of eggs of Strongylocentrotus purpuratus

Eggs of the sea urchins Strongylocentrotus purpuratus and Arbacia punctulata bind sperm with a high degree of species specificity. By use of an in vitro assay that utilizes bindin (the protein from sperm that mediates sperm-egg binding) egg surface-derived glycoconjugates that function as receptors in this adhesion process have been identified and purified. These glycoconjugates are of extraordinarily high molecular weight and exhibit some properties expected for a proteoglycan. The isolated receptors from both species bind to sperm and inhibit fertilization species specifically. Both receptors contain active carbohydrate-rich fragments that can be liberated by proteolytic digestion. The carbohydrate-rich receptor fragment from S. purpuratus is a very high-molecular-weight (>10⁶), negatively charged glycosaminoglycan-like polymer containing fucose, galactosamine, iduronic acid, and sulfate esters. By contrast, the carbohydrate-rich fragment derived from the A. punctulata receptor is of defined molecular weight (6000) and has no net charge. Incubation of acrosome-reacted sperm with nanomolar amounts of the carbohydrate-rich fragments from either species results in inhibition of fertilization, indicating that these receptor fragments retain sperm binding activity. However, studies utilizing heterologous gametes show that the carbohydrate-rich receptor fragments are not species specific in binding. Thus, it appears that although the carbohydrate chains of the receptor are an adhesive element of the receptor, the intact glycoconjugate is required for species-specific binding.     

The effect of hyperoxia on superoxide production by lung submitochondrial particles

Terbium ion (Tb³⁺), like other rare earth lanthanides, has traditionally been viewed as binding nucleic acids at or near their ionized phosphate groups only. Here evidence is presented from ¹H NMR studies that confirms this mode of binding in Tb³⁺-mono-nucleotide complexes. However, in polynucleotides, we find that Tb³⁺ coordinately binds at two distinct sites, the phosphate moiety and electron donor groups on purine and pyrimidine bases. This two-site binding is best illustrated by complexes of Tb³⁺-polyuridylic acid, where the relative sensitivities of the uracil protons H5 and H6 to induced chemical shift and nuclear spin relaxation are the inverse of that seen in Tb³⁺-uridine monophosphate complexes. These data substantiate recently reported results derived from ultraviolet absorption and fluorescence spectroscopy (D. S. Gross and H. Simpkins, 1981, J. Biol. Chem.256, 9593–9598) that two-site binding is characteristic of the terbium(III)-polynucleotide interaction.     

Computer simulation of cellular movements: cell-sorting, cellular migration through a mass of cells and contact inhibition

The motility rules for cellular movement proposed earlier by Goel &; Rogers for engulfment of two or more intact embryonic tissues have been used to simulate on a computer the phenomena of cell-sorting, migration of individual cells through a mass of cells and contact inhibition of overlapping. These simulations in the most part are found to be consistent with the observations with real cells.     

Temperature-sensitive periods and autonomy of pleiotropic effects of l(1)Nts1, a conditional notch lethal in Drosophila.

Analysis of temperature-shift experiments using strains homo- and/or hemizygous for a temperature-sensitive (ts) mutation of the Notch locus, l(1)N^ts1, has permitted us to localize temperature-sensitive periods (TSPs) both for lethality and for adult ectodermal morphology defects. Discrete TSPs for lethality are localized to the first half of the embryonic period, to the second larval instar, to the third larval instar, and to a 15 hr period immediately after pupation. TSPs for adult morphology defects are localized to the second and third larval instars for eyeless-headless and duplicated antenna, to the third larval instar for small and rough (spl-like) eye, eye scar, fused leg segments, shortened tarsal leg segments, Notch wings, and extra macrochaetae, and to the early pupal period for extra and missing microchaetae, fa^g-like rough eye and thick wing vein defects. Within the third larval instar, distinct patterns of eye, wing, and leg defects are observed. There is a striking similarity between the adult morphology defects and TSPs of l(1)N^ts1 and those of the larval and adult locomotor mutant, shi^ts1 (C. A. Poodry, L. Hall, and D. T. Suzuki, 1973, Develop. Biol.32, 373–386). Expression of l(1)N^ts1 also has been studied in genetic mosaics, in which we find that the pleiotropic effects of l(1)N^ts1 are autonomously expressed.     

Protein synthesis in dorsal and ventral regions of Xenopus laevis embryos in relation to dorsal and ventral differentiation

Two-dimensional gel electrophoresis has been used to analyze protein synthesis in dorsal and ventral regions in embryonic stages of Xenopus laevis. Proteins specific either to dorsal or to ventral regions are synthesized for the first time at gastrulation, concomitant with morphological differentiation. The reliability of these proteins as markers of dorsal and ventral differentiation was tested by examining their synthesis in Uv-irradiated embryos, which have severely reduced capacity for dorsal development, reflected in reduced levels of the neuromuscular-specific enzyme acetylcholinesterase, but which continue to synthesize the great majority of proteins at normal rates. Synthesis of dorsal indicator proteins should be reduced or absent in these embryos, whereas ventral indicators should be synthesized at least to the same extent as in control embryos. Some of the putative dorsal and ventral indicators failed this test, but the majority were confirmed as reliable markers of dorsal and ventral differentiation, thus providing a connection between morphology and gene expression in the establishment of the dorsal-ventral axis in X. laevis.     

Age-associated changes in plasma testosterone levels in male mice and their relation to social dominance or subordinance

Plasma testosterone (T) levels were determined in male mice of the CD-1 (ICR) strain from 30 to 680 days of age. The mean plasma T was 5.2 ± 1.0 ng/ml for adult male mice (70–400 days old, 102 mice) and 1.8 ± 0.9 ng/ml for old males (450–680 days old, 11 mice). Through 140 determinations, the highest T value obtained was 52.3 ng/ml in an 80-day-old individual while the lowest was 0.08 ng/ml in a 680-day-old animal. It was found that plasma T was significantly decreased in the old age, although individual variation in T levels was considerable. On the other hand, social dominance or subordinance was examined among male mice in each cage and its relation to plasma T was investigated. Dominance or subordinance was verified by frequency of chases or attacks delivered or received, or number of fights won or lost. It was observed that dominant-subordinate relationships were present in 6 out of 10 cages and that the dominant individual had a significantly higher T level than the subordinate male; the mean T level was 10.5 ± 2.5 ng/ml for the dominant individuals vs 2.2 ± 0.8 ng/ml for the subordinate ones. Marked individual variation in plasma T titers in male mice seems to be related to the dominance/subordinance rank within a group.     

Gap junction amplification in rat ovarian granulosa cells: I. A direct response to follicle-stimulating hormone

The ability of follicle-stimulating hormone (FSH), the estrogens, estradiol-17β and diethylstilbestrol, and the estrogen antagonists, clomiphene and enclomiphene citrate to affect the growth and internalization of hypophysectomized rat granulosa cell gap junction membranes was compared in ovarian follicles assigned to one of four follicle size classes (60–149, 150–249, 250–319, and 320–450 μm diameter). In the absence of exogenous hormone stimulation, atresia prevents follicle growth beyond 320 μm in diameter but surface gap junction membrane increases throughout this early follicle growth. Internalization of gap junction membrane is first detected at the 150- to 249-μm follicle stage and also increases with follicle size. Therefore, growth and turnover of gap junction membrane occur at a basal rate in the absence of gonadotropin or steroid hormone stimulation. Estrogen and estrogen antagonist injections result in no significant differences in the amount of surface or internalized junction membrane in the three smallest follicle size classes when compared to the untreated hypophysectomized animals. However, estrogen but not estrogen antagonists rescues growing follicles from atresia and permits their further growth into the 320- to 450-μm follicle size class. As a result of the additional follicle growth, both surface and internalized junction membrane increase beyond that seen in the largest follicles from hypophysectomized animals. In contrast to other treatments, FSH stimulation promotes amplification of gap junction membrane in all size classes and, like estrogen, rescues follicles from atresia and promotes their entry into the 320- to 450-μm follicle size class. Surface gap junction membrane is amplified two- to fourfold over other treatments in the first three follicle size classes, but reaches maximal levels in the 250- to 319-μm follicles. The internalized junction membrane which first appears in the 150- to 249-μm size class is dramatically increased over other treatments in the 250- to 319- and 320- to 450-μm size classes. These studies indicate that exogenous estrogen stimulation promotes gap junction growth indirectly by sustaining the basal rate of junction synthesis in follicles rescued from atresia. In contrast, exogenous FSH stimulation directly amplifies the developmental sequence of gap junction growth and turnover. During early follicle growth, FSH stimulation preferentially promotes increases in surface gap junctions while internalization of surface junctions is increased during later follicle growth.     

In vitro alteration of the size of the liver mitochondrial adenine nucleotide pool: Correlation with respiratory functions

Mitochondrial respiration was studied as a function of the total adenine nucleotide content of rat liver mitochondria. The adenine nucleotide content was varied by treating isolated mitochondria with pyrophosphate or by incubating pyrophosphate-treated mitochondria with ATP. Mitochondria with at least 4 nmol adenine nucleotides/mg protein maintained at least 80% of the State 3 activity of control mitochondria, which had approximately 10 nmol/mg protein. However, State 3 decreased rapidly once the adenine nucleotide content fell below 4 nmol/mg protein. Between 2 and 4 nmol adenine nucleotides/mg, State 3 was not limited by the maximal capacity of electron flow as measured by the uncoupled respiration. However, at very low adenine nucleotide levels (<2 nmol/mg), the uncoupled rates of respiration were markedly depressed. State 4 was not affected by changes in the mitochondrial adenine nucleotide content. Adenine translocase activity varied in almost direct correlation with changes in the adenine nucleotide content. Therefore, adenine translocase activity was more sensitive than State 3 to changes in total adenine nucleotides over the range of 4 to 10 nmol/mg protein. The results suggest that (i) State 3 is dependent on the level of intramitochondrial adenine nucleotides, particularly in the range below 4 nmol/mg protein, (ii) adenine translocase activity is not rate-limiting for oxidative phosphorylation in mitochondria with the normal complement of adenine nucleotides, however, at low adenine nucleotide levels, depressed State 3 rates may be explained in part by the low rate of ADP translocation, and (iii) a mechanism of net ATP uptake exists in mitochondria with low internal adenine nucleotides.