Detection and localization of antigens on the surface of mouse spermatozoa. Antigen synthesis in the epididymis

Spermatozoa achieve functional maturity during their transit through the epididymis and this maturation process is accompanied by changes in the composition and proteins of their surface. The addition of secretory products from the epididymis to the plasma membranes of the spermatozoa is considered to be a prerequisite for the acquisition by the spermatozoa of the capacities for forward motility and ovum recognition. An antibody was purified from an antiserum raised in the rabbit against fluid from the cauda epididymis of the mouse. This antibody, in combination with fluorescein isothiocyanate-conjugated goat anti-rabbit antibody, was used to demonstrate a progressive increase in the synthesis and secretion of antigens along the length of the epididymis. Immunoaffinity chromatography of [35S]methionine-labelled proteins, synthesized by segments of the epididymis maintained in vitro, showed that the predominant protein synthesized by the cauda, but not by the caput, epididymis, migrated on electrophoresis with an apparent Mr of 26,000. This same protein was the major antigen found on the plasma membrane of cauda spermatozoa that had been radioactively labelled with the non-penetrating probe isethionyl [1-14C]acetimidate.

Activation of two signal-transduction systems in hepatocytes by glucagon

The ability of glucagon to stimulate glycogen breakdown in liver played a key part in the classic identification of cyclic AMP and hormonally stimulated adenylate cyclase. But several observations indicate that glucagon can exert effects independent of elevating intracellular cAMP concentrations. These effects are probably mediated by an elevation of the intracellular concentration of free Ca2+ although the mechanism by which this occurs is unknown. We show here that glucagon, at the low concentrations found physiologically, causes both a breakdown of inositol phospholipids and the production of inositol phosphates. Indeed, we show that the glucagon analogue, (1-N-alpha-trinitrophenylhistidine,12-homoarginine)glucagon (TH-glucagon), which does not activate adenylate cyclase or cause any increase in cAMP in hepatocytes yet can fully stimulate glycogenolysis, gluconeogenesis and urea synthesis, stimulates the production of inositol phosphates. This stimulation of inositol phospholipid metabolism by low concentrations of glucagon provides a mechanism whereby glucagon can exert cAMP-independent actions on target cells. We suggest that hepatocytes possess two distinct receptors for glucagon, a GR-1 receptor coupled to stimulate inositol phospholipid breakdown and a GR-2 receptor coupled to stimulate adenylate cyclase activity.

Trends in the severity of self-poisoning

Of 2947 patients admitted to a district general hospital over an 11-year period for the management of self-poisoning, 148 (5%) required intensive care unit (ICU) treatment. There was a significant increase in the number of self-poisonings admitted each year, whereas the number requiring ICU admission did not change. Therefore the proportion of patients requiring ICU admission fell significantly over the study period (P less than 0.0005). Of 898 patients admitted from 1973 to 1977, 62 (6.9%) were treated in ICU. Of 2049 patients admitted from 1978 to 1983, 86 (4.2%) required ICU treatment. It is felt that this trend is explained by a rise in parasuicidal self-poisonings. The impact of change in drug availability is evident in the significant reduction in ingestion of sedative barbiturates.

Metabolism of R,S-[2-(14)C]abscisic acid by non-stressed and water-stressed detached leaves of wheat (Triticum aestivum L.)

Metabolism of R,S-[2-(14)C]abscisic acid (ABA) was studied in detached leaves of six wheat (Triticum aestivum) cultivars, using non-stressed leaves or leaves water stressed by desiccation to 90% of their original fresh weight. The rate constant of ABA metabolism was similar in nonstressed leaves of all cultivars. Water stress resulted in significantly lower rate constants in two cultivars which accumulated high levels of ABA when stressed, the constants decreasing by a factor of about 1.5. Rate constants for the remainder of the cultivars were not significantly different from those for the non-stressed controls. It was calculated that if decreased metabolism was the mechanism for the accumulation of ABA following water stress the rate constants of metabolism would have to be reduced by a factor of between 25 and 70. The results therefore support the hypothesis that enhanced synthesis rather than reduced degradation is the main process by which ABA levels are elevated following experimentally induced water stress. There were differences between the six cultivars in the products of ABA metabolism. Over the time period studied, oxidation to phaseic acid and dihydrophaseic acid as well as to other unidentified metabolites appeared to be the predominant pathway of ABA metabolism, rather than conjugation to ABA glucose ester and other more polar compounds.

Oleosomes in flag leaves of wheat; their distribution, composition and fate during senesence and rust-infection

Oleosomes, up to 14μm in diameter, were found in mesophyll and bundle sheath cells of the flag and lower leaves of wheat cv Professeur Marchal. They develop in flag leaves at least 10 d before anthesis, possibly from fatty acids secreted by the plastids, and persist in mature and senescing leaf tissue. Oleosomes are bordered with an osmiophilic layer rather than a unit membrane. The major lipids of oleosomes, isolated 20 d after anthesis, are triacylglycerols (50%) and sterol or wax exter (34%). The dominant fatty acids of both lipid classes are plamitic (16:0) and stearic (18:0) acids which accounts for the low osmiophilia of the oleosomes. The function of the oleosomes is unknown but they may act as short-term energy reserves. Oleosomes persist in leaves infected with brown rust, even in cells penetrated by haustoria. Yellowish-brown oleosomes found in senescing and rust-infected leaves may be formed by the release and coalescence of pigmented plastoglobuli.

A reassessment of the binding of napthaleneacetic acid by membrane preparations from maize

Naphthalene-1-acetic acid (NAA) binding by membrane fractions derived from maize has been re-evaluated. Using a computer curve-fitting procedure only one major type of NAA binding, in terms of binding affinity, could be identified. Auxins, antiauxins and structurally related compounds have been tested for their competitive effect on NAA binding and the inhibitor constants for a number of these have been determined. Extracts from various plant species have been examined for their NAA binding ability, but all showed much less binding than maize leaf or coleoptile preparations. The possibility of the NAA binding by maize extracts being due to a true hormone receptor is discussed.

Screening for carotid junction disease by spectral analysis of Doppler signals

The established test for disease in the internal carotid artery using continuous wave Doppler is to listen for flow velocity changes over the supraorbital artery with ipsilateral temporal (or facial) artery compression. This is only reliable when there is a reduction in mean pressure (and flow) distal to disease in the internal carotid artery, ie reduction of lumen diameter by more than 85%. In this study, 101 vessel segments (48 with disease at the carotid junction, 53 normal) were compared with the results of angiography. Seven gave a positive temporal artery occlusion test, all of which showed severe disease. However, spectral analysis of the Doppler signals from supraorbital and common carotid arteries showed sonagram changes both with ageing and with disease. In particular, the ratio of primary peak (A) to secondary peak (B) in systole falls, the A/B ratio being lower in disease than in health. At A/B ratios less than 1.05 there was an 88% probability of disease at the carotid junction. 36/48 (75%) diseased junctions were detected, including almost all major lesions. The method did not so reliably detect small lesions (less than 2 mm plaques, less than 60% lumen diameter stenosis, and 'minimal atheroma'). In 5/53 normal junctions the A/B ratio was in the disease range. Scanning the carotid junction for turbulence yielded additional information in some cases.