Performance of bean bruchids Callosobruchus maculatus and Zabrotes subfasciatus (Coleoptera: Bruchidae) reared on resistant (IT81D-1045) and susceptible (Epace 10) Vigna unguiculata seeds: relationship with trypsin inhibitor and vicilin excretion.

Callosobruchus maculatus (Cm) and Zabrotes subfasciatus (Zs) were reared on resistant (IT81D-1045) and on susceptible (Epace 10) cowpea seeds. The emergence of adult insects, total developmental period (TDP) and excretion of trypsin inhibitor and vicilin were determined for both bruchid populations. Parameter evaluation showed that the Zs populations emerged from both seeds had no significant differences in emergence and TDP. The Cm population raised from resistant seeds had lower emergence (5.6+/-1.3%) and delayed TDP (46+/-1.25 days) than those emerged from susceptible seeds. The excretion of defense proteins showed that Zs reared in resistant seeds excreted 1.7 times more trypsin inhibitor, but this did not affect emergence or TDP. Furthermore, Cm population emerged from resistant seeds excreted 7 times higher vicilin and 0.4 times less trypsin inhibitor than that emerged from susceptible seeds. These results indicate that vicilins from resistant seeds are involved to significantly longer TDP (46 days) and also drastic reduction of insect emergence ( approximately 5%) of C. maculatus.

Dioxin causes a sustained oxidative stress response in the mouse.

Dioxin (2,3,7,8-tetrachlorodibenzo-p-dioxin; TCDD) is the prototype for environmental agonists of the aromatic hydrocarbon receptor (AHR) that are known to produce multiple adverse effects in laboratory animals as well as humans. Although not directly genotoxic, dioxin is known to increase transformation and mutations in mammalian cell culture and to cause an exaggerated oxidative stress response in the female rat. In humans and mice, however, dioxin-mediated oxidative stress appears to be more subtle, causing a response that has been poorly characterized. Using the female C57BL/6J inbred mouse, we show here that intraperitoneal treatment of 5 micrograms TCDD per kilogram on 3 consecutive days produces a striking, prolonged oxidative stress response: hepatic oxidized glutathione levels increase 2-fold within 1 week, and these effects persist for at least 8 weeks despite no further dioxin treatment. Urinary levels of 8-hydroxydeoxyguanosine--a product of DNA base oxidation and subsequent excision repair--remain elevated about 20-fold at 8 weeks after dioxin treatment, consistent with chronic and potentially promutagenic DNA base damage. These results demonstrate that dioxin exposure does produce a sustained oxidative stress response in the mouse.

Macromolecule structure determination using NMR data and molecular simulation techniques.

NMR graf utilizes molecular mechanics and molecular dynamics simulation techniques, in conjunction with NOE and J-coupling data from NMR experiments, to quickly derive and analyze candidate structures of macromolecules. Test cases produce results within the experimental error bars of structures derived using x-ray crystallography.

Purification and characterization of an insect alpha-amylase inhibitor/endochitinase from seeds of Job's Tears (Coix lachryma-jobi).

A protein inhibitor of locust gut alpha-amylase was purified from seeds of Job's Tears (Coix lachryma-jobi) using ammonium sulphate precipitation, affinity chromatography on Red Sepharose and reversed-phase HPLC. It consisted of two major isomers, each a dimer of two closely similar or identical subunits of Mr about 26,400, and associated by inter-chain disulphide bonds. These isomers also had closely similar amino acid compositions. The major isomer showed no inhibitory activity against amylases from other sources: human saliva, porcine pancreas, Bacillus subtilis, Aspergillus oryzae and barley malt. The manual DABITC/PITC method was used to determine about half of the amino acid sequence of the major isoform. This showed a high degree of homology with previously reported sequences of endochitinase enzymes from several species (tobacco, potato, barley, bean), and endochitinase activity was demonstrated by following the release of radioactivity from [3H]chitin. This novel combination of functions may be relevant to protection of the grain from insect feeding and fungal infection.

The amino acid sequence of a cereal Bowman-Birk type trypsin inhibitor from seeds of Jobs' tears (Coix lachryma-jobi L.).

The major trypsin inhibitor from seeds of Jobs' tears (Coix lachryma-jobi) was purified by heat treatment, fractional precipitation with (NH4)2SO4, ion-exchange chromatography on DEAE-Sepharose, gel-filtration on Sephadex G-75 and preparative reverse-phase HPLC. The complete amino acid sequence was determined by analysis of peptides derived from the reduced and S-carboxymethylated protein by digestion with trypsin, chymotrypsin and the S. aureus V8 protease. The polypeptide contained 64 amino acids with a high content of cysteine. The sequence exhibited strong homology with a number of Bowman-Birk inhibitors from legume seeds and similar proteins recently isolated from wheat and rice.

Restoration of visual cortical plasticity by local microperfusion of norepinephrine.

Using a newly developed technique of continuous microperfusion, we obtained further evidence in support of our hypothesis that the neocortical catecholamines (CAs), particularly norepinephrine (NE), are responsible for a high level of cortical plasticity. We used the visual cortical changes in ocular dominance which follow a brief monocular deprivation as a simple and reliable index of cortical plasticity. Local perfusion of kitten visual cortex with 1 mg/ml (4.0 mM) 6-hydroxydopamine (6-OHDA) prevented the effects of monocular deprivation in kittens, thus replicating the results we had obtained using intraventricular injections (Kasamatsu and Pettigrew, '76b, '79). Locally perfused NE at a concentration of of 10(-2) mg/ml (48.6 micron) restored visual cortical plasticity in animals which were no longer susceptible to brief monocular lid-suture. These numbers refer to the concentration of solutions in the cannula/minipump system. The effective concentrations at the site of recording (about 2 mm away) are probably much lower than these. This effect of NE perfusion was seen both in kittens which had received prior 6-OHDA treatment as well as in older animals which had outgrown the susceptible period. In the kittens we obtained as a nearly complete shift in ocular dominance toward the open eye and in the older animals a decrease in binocularity was obtained. The changes were found only in the local region of visual cortex perfused with either NE or 6-OHDA, while nearby cortical regions in the same animals were unaffected. There were no obvious changes in receptive field properties of individual neurons other than ocularity, and externally perfused NE did not itself reduce binocularity in normal animals: the effects of NE described about only occurred when the animal's visual experience was simultaneously altered. These results support the view that NE plays an important role in cortical plasticity.

Dopaminergic mechanisms in precipitated withdrawal in morphine-dependent rats.

Rats were made dependent on morphine by implantation of a pellet and withdrawal was precipitated by the injection of naloxone 72 hours later. Withdrawal was assessed by scoring each of the following signs individually: chewing, licking, teeth chattering, facial tremor, grooming, writhing, diarrhea, weight loss, wet dog shakes, head shakes and hypothermia. The role of dopamine in withdrawal was determined by pretreating the animals with apomorphine or pimozide. Apomorphine in the lower dose range (0.625-1.25 mg/kg) produced a significant decrease in teeth chattering, writhing, weight loss and wet dog shakes. The high dose of apomorphine (2.5 mg/kg) significantly inhibited all features of the withdrawal except writhing and weight loss. Pimozide caused a significant increase in chewing, writhing and head shakes, but only with the highest dose used (0.5 mg/kg). Pimozide (0.5 mg/kg) significantly reduced withdrawal hypothermia, but apomorphine had no effect on this sign except at the highest dose when withdrawal hypothermia was increased.

Naltrexone-induced hypothermia in the rat.

Naltrexone, in relatively high doses, has been reported to cause a fall in body temperature in human ex-heroin addicts who had been abstinent for at least 6 weeks. The underlying mechanism of this hypothermic effect has been investigated in rats. The first consideration was that the temperature change was a reflection of delayed withdrawal but rats implanted with a morphine pellet 45 days earlier showed no significant change in temperature after a dose of naltrexone that caused marked withdrawal hypothermia in dependent rats implanted 3 days previously. A fall in core temperature was only induced in rats after doses of 80 and 160 mg/kg i.p. of naltrexone. Behavioral thermoregulatory studies revealed that the animals correct the falling body temperature by increased exposure to a radiant heat source indicating that the central thermostats had not been significantly affected by the drug. These data suggest that the major component in the hypothermic effect of naltrexone is activation of efferent heat loss pathways or peripheral heat loss mechanisms. Due to current suggestions that opiate receptors might represent the receptors for an endogenous transmitter the results are discussed in relation to this consideration. When compared to the sites and mechanism of action of opiates on thermoregulation the results with naltrexone lend little support to the hypothesis that the fall in temperature is due to displacement of an endogenous substance from central opiate receptors.

Changes in sensitivity to apomorphine during morphine dependence and withdrawal in rats.

Stereotyped behavior induced by injection of apomorphine hydrochloride (10 mg/kg i.p) was measured in control rats, rats made dependent on morphine and dependent rats undergoing naloxone-precipitated withdrawal. The dose of apomorphine chosen was approximately the ED50 dose, so that changes in sensitivity to apomorphine in either direction could be determined. Rats which had received a subcutaneous morphine (75 mg) pellet implant 72 hours previously demonstrated an increased sensitivity to apomorphine when compared with placebo-implanted controls. During withdrawal precipitated by injection of naloxone hydrochloride (0.2 mg/kg i.p.) this increased sensitivity disappeared. Naloxone alone, in a dose of 1.0 mg/kg but not 0.2 mg/kg, significantly antagonized apomorphine-induced stereotyped behavior and these effects of apomorphine were also reduced by an acute injection of morphine sulfate (10 mg/kg). The significance of these findings with regard to changes in central dopaminergic systems during dependence and withdrawal is discussed.

Morphine hyperthermia in the rat: an action on the central thermostats.

The mechanism underlying the hyperthermic response to low doses of morphine has been investigated in rats. Doses of morphine sulfate less than 10 mg/kg i.p. caused a rise in body temperature accompanied by vasoconstriction of the cutaneous blood vessels of the tail. This hyperthermia, unlike the hypothermia following higher doses of morphine was not blocked by naloxone nor did tolerance develop to the response. Injections directly into the hypothalamus suggested that, as with the fall in temperature after high doses of morphine, the hyperthermic effect is also due to an action on the preoptic/anterior hypothalamic thermoregulatory centers. Experiments measuring thermoregulatory behavior showed that rats delayed escaping from a heat load after low doses of morphine even though their core temperature was rising. These results suggest that low doses of morphine raise the set point of the central thermostats in rats resulting in a hyperthermia mediated, at least in part, by decreased cutaneous heat loss.

Dopaminergic involvement in withdrawal hypothermia and thermoregulatory behavior in morphine dependent rats.

Thermoregulatory behavior was assessed in the rat by measuring the time taken to escape from a radiant heat source. The time to excape and the rise in core temperature accompanying exposure to heat were greater in morphine dependent (1 X 75 mg SC pellet implant for 72 hr) than in control rats. Injection of naloxone (1 mg/kg) into dependent rats produced a withdrawal hypothermia and decreased the time taken to escape from the heat source. Since rats undergoing withdrawal avoided heat at the same time that their core temperature was falling, the hypothermia is most likely due to a downward setting of the central thermostats rather than a direct activation of heat loss pathways. Both the withdrawal hypothermia and the behavioral changes were blocked by pimozide pretreatment (0.5 mg/kg) implicating a dopaminergic mechanism in the downward setting of the thermostats. Administration of naloxone 144 hr after pellet implantation produced similar effects to those in the 72 hr implanted group. Injection of morphine sulfate (4 mg/kg) 144 hr after implantation increased both the core temperature and the time taken to escape from heat suggesting that the effect of morphine in the dependent rat is to produce an upward setting of the thermostats.