Your search keyword '"Mercer JG"' showing total 8 results

1. Brain responses to obesogenic diets and diet-induced obesity.

Author

Archer ZA and Mercer JG

Published

2007

2. Appetite regulation and seasonality: implications for obesity.

Author

Adam CL, Mercer JG, Adam, Clare L, and Mercer, Julian G

Abstract

High circulating concentrations of leptin in obesity are associated with an apparent loss of its characteristic anorexic action within the hypothalamic region of the brain. Central insensitivity to leptin may therefore contribute to the aetiology of this disease, and an increased understanding of the underlying mechanisms will identify potential means of prevention and/or therapeutic targets. Seasonal animals such as sheep and Siberian hamsters (Phodopus sungorus) exhibit annual photoperiod-driven cycles of appetite and body weight. Increased food intake and weight gain in long days (summer) are associated with high circulating leptin, and decreased intake and weight loss in short days (winter) with low leptin. Critically, these cycles are associated with reversible changes in sensitivity to leptin. High sensitivity is seen in short days and relative insensitivity in long days, demonstrated both in sheep given leptin centrally via intracerebroventricular cannulas and in hamsters given leptin peripherally. In addition, primary hypothalamic appetite-regulating targets for leptin (i.e. neuropeptide Y, melanocortin and cocaine- and amphetamine-regulated transcript pathways) respond differently in these species to changes in circulating leptin and nutritional status induced by photoperiod as opposed to such changes induced by food restriction. Studies of seasonal animals will help to resolve causes of altered sensitivity to leptin and whether these changes reflect altered transport into the brain and/or altered signalling at the receptor or post-receptor level. Increased knowledge of the mechanism(s) and time-course for development and reversal of reduced central leptin sensitivity will provide new insights into the development and control of obesity. [ABSTRACT FROM AUTHOR]

Published

2004

3. Does body mass play a role in the regulation of food intake?

Author

Speakman JR, Stubbs RJ, Mercer JG, Speakman, John R, Stubbs, R James, and Mercer, Julian G

Abstract

It is widely believed that body fatness (and hence total body mass) is regulated by a lipostatic feedback system. This system is suggested to involve at least one peripheral signalling compound, which signals to the brain the current size of body fat stores. In the brain the level of the signal is compared with a desirable target level, and food intake and energy expenditure are then regulated to effect changes in the size of body fat stores. There is considerable support for this theory at several different levels of investigation. Patterns of body-mass change in subjects forced into energy imbalance seem to demonstrate homeostasis, and long-term changes in body mass are minor compared with the potential changes that might result from energy imbalance. Molecular studies of signalling compounds have suggested a putative lipostatic signal (leptin) and a complex network of downstream processing events in the brain, polymorphisms of which lead to disruption of body-mass regulation. This network of neuropeptides provides a rich seam of potential pharmaceutical targets for the control of obesity. Despite this consistent explanation for the observed phenomena at several different levels of enquiry, there are alternative explanations. In the present paper we explore the possibility that the existence of lipostatic regulation of body fatness is an illusion generated by the links between body mass and energy expenditure and responses to energy imbalance that are independent of body mass. Using computer-based models of temporal patterns in energy balance we show that common patterns of change in body mass following perturbation can be adequately explained by this 'non-lipostatic' model. This model has some important implications for the interpretations that we place on the molecular events in the brain, and ultimately in the search for pharmaceutical agents for alleviation of obesity. [ABSTRACT FROM AUTHOR]

Published

2002

4. Anorexia in rats infected with the nematode, Nippostrongylus brasiliensis: experimental manipulations.

Author

Mercer JG, Mitchell PI, Moar KM, Bissett A, Geissler S, Bruce K, and Chappell LH

Subjects

Animals, Anthelmintics therapeutic use, Body Weight, Corticosterone blood, Corticotropin-Releasing Hormone analysis, DNA Primers chemistry, DNA, Helminth chemistry, Eating, Galanin analysis, Host-Parasite Interactions, Image Processing, Computer-Assisted, Insulin analysis, Leptin analysis, Mebendazole therapeutic use, Neuropeptide Y analysis, Nippostrongylus drug effects, Pro-Opiomelanocortin analysis, RNA, Helminth chemistry, RNA, Helminth isolation & purification, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Strongylida Infections complications, Strongylida Infections drug therapy, Anorexia parasitology, Nippostrongylus pathogenicity, Strongylida Infections parasitology

Abstract

Nippostrongylus brasiliensis induces a biphasic anorexia in laboratory rats, the first phase coincident with lung invasion (ca day 2) and the second when the worms mature in the intestine (ca day 8). Using the anthelminthic, mebendazole (MBZ), N. brasiliensis infections of the rat were eliminated between the first and second anorexic episodes. This intervention prevented the expression of the second phase of anorexia. Rats exposed to a second infection with N. brasiliensis, 3 weeks after the primary infection, exhibited only a first phase anorexic response which was not influenced by MBZ termination of the primary infection. The lower cumulative food intake and weight gain of all infected rats after 8 days of infection were accompanied by elevated plasma insulin and, in some individuals, by elevated plasma leptin, compared with uninfected controls and previously-infected MBZ-treated rats. Messenger RNA levels for neuropeptide Y were higher in the hypothalamic arcuate nucleus of 8-day infected rats than in recovering MBZ-treated animals. Inoculation of rats with heat-killed N. brasiliensis larvae failed to induce anorexia and did not alter the severity of biphasic anorexia on subsequent injection of viable larvae. The first anorexic episode is therefore dependent upon viable migrating larvae. The second phase of anorexia clearly requires the continuing presence of the parasite beyond the lung phase. Viable migrating larvae are also required to confer 'resistance' to reinfection.

Published

2000

5. Parasite-induced anorexia: leptin, insulin and corticosterone responses to infection with the nematode, Nippostrongylus brasiliensis.

Author

Roberts HC, Hardie LJ, Chappell LH, and Mercer JG

Subjects

Animals, Anorexia blood, Biomarkers blood, Leptin, Male, Rats, Rats, Sprague-Dawley, Strongylida Infections blood, Strongylida Infections complications, Anorexia parasitology, Corticosterone blood, Insulin blood, Nippostrongylus, Proteins analysis, Strongylida Infections parasitology

Abstract

The nematode parasite, Nippostrongylus brasiliensis, induces a biphasic anorexia in its rat host. The mechanisms, underlying this anorexia and its possible advantages to the host or parasite are unknown. We have investigated the effect of acute (12-24 h) and chronic (2-17 days) infections on plasma concentrations of leptin, insulin and corticosterone, and on hypothalamic expression of neuropeptide Y, galanin and corticotrophin-releasing factor genes. Plasma leptin was elevated in infected rats relative to uninfected ad libitum-fed controls and pair-fed controls in 12 h infections initiated at dark onset and in infections of 2 days' duration. At other times prior to parasite expulsion, plasma leptin in infected and pair-fed rats was lower than that of uninfected ad libitum-fed controls, reflecting the existing state of negative energy balance. Elevated plasma leptin concentrations in infected rats at day 2 post-infection were accompanied by reduced neuropeptide Y gene expression in the hypothalamic arcuate nucleus compared with both ad libitum control and pair-fed animals, and by lowered corticotrophin-releasing factor gene expression in the paraventricular nucleus relative to pair-feds. Twelve hour infections were characterized by a substantial increase in plasma corticosterone that was independent of reduced food intake, and in 12 h infections initiated at dark onset, where plasma leptin was elevated, there was also increased plasma insulin concentration in infected rats. In longer infections, differences between the groups in plasma insulin and corticosterone concentration were only observed at day 4 post-infection. In summary, perturbations to leptin, insulin and corticosterone signals early in infection may have a causative role and might feed back onto hypothalamic gene expression, whereas subsequent changes in these parameters are more likely to be secondary to negative energy balance.

Published

1999

6. Transmission of Schistosoma mansoni from man to snail: experimental studies of miracidial survival and infectivity in relation to larval age, water temperature, host size and host age.

Author

Anderson RM, Mercer JG, Wilson RA, and Carter NP

Subjects

Aging, Animals, Biomphalaria anatomy & histology, Biomphalaria physiology, Humans, Mathematics, Probability, Temperature, Water, Biomphalaria parasitology, Schistosoma mansoni growth & development

Abstract

We report the results of experimental work on (a) the influence of temperature on the age-dependent survival and infectivity of the miracidia of Schistosoma mansoni and (b) the relationship between snail age, snail size and susceptibility to infection. The death rate of miracidia declined exponentially with age where life-expectancy was maximal (approximately 16 h) at 15 degrees C. Infectivity also declined rapidly with larval age but, in contrast to larval survival, the rate of infection was at a maximum at 25 degrees C. Snail susceptibility was shown to be more closely correlated with host size rather than host age. Susceptibility declined exponentially with increased host size. Size-dependent susceptibility was shown to generate concave age-prevalence curves for infection within snail populations, where the maximum prevalence is generated in snails of intermediary age. Simple mathematical models are developed to aid estimation of larval survival and infection rates and experimental results are discussed in relation to the overall transmission success of the parasite from man to snail.

Published

1982

7. Effects of potential inhibitors on Brugia pahangi in vitro: macrofilaricidal action and inhibition of microfilarial production.

Author

Barker GC, Mercer JG, Svoboda JA, Thompson MJ, Rees HH, and Howells RE

Subjects

Amines pharmacology, Animals, Microfilariae drug effects, Triterpenes pharmacology, Anthelmintics pharmacology, Brugia drug effects, Filaricides pharmacology, Insect Hormones antagonists & inhibitors, Limonins, Steroids pharmacology

Abstract

A series of compounds that apparently disrupt hormonally regulated processes in insects have been examined for effects on the viability and microfilarial production of adult Brugia pahangi cultured in vitro. The azasteroids, 25-azacoprostane and 25-azacholestane, inhibited the production of microfilariae at 5 ppm, the former also exhibiting macrofilaricidal activity at this concentration. The brassinosteroids examined inhibited microfilarial production at 5 ppm but did not affect worm viability. Azadirachtin also proved to be a significant inhibitor of microfilarial release without effect on worm motility or viability. Of all the compounds tested, the non-steroidal amines appeared to be the most promising as potential filaricides, several of them proving to be macrofilaricidal at 1 ppm and affecting microfilarial production at even lower concentrations.

Published

1989

8. Schistosoma mansoni: effect of maintenance in vitro on the physiology and biochemistry of adult worms.

Author

Mercer JG and Chappell LH

Subjects

Animals, Female, Glycogen metabolism, In Vitro Techniques, Male, Parasite Egg Count, Proteins metabolism, Schistosoma mansoni metabolism, Schistosoma mansoni physiology

Abstract

In Medium 199 supplemented with calf serum (+10%), adult Schistosoma mansoni produced a mean total of 400 eggs/worm pair during maintenance for 10 days in vitro. During the period of egg deposition in vitro, the dry weight of worm pairs decreased by 35%. Biomass decreases were proportionally greater in female worms than in males. Declines in the dry weight of female worms were mainly due to decreases in protein content, while biomass decreases in males resulted from losses of both protein and glycogen. Glucose was depleted from the maintenance medium at a rate of approximately 200 micrograms/worm pair/day during each of the first 3 days in vitro, while concentrations of glucose in the medium of above 1 g/litre did not affect the degree of glycogen depletion observed in adult S. mansoni during culture for 24 h. The contribution of the loss of schistosome gut contents in vitro to the observed changes is discussed. The work described represents part of an attempt at logical design of in vitro culture.

Published

1985