Maryse Nibbelink

Cellular changes during cold acclimatation in adipose tissues

Cold exposure is a well‐known physiological stimulus that activates the sympathetic nervous system and induces brown adipose tissue (BAT) hyperplasia. The effects of cold exposure or cold acclimatation have been extensively studied in interscapular BAT (IBAT). However, it has been recently shown that brown adipocytes are present in adipose deposits considered as white fat such as periovarian (PO) fat pad. We have investigated the kinetic of brown precursor recruitment in adipose tissues using DNA measurement and specific marker expression. In IBAT, cold exposure induces proliferation of precursor cells and differentiation into preadipocytes characterized by the expression of A2COL6, a marker specific to early steps of the differentiation process. A chronic stimulation of the tissue is necessary to observe the full effect. In PO fat pad, no proliferation can be detected, whereas differentiation of brown preadipocytes and maybe phenotypic conversion of white adipocytes seems to be promoted. In conclusion, these data demonstrated that 1) the same stimulus (cold exposure) does not induce the same response in terms of preadipocyte proliferation and differentiation in periovarian and brown adipose tissues, although both contain brown adipocytes, and 2) preadipocyte recruitment in adipose tissues after cold exposure depends on the predominant type of fat cells.

High expression of uncoupling protein 2 in foetal liver

To assess the putative role of mitochondrial uncoupling protein 2 (UCP2) during perinatal development, its expression was analysed in mice and rats. Expression was detected in a large range of foetal tissues. A unique developmental pattern of UCP2 expression was found in liver, where the level of UCP2 mRNA was about 30‐fold higher in foetuses than in adults (mice data), and started to decline immediately after birth. Neither UCP1 nor UCP3 mRNA was expressed in foetal liver. As in adult liver, immunohistochemical analysis suggested exclusive localisation of UCP2 in the monocyte/macrophage cells. Our results indicate a role of UCP2 in haematopoietic system development.

Sympathoadrenal activity and hypoglycemia in the hibernating garden dormouse

The hibernating garden dormouse is spontaneously hypophagic during the prehibernating period at which time we found a low peripheral sympathetic activity (S.A.). The aim of this work was to investigate the link between dietary intake and S.A. The S.A. was evaluated by measurement of catecholamines in both plasma and adrenal glands by HPLC. Food intake, body weight, energy expenditure and plasma glucose were measured during the reentry phase of the hibernating period. The following results were obtained: the energy intake in pretorpid animals (55 to 83 kJ/24 h/100 g body weight) was less than energy expenditure which was between 145 and 97 kJ/24 h/100 g. The energy deficit induces marked hypoglycemia immediately before the onset of hypothermia (117 mg/dl vs. 76 mg/dl) and leads to a drastic drop in the peripheral sympathetic system. This, in turn, reduced energy production, causing the hypothermia.

Increased GDP binding and thermogenic activity in brown adipose tissue mitochondria during arousal of the hibernating garden dormouse (Eliomys quercinus L.)

1. The thermogenic activity of brown adipose tissue in hibernating garden dormice during hypothermic torpor and at different states of arousal were studied. High levels of GDP binding were observed on isolated brown fat mitochondria, indicating that the thermogenic proton conductance pathway is very active in brown fat during arousal. 2. In order to investigate this phenomenon, the uncoupling protein was assessed by immunological assay and the mRNA for UCP was analysed. 3. Animals during arousal exhibited neither increase in UCPmRNA nor an increase in UCP. 4. Our results suggest that during the rewarming of garden dormice there is an acute unmasking of GDP binding sites on the protein.

Cloning of BUG demonstrates the existence of a brown preadipocyte distinct from a white one

BACKGROUND: Several indirect arguments agree with the existence of a brown preadipocyte distinct from a white one. Nevertheless, to date, no molecular marker has been available to directly in vivo demonstrate this hypothesis.OBJECTIVE: The aim of this study was to find a gene expressed in brown preadipocyte but not in white and to use it as a molecular marker to analyse brown preadipocyte recruitment in different physiological and physiopathological situations.METHOD: Differential display was performed on stromal-vascular and adipocyte fractions of white and brown adipose tissues in rat.RESULTS: We identified a new gene, BUG, preferentially expressed in the stromal-vascular fraction of brown fat vs other adipose tissues fractions in adult rat. This RNA is also highly expressed in heart and, to a lesser extent, in other tissues such as kidney and brain. The BUG transcript is detected by in situ hybridization in putative preadipocytes within brown adipose tissue. Its level is transiently and specifically up-regulated during early stages of brown preadipocyte differentiation in a primary culture system, before the acquisition of late brown adipocyte phenotype. During development, BUG can be detected before the emergence of UCP-1 expression. In adult rats, BUG expression is inversely associated to brown adipose tissue (BAT) activation during cold exposure as well as in obese animals.CONCLUSIONS: The pattern of BUG expression agrees with an early divergence between brown and white adipocyte lineages. It also reveals the existence of a pool of committed brown preadipocytes within BAT that are recruited during cold exposure. BUG expression is increased in obese animals, suggesting that an early defect in brown preadipocyte differentiation could account for impaired BAT function in genetically obese rats.

Food intake and peripheral adrenergic activity in a hibernating rodent, the garden dormous

Abstract The relationship behind food intake and activity of the peripheral symapthetic nervous system was investigated in the hibernating garden dormouse. Sympathetic activity was evaluated by measurement of catecholamine levels and dopamine-β-hydroxylase activity in plasma and adrenal medulla. Food intake, body weight and basal energy expenditure were recorded over an 18 month period. We found that: 1. 1. Body weight was at a maximum, whereas food intake and energy expenditure were at a minimum during the week preceding the induction of hibernation. 2. 2. Feeding resumed during the last third of the hibernation period reaching a maximum at the Spring arousal. 3. 3. During the bouts of homeothermia, hypothermia and awakening, we observed a fall in energy intake 24 hr before the beginning of this cycle. On the other hand, food intake increased during the first 24 hr after awakening. During these three physiological situations, peripheral sympathetic activity was low in the hypophagic animals and high in the hyperphagic animals.

DIETARY RESTRICTION AMPLIFIES THE HYPERCHOLESTEROLEMIC EFFECT OF CHOLESTEROL FEEDING IN THE RAT

Abstract Dietary restriction (half of the control ration) was performed in rats given either standard or hypercholesterolemic diets. The plasma cholesterol was measured throughout the 2 month experiment after which time the lipoproteins were analysed. Underfed rats with or without cholesterol supplementation showed a rapid rise in plasma cholesterol. Moreover, dietary restriction greatly enhanced the effect of the hypercholesterolemic diet which contained cholesterol and cholic acid. The major changes occurred in the very low density lipoprotein (VLDL) cholesterol which was increased in cholesterol-fed rats. This was amplified more than 2-fold by dietary restriction. In addition cholesterol feeding associated with dietary restriction induced a significant rise in the intermediate density lipoprotein (IDL)+low density lipoprotein (LDL) cholesterol. The findings indicate that dietary restriction could be an additional risk factor of hyperlipoproteinemia, specially when associated with high cholesterol intake.

Effect of dietary restriction on the plasma apolipoprotein pattern in cholesterol-fed rabbits.

Dietary restriction (half of the control ration) was performed in rabbits given either standard or cholesterol-rich diets. The plasma apolipoproteins were studied on the total, d<1.21, lipoprotein fraction using polyacrylamide gel electrophoresis. A marked rise in the amount of both apo-B and apo-E appeared in cholesterol-fed rabbits and was enhanced by dietary restriction. These results reflect the aggravation of hypercholesterolemia when cholesterol feeding is carried out in underfed rabbits. In all groups only one molecular species of apo-B, identified as apo-B-100, was present after overnight fasting. Thus, lipoproteins which accumulate in the plasma following cholesterol feeding, associated with dietary restriction or not, probably are remnants of hepatogenous triglyceride-rich lipoproteins.

Effect of dietary restriction on cholesterol biosynthesis in the liver and the intestine of cholesterol-fed rabbits

The effect of dietary restriction (half of the control ration) on cholesterol biosynthesis was investigated in rabbits fed either standard or cholesterol-rich diets. Accompanying the amplification of hypercholesterolemia, additional disturbances of cholesterol metabolism were observed when cholesterol feeding was associated with dietary restriction. In the intestine, underfed rabbits showed a more marked inhibition of duodenal cholesterol biosynthesis from [14C]acetate following cholesterol feeding than rabbits on normal caloric ration. In contrast liver cholesterogenesis was equally suppressed in both groups receiving cholesterol-rich diets. Cholesterol biosynthesis from [14C]mevalonate was also inhibited by cholesterol feeding particularly in the duodenum of underfed rabbits. In addition cholesterol feeding induced a marked increase of the labeled esterified: free cholesterol ratio in the liver, demonstrating intensive esterification, this was enhanced by dietary restriction. The additional cholesterol which accumulates in the plasma and in various tissues in underfed rabbits is of dietary origin since the feedback control of cholesterogenesis by exogenous cholesterol was shown to be very effective in these animals.

Dietary restriction amplifies the metabolic disturbances of very-low-density lipoproteins in cholesterol-fed rabbits

The effect of dietary restriction (half of the control ration) on VLDL turnover was investigated in cholesterol-fed rabbits. Rabbits on standard, cholesterol and restricted cholesterol diets were injected with homologous 125I-labelled VLDL. Accompanying the amplification of hypercholesterolemia, additional disturbances of VLDL turnover were observed when cholesterol feeding was associated with dietary restriction. Cholesterol-fed rabbits with normal caloric ration exhibited delayed clearance of 125I-labelled apolipoprotein B component of VLDL compared to control rabbits. This was markedly accentuated in underfed rabbits, indicating further down-regulation of apolipoprotein B,E receptors in these animals. Furthermore, a reduced proportion of radiolabelled apolipoprotein B was converted from VLDL to intermediate-density lipoprotein (IDL) and LDL in both groups receiving cholesterol-rich diets. Thus, the combination of further impairment in plasma clearance of VLDL and the poor conversion into IDL and LDL could account for the massive increase of beta-VLDL in underfed animals on cholesterol-rich diets.