Metabolic interactions between surplus dietary energy intake and cigarette smoking or its cessation

Abstract

Cigarette smoking (CS) alters lipid metabolism and is associated clinically with an atherogenic lipid profile. We recently showed that, under controlled eucaloric dietary conditions, CS stimulates lipolysis without increasing oxidation of fat and that cessation of CS does not result in a rebound tendency to synthesize or store fat. We asked here whether the ad libitum intake of surplus dietary energy interacts with the metabolic effects of CS or its cessation. Eight male heavy smokers were allowed ad libitum food intake in a metabolic ward, 1 wk in CS phase and 1 wk in non-CS phase, followed by 4 wk of outpatient non-CS and a repeat 7-day study. De novo hepatic lipogenesis (DNL), lipolysis, substrate cycling of free fatty acids (FFA), hepatic glucose production, and energy expenditure were measured by using a multiple stable-isotope infusion protocol and indirect calorimetry. Surplus dietary energy intake (> 150% of predicted energy needs) occurred in five of eight subjects (2 subjs > 5,500 kcal/day, 3 subjs > 4,000 kcal/day) with weight gain of 1-4 kg/wk, but with no difference between CS and non-CS phases. Acute CS significantly increased (P < 0.05) serum FFA concentrations (58%), FFA flux (63%), and glycerol flux (36%); nonsignificantly increased extra-adipocyte (hepatic) esterification of FFA (125%, P = 0.10) and resting energy expenditure (4.1%, P = 0.22); and did not change adipocyte reesterification of FFA or whole body oxidation of fat. Basal metabolic parameters (after overnight abstention from CS) did not differ between phases. Fractional DNL correlated significantly with excess energy intake (r2 = 0.39) and with percentage of total energy needs provided by carbohydrate (r2 = 0.47). The absence or presence of CS did not affect the increase in fractional DNL in subjects with excess energy intake, however. We conclude that cessation of CS does not result in a rebound tendency to synthesis or storage of fat, even in the presence of positive short-term energy balance, contrary to previous suggestions. Moreover, stimulation of lipolysis by CS does not increase oxidation of fat and thereby protect against fat deposition under conditions of surplus energy intake. The prevention of weight gain after cessation of CS, whether or not nicotine is provided, should focus on energy balance (calorigenesis as well as intake) rather than specific alterations in lipid metabolism.