TMEM16B determines cholecystokinin sensitivity of intestinal vagal afferents of nodose neurons
Runping Wang, Yongjun Lu, Michael Z. Cicha, Madhu V. Singh, Christopher J. Benson, Christopher J. Madden, Mark W. Chapleau, François M. Abboud
Runping Wang, Yongjun Lu, Michael Z. Cicha, Madhu V. Singh, Christopher J. Benson, Christopher J. Madden, Mark W. Chapleau, François M. Abboud
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Research Article Cell biology Metabolism

TMEM16B determines cholecystokinin sensitivity of intestinal vagal afferents of nodose neurons

Abstract

The satiety effects and metabolic actions of cholecystokinin (CCK) have been recognized as potential therapeutic targets in obesity for decades. We identified a potentially novel Ca2+-activated chloride (Cl–) current (CaCC) that is induced by CCK in intestinal vagal afferents of nodose neurons. The CaCC subunit Anoctamin 2 (Ano2/TMEM16B) is the dominant contributor to this current. Its expression is reduced, as is CCK current activity in obese mice on a high-fat diet (HFD). Reduced expression of TMEM16B in the heterozygote KO of the channel in sensory neurons results in an obese phenotype with a loss of CCK sensitivity in intestinal nodose neurons, a loss of CCK-induced satiety, and metabolic changes, including decreased energy expenditure. The effect on energy expenditure is further supported by evidence in rats showing that CCK enhances sympathetic nerve activity and thermogenesis in brown adipose tissue, and these effects are abrogated by a HFD and vagotomy. Our findings reveal that Ano2/TMEM16B is a Ca2+-activated chloride channel in vagal afferents of nodose neurons and a major determinant of CCK-induced satiety, body weight control, and energy expenditure, making it a potential therapeutic target in obesity.

Authors

Runping Wang, Yongjun Lu, Michael Z. Cicha, Madhu V. Singh, Christopher J. Benson, Christopher J. Madden, Mark W. Chapleau, François M. Abboud

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Figure 4

Weight gain and CCK-8 responses of heterozygote TMEM16B-KO mice.

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Weight gain and CCK-8 responses of heterozygote TMEM16B-KO mice. (A) Con...
(A) Conditional KO of Ano2/TMEM16B in Nav1.8Cre;Ano2fl/WT (Ano2+/–) mice leads to a significant reduction of mRNA levels in individual nodose neurons compared with littermate controls (Ano2+/+), from 1.00 ± 0.28 to 0.20 ± 0.08 (n = 24 and 10 neurons from 8 ganglia of 4 mice for each group, *P < 0.05). The CCK-induced current is significantly reduced from 21.1 ± 3.7 to 9.8 ± 1.8 pA/pF (n = 10 and 8 neurons from 6 ganglia of 3 mice for Ano2+/+ and Ano2+/– groups, respectively, *P < 0.05). Unpaired Student’s t test. (B) The Ano2+/– mice gained more weight, with their maximal body weight averaging 41.9 ± 1.3 g (n = 14) vs. 36.0 ± 1.5 g in control mice (n = 14, P < 0.0001, 2-way ANOVA). (C) CCK-8 suppresses the cumulative 4-hour food intake following fasting significantly (n = 7) compared with saline (n = 5) in Ano2+/+ (left panel, P < 0.0001) but increases food intake in Ano2+/– mice (n = 7) compared with saline (n = 6; middle panel, P = 0.0030, 2-way ANOVA). The total 4-hour food intake (bar graph) decreases with CCK from 1.21 ± 0.11 to 0.77 ± 0.18 g (*P < 0.05, unpaired Student’s t test) in Ano2+/+ and increases from 0.63 ± 0.15 to 0.91 ± 0.13 g (P > 0.05, unpaired Student’s t test) in Ano2+/– mice. Data are presented as means ± SEM; each symbol represents individual nodose neurons in A and represents individual mice in C.