Leptin signaling and leptin resistance - PubMed
Review
Leptin signaling and leptin resistance
Yingjiang Zhou et al. Front Med. 2013 Jun.
Abstract
Leptin is secreted into the bloodstream by adipocytes and is required for the maintenance of energy homeostasis and body weight. Leptin deficiency or genetic defects in the components of the leptin signaling pathways cause obesity. Leptin controls energy balance and body weight mainly through leptin receptor b (LEPRb)-expressing neurons in the brain, particularly in the hypothalamus. These LEPRb-expressing neurons function as the first-order neurons that project to the second-order neurons located within and outside the hypothalamus, forming a neural network that controls the energy homeostasis and body weight. Multiple factors, including inflammation and endoplasmic reticulum (ER) stress, contribute to leptin resistance. Leptin resistance is the key risk factor for obesity. This review is focused on recent advance about leptin action, leptin signaling, and leptin resistance.
Figures
Leptin binds to LEPRb and activates JAK2. JAK2 phosphorylates LEPRb on Tyr985, Tyr1077 and Tyr1138. Phospho-Tyr985, -Tyr1077 and -Tyr1138 bind to downstream molecules and activate the JAK2/STAT3, JAK2/STAT5, PI3K/IRS/AKT, and SHP2/ERK pathways. These pathways act coordinately to regulate energy balance and body weight. LEPRb signaling is regulated both negatively by SOCS3, PTP1B, TCPTP, PTEN and RPTPe and positively by SH2B1. Many factors, including hyperleptinemia, inflammation, ER stress, and defective autophagy, contribute to leptin resistance.
Leptin directly suppresses NPY/AgRP neurons and stimulates POMC/CART neurons in the ARC. ARC neurons project to multiple hypothalamic areas including the DMH, VMH, PVH, and LHA. Leptin also directly activates LEPRb in DMH, VMH, PVH, and LHA neurons. The PVH and LHA are important hypothalamic output pathways that mediate leptin’s anti-obesity action. VTA: ventral tegmental area; NTS: solitary nucleus; IML: intermediolateral cell column.
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