Placental growth factor deficiency initiates obesity- and aging-associated metabolic syndrome

Abstract

Obesity often leads to inadequate angiogenesis in expanding adipose tissue, resulting in inflammation and insulin resistance. We explored the role of placental growth factor (PlGF) in metabolic syndrome (MS) using mice models of type 2 diabetes, high-fat diet, or aging. Reduced serum PlGF levels were associated with decreased insulin sensitivity and development of MS features. PlGF was localized within endothelial cells and pericytes of adipose tissue. In vitro, low PlGF levels in hypoxic conditions worsened oxidative stress, apoptosis, and reduced autophagy. This was associated with a reduction in expression of vascular endothelial growth factor (VEGF)-A/VEGF-R1/−R2, which was influenced by a decrease and increase in PlGF/pAMPK/PI3K-pAkt/PLCγ1-iCa++/eNOS and PTEN/GSK3β axes, respectively. PlGF-knockout mice exhibited MS traits through alterations in the same signaling pathways, and these changes were mitigated by recombinant PlGF and metformin. These enhanced angiogenesis and lipid metabolism, underscoring PlGF's role in age-related MS and its potential as a therapeutic target.