P0980IMPLICATIONS OF ADIPOSE EARLY DOWNREGULATION OF INTEGRIN-LINKED KINASE (ILK) IN THE DEVELOPMENT OF METABOLIC SYNDROME IN MICE

Abstract

Abstract Background and Aims Insulin resistance (IR)-related metabolic disorders, such as diabetes type 2 and obesity, are linked to renal and cardiovascular risk. Unfortunately, they lack a better prognosis before their full establishment. An important mechanism associated to the IR development is the dysregulation of lipolysis in white adipose tissue (WAT), which is driven by the excessive lipid accumulation, together with inflammation and the excessive deposition of ECM components such as collagens and fibronectin, known as fibrosis. The intracellular lipid adjustment is affected by changes in the expression and activity of the hormone-sensitive lipase (HSL) and the intracellular and circulating balance of the lipolysis products glycerol and free fatty acids. We published that transgenic depletion of the scaffold intracellular protein Integrin-linked kinase (ILK), one of the adhesome translators of the ECM signals, modulates IR in WAT [Hatem-Vaquero et al. J Endocrinol. 2017]. We also published that ILK downregulation in WAT is an early event in a short-term high fat diet (HFD) mice model that correlates with a faster insulin sensitivity loss, accompanied with an early increase of body weight and the erratic expression of WAT adipokines and metabolites transporters. [Hatem-Vaquero et al. Cell Physiol Biochem 2020]. Here we used in vivo and in vitro approaches to decode the role of ILK downregulation during WAT expansion and altered lipolysis. Method Adult mice with global transgenic downregulation of ILK expression (cKD-ILK) and littermates without that depletion (CT) were fed with either standard (STD) or high fat (HFD) diets during 2 and 6 weeks. We determined the weight changes on body and WAT depots, epidydimal (eWAT) and subcutaneous (scWAT), and the circulating lypolisis product glycerol. The expression of ECM component fibronectin (FN), fibrosis marker TGF-beta and the glycerol transporter AQP3 were determined in eWAT by RT-qPCR or Western blot. Comparative studies were performed in cultured C3H10t1/2-based adipocytes where ILK expression was deliberately downregulated by the transfection of siRNAs against ILK or in control adipocytes (scramble siRNAs). We determined the expression of ILK, total and active HSL isoforms (HSL, p-HSL s660) by RT-qPCR or Western blot and the intracellular fat droplet content (by adipo-red dye) Results HFD increased progressively CT eWAT, scWAT and whole body weight gains. HFD-fed cKD-ILK have an earlier increase of body and eWAT weights. However, the scWAT weight ratio against eWAT was inverted in the same cKD-ILK animals. This early depot-specific response to HFD coincide with increase in IR [Wajchenberg BL. Endocr Rev 2000]. HFD-fed cKD-ILK WAT early expressed altered levels of fibrotic markers (TGF-beta and Fibronectin). HFD-fed cKD-ILK shown a temporary increase of circulating glycerol and its WAT transporter AQP3. In cultured adipocytes with downregulated expression of ILK, the intracellular fat droplet was increased and the HSL contain and its lipolysis activity (measured as levels of p-HSL isoform) were reduced. Conclusion We suggest ILK as a modulator during the obesity establishment. Considering the observed relation between ILK expression with the altered lipolysis and fibrosis patterns observed in visceral WAT, ILK downregulation may be a predictive value and probably its pharmacological upregulation may be a novel therapeutic strategy against obesity and IR.