Effect of SGLT2 Inhibitors on NAFLD in Type 2 Diabetic Patients with Diabetic Nephropathy

Overview

To rule out the beneficial effect of SGLT2-I to reduce liver fat, and change in inflammatory markers (ALT, AST) in type 2 diabetic patients with non-alcoholic fatty liver disease. And its role in improvement of Albuminuria and CKD progression.

Non-alcoholic fatty liver disease (NAFLD), is the most common liver disease and has been reported to be as high as 25%. It is characterized by the presence of fat in at least 5% of hepatocytes \[1,2\]. Lipid homeostasis in the liver is controlled by a very complex interplay between nuclear receptors, transcription factors, and hormones. Excessive fat storage occurs when the balance between lipogenesis/lipid uptake versus lipid oxidation/excretion is disrupted \[3,4\]. NAFLD is usually associated with metabolic syndrome and is not, by definition, caused by excessive alcohol intake (defined as \_20 g per day for women and \_30 g per day for men) \[1,2\]. NAFLD represents a wide range of liver diseases, but histologically, it can be divided into two different types: non-alcoholic fatty liver (simple steatosis or NAFL) and non-alcoholic steatohepatitis (NASH), which is the more aggressive form \[5-7\]. Liver inflammation and injury are typical for NASH, and this form of NAFLD could lead to liver cirrhosis and hepatocellular cancer \[2,8\]. Due to the slow and asymptomatic progression of NAFLD, it is often diagnosed at a late stage. NAFLD has already become the second most common indication for liver transplantation. It takes around three to seven years for the development of NASH, which occurs in one-fifth of patients with NAFLD \[9,10\]. Currently, lifestyle modifications such as weight loss and physical activity are essential for all patients with NAFLD but are mostly not successful in the management of disease progression. Thus, there is an urgent need for approved medication therapy for NAFLD \[4,5,11,12\]. Ideal pharmacotherapy for NAFLD should decrease steatosis and inflammation, preferably liver fibrosis, while simultaneously improving insulin resistance, adiposity, and serum glucose levels \[11\]. There are currently numerous agents under clinical studies, and one of the leading candidates for Food and Drug Administration (FDA) approval is sodium-glucose cotransporter 2 (SGLT2) inhibitors \[2,13,14\]. Canagliflozin (Invokana), dapagliflozin, empagliflozin, ipragliflozin, tofogliflozin, and ertugliflozin, also known as "flozins", are glucose-lowering agents with an insulin-independent mode of action \[15-19\]. They were FDA-approved as oral antidiabetic drugs to reduce glucose levels by the inhibition of glucose reabsorption in the proximal renal tubule and are, in general, not associated with a risk of hypoglycaemia \[20,21\]. In general, SGLT2 inhibitors have a good safety profile, and the most frequent side effects reported are infection of the genitourinary tract and hypotension \[16\]. After gaining approval for T2DM, SGLT2 inhibitors were also approved for chronic kidney disease and heart failure in type 2 diabetic and the non-diabetic population due to their beneficial effects on the cardiovascular and renal systems \[5,22\]. In general, the antifibrotic and anti-inflammatory effects of SGLT2 inhibitors have been proposed as a common mode of action for liver, kidney, and heart protection \[23\]. Effect of SGLT2 Inhibitors on Liver is by conversion of carbohydrates from the bloodstream into fatty acids and ultimately into triglycerides or other lipids is a highly coordinated process called de novo lipogenesis \[24\]. Catabolism and lipolysis in extrahepatic tissues, especially adipose tissue, result in the transfer of free fatty acids to the liver, where excess fat results in liver steatosis. Insulin regulates both de novo lipogenesis and lipolysis. Since insulin resistance is usually present in NAFLD patients, insulin is unable to adequately inhibit adipose lipolysis \[25\]. Since insulin resistance is usually present in NAFLD patients, insulin is unable to adequately inhibit adipose lipolysis \[25\]. Furthermore, adipose tissue affects NAFLD progression by producing hormones and cytokines, which contribute to the dysfunction of hepatocytes and by increasing liver uptake of lipids \[26\]. Lipoprotein lipase (LPL), the enzyme that regulates the rate of hydrolysis of VLDL and triglycerides, is also involved in NAFLD development due to upregulation \[4\]. Dysregulation of liver lipid metabolism is associated with metabolic diseases such as T2DM and fatty liver. Regarding the pathophysiology of NAFLD improvement under SGLT-2i treatment, various mechanisms have been suggested. Treatment with SGLT-2i results in decreases in both glucose and insulin levels (especially in patients with DM), which lead to a large reduction of hepatic de novo lipid synthesis \[27\]. Moreover, glucagon-secreting alpha pancreatic cells also, express SGLT-2, thus the administration of SGLT-2i stimulates glucagon secretion \[27,28,29\]. In turn, the subsequently elevated plasma glucagon levels stimulate β- oxidation, and this shift from carbohydrate to fatty acid metabolism leads to reduced liver triglyceride content and consequently hepatic steatosis \[27,30,31\]. Another potential mechanism is mediated by the antioxidant effects of SGLT-2i. Apart from their ability to reduce high glucose-induced oxidative stress, SGLT-2i reduce free radical generation, suppress pro-oxidants, and upregulate antioxidant systems, such as superoxide dismutases (SODs) and glutathione (GSH) peroxidases \[32,33,34,35,36,37\].

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