An Influence of the Estimated Glomerular Filtration Rate on Improvement in Metabolic Parameters by Sodium-Glucose Cotransporter 2 Inhibitors.

Abstract

We systematically reviewed the anti-atherosclerotic effects beyond glucose lowering of sodium-glucose cotransporter 2 (SGLT2) inhibitors in patients with diabetes, and found that SGLT-2 inhibitors are proved to be significantly associated with weight loss and reduction of blood pressure, in addition to lowering plasma glucose, by a relatively large number of studies [1]. However, the studies investigating effects of SGLT2 inhibitors on visceral fat, insulin sensitivity, serum lipids, inflammation and adipocytokines were very limited [1]. Recently, we reported the effects of SGLT2 inhibitors on metabolic parameters in patients with type 2 diabetes [2]. Our study demonstrated that SGLT2 inhibitors significantly reduced HbA1c and body weight and improved liver functions [2]. SGLT2 is expressed in the proximal tubule of kidney and mediates reabsorption of approximately 90% of the filtered glucose [3]. SGLT2 inhibitors block reabsorption of filtered glucose by inhibiting SGLT2, and promote the renal excretion of glucose [4]. Currently, several SGLT2 inhibitors with various degrees of selectivity toward SGLT2 versus SGLT1 selectivity are being tested in clinical trials [5]. I raised the issue of a significance of SGLT1 inhibition by SGLT2 inhibitors as my expert opinion [6]. Canagliflozin has a low potency to inhibit SGLT1 [7], which is highly distributed in intestine, and may improve postprandial hyperglycemia due to blocking intestinal absorption of glucose by inhibiting SGLT1. Tofogliflozin was identified as a potent and highly selective SGLT2 inhibitor [8]. I found a significant difference in hypoglycemic effect between canagliflozin and tofogliflozin [6], and suggested that a significance of SGLT1 inhibition and selectivity for SGLT2 are the issues that cannot be ignored. I also recommended that we should study how SGLT1 inhibition and selectivity for SGLT2 have an influence on glucose control, and we should elucidate whether such influence is different depending on the patients or not. As the key to resolve these issues, a different distribution between SGLT1 (intestine) and SGLT2 (kidney) came to my mind. SGLT2 inhibitors with potency to inhibit SGLT1 may be more effective to lower glucose as compared with highly selective SGLT2 inhibitors, in patients with renal insufficiency. To understand an influence of the estimated glomerular filtration rate (eGFR) on improvement in metabolic parameters by SGLT2 inhibitors, we sub-analyzed our previous study [2]. We studied 48 patients with type 2 diabetes. Baseline characteristics of subjects who had taken SGLT2 inhibitors and SGLT2 inhibitors prescribed to subjects at baseline are shown in Tables 1 and 2, respectively. The mean value of eGFR in subjects was 93.1 mL/min/1.73 m2. We divided patients into the high eGFR group (mean ± SD of eGFR, 117 ± 36 mL/ min/1.73m2; n = 22) and the low eGFR group (72 ± 14 mL/ min/1.73 m2; n = 26) by the mean value of eGFR. The changes in HbA1c, body weight and alanine aminotransferase (ALT) at 1, 2, 3 and 6 months after the start of SGLT2 inhibitors are shown in Figure 1. HbA1c significantly decreased in the high eGFR group as compared with the low eGFR group at 1, 2, 3 and 6 months after the SGLT2 inhibitors started. The changes in HbA1c at 2 months (r = -0.361, P = 0.059, by the Pearson’s