Treatment of diabetic mice with the SGLT2 inhibitor TA-1887 antagonizes diabetic cachexia and decreases mortality

Sugizaki, Taichi; Zhu, Shunshun; Guo, Guijie; Matsumoto, Akiko; Zhao, Jiabin; Endo, Motoyoshi; Horiguchi, Haruki; Morinaga, Jun; Tian, Zhe; Kadomatsu, Tsuyoshi; Miyata, Keishi; Itoh, Hiroshi; Oike, Yuichi

doi:10.1038/s41514-017-0012-0

Cited by 48 publications

(42 citation statements)

References 59 publications

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“…These observations are consistent with the maintenance of β-pancreatic activity and insulin levels in diabetic mice after the SGLTi administration [31]. While body weight control has been observed in patients treated with SGLT2i [32,33], in our hands, long-term EMP treatment maintained body weight, as previously described in db/db cachectic mice treated with SGLTi [30].…”

Section: Discussionsupporting

confidence: 92%

“…SGLTi mechanism of action is insulin independent; however, since db/db mice are a leptin receptor functional KO model, they are severely diabetic and glucose levels cannot be normalized by EMP treatment. However, we detected that diabetic hyperinsulinemia was longer maintained after EMP treatment, in a similar trend to that previously described in SGLTi-treated db/db mice [30]. These observations are consistent with the maintenance of β-pancreatic activity and insulin levels in diabetic mice after the SGLTi administration [31].…”

Section: Discussionsupporting

confidence: 91%

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Empagliflozin reduces vascular damage and cognitive impairment in a mixed murine model of Alzheimer’s disease and type 2 diabetes

et al. 2020

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Background: Both Alzheimer's disease (AD) and type 2 diabetes (T2D) share common pathological features including inflammation, insulin signaling alterations, or vascular damage. AD has no successful treatment, and the close relationship between both diseases supports the study of antidiabetic drugs to limit or slow down brain pathology in AD. Empagliflozin (EMP) is a sodium-glucose co-transporter 2 inhibitor, the newest class of antidiabetic agents. EMP controls hyperglycemia and reduces cardiovascular comorbidities and deaths associated to T2D. Therefore, we have analyzed the role of EMP at the central level in a complex mouse model of AD-T2D. Methods: We have treated AD-T2D mice (APP/PS1xdb/db mice) with EMP 10 mg/kg for 22 weeks. Glucose, insulin, and body weight were monthly assessed. We analyzed learning and memory in the Morris water maze and the new object discrimination test. Postmortem brain assessment was conducted to measure brain atrophy, senile plaques, and amyloid-β levels. Tau phosphorylation, hemorrhage burden, and microglia were also measured in the brain after EMP treatment. Results: EMP treatment helped to maintain insulin levels in diabetic mice. At the central level, EMP limited cortical thinning and reduced neuronal loss in treated mice. Hemorrhage and microglia burdens were also reduced in EMPtreated mice. Senile plaque burden was lower, and these effects were accompanied by an amelioration of cognitive deficits in APP/PS1xdb/db mice. Conclusions: Altogether, our data support a feasible role for EMP to reduce brain complications associated to AD and T2D, including classical pathological features and vascular disease, and supporting further assessment of EMP at the central level.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionsupporting

confidence: 91%

Empagliflozin reduces vascular damage and cognitive impairment in a mixed murine model of Alzheimer’s disease and type 2 diabetes

et al. 2020

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“…Given the results of the trials involving SGLT2 inhibitors, that is , decreased mortality along with an increase in ketone bodies, it would be interesting to test this class of molecules in mouse models of ageing to obtain preliminary observations regarding the feasibility of inducing glucose excretion as an anti‐ageing strategy. Notably, chronic treatment with an SGLT2 inhibitor attenuates LGI and prolongs lifespan in diabetic mice fed with a high‐fat diet …”

Section: Anti‐inflammatory Effect Of Bhb and Low‐carbohydrate/low‐calmentioning

confidence: 99%

“…Notably, chronic treatment with an SGLT2 inhibitor attenuates LGI and prolongs lifespan in diabetic mice fed with a high-fat diet. 53…”

Section: Anti-inflammatory Effect Of Bhb and Low-carbohydrate/low-cmentioning

confidence: 99%

Increases in circulating levels of ketone bodies and cardiovascular protection with SGLT2 inhibitors: Is low‐grade inflammation the neglected component?

Prattichizzo

Nigris

Micheloni

et al. 2018

Diabetes Obesity Metabolism

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Recent clinical trials have demonstrated a strong cardiovascular (CV) protective effect of sodium/glucose cotransporter (SGLT) 2 inhibitors, a recently introduced class of hypoglycaemic agents. The improvement in glycated haemoglobin and other conventional risk factors explains only a portion of the observed reduction in CV risk. A relevant feature of SGLT2-inhibitor-treated diabetic patients is the increase in circulating levels of ketone bodies, which has been proposed to mediate part of the beneficial effects of this class of drugs, mainly through their bioenergetic properties. However, ketone bodies are emerging as potent anti-inflammatory molecules, and inflammation is a recognized risk factor for the development of CV events. In this framework, we hypothesize that, through their unique mechanism of action and by increasing circulating ketone bodies, SGLT2 inhibitors indirectly target the IL-1β pathway and thus produce a consistent amelioration of low-grade inflammation, a clinically relevant phenomenon in diabetic patients with high CV risk. This attenuation could slow the progression of CV disease and especially the atherosclerotic process, which is sensitive to environmental changes, even over a short time period. To test this conceptual structure, it would be necessary to measure circulating pro-inflammatory molecules in patients treated with SGLT inhibitors. The addition of inflammatory markers to the list of clinical data measured in FDA-requested, large CV outcome trials could provide supplementary information regarding potential secondary effects of new anti-hyperglycaemic drugs, considering that the inflammatory process is an often neglected cornerstone of CV diseases.

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“…can also significantly reduce the risk of mortality among diabetic subjects (Sugizaki et al, 2017). Sugizaki et al (2017) demonstrated that treatment of diabetic animals by SGLT2 inhibitors of TA-1887 reduces diabetes-induced cachexia and death by improving beta cell function and insulin sensitivity in peripheral tissues.…”

Section: Sodium Glucose Cotransporter Type 2 Inhibitorsmentioning

confidence: 99%

Antioxidative potential of antidiabetic agents: A possible protective mechanism against vascular complications in diabetic patients

Yaribeygi

Butler

Barreto

et al. 2018

Journal Cellular Physiology

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Many vascular complications are related to exposure of tissues to elevated levels of glucose, a condition that promotes oxidative stress. The primary goal of antidiabetic medication is for normalization of blood glucose. However, antidiabetic medications may have antioxidant effects that go beyond their hypoglycemic influences. Therefore, antidiabetic drugs may be doubly beneficial in preventing diabetic complications. Vascular dysfunction due to uncontrolled diabetes is a serious complication of the disease and one which has a severe impact on quality of life. Readjustment of the oxidative balance in subjects with diabetes, and the positive effects thereof is a topic of intense interest at present. In the current review, we highlight the antioxidant effects of antidiabetic medications which may prevent or delay the onset of vascular dysfunction.

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Treatment of diabetic mice with the SGLT2 inhibitor TA-1887 antagonizes diabetic cachexia and decreases mortality

Cited by 48 publications

References 59 publications

Empagliflozin reduces vascular damage and cognitive impairment in a mixed murine model of Alzheimer’s disease and type 2 diabetes

Empagliflozin reduces vascular damage and cognitive impairment in a mixed murine model of Alzheimer’s disease and type 2 diabetes

Increases in circulating levels of ketone bodies and cardiovascular protection with SGLT2 inhibitors: Is low‐grade inflammation the neglected component?

Antioxidative potential of antidiabetic agents: A possible protective mechanism against vascular complications in diabetic patients

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