A case of NASH with genetic predisposition successfully treated with an SGLT2 inhibitor: a possible involvement of mitochondrial dysfunction.
Rikako NakajimaMotohiro SekiyaYasuhisa FurutaTakafumi MiyamotoMasashi SatoKuniaki FukudaKeiichiro HattoriYasuhito SueharaMamiko Sakata-YanagimotoShigeru ChibaYuka OkajimaTakashi MatsuzakaSatoru TakaseMikio TakanashiHiroaki OkazakiYusuke TakashimaMikiko YuharaYuta MitaniNako MatsumotoYuki MurayamaMariko Ohyama OsawaNami OhuchiDaichi YamazakiSayuri MoriYoko SuganoYoshinori OsakiHitoshi IwasakiHiroaki SuzukiHitoshi ShimanoPublished in: Endocrinology, diabetes & metabolism case reports (2022)
While the PNPLA3 I148M mutation is well-established, accumulation of other mutations may accelerate susceptibility to non-alcoholic steatohepatitis (NASH). NASH and dyslipidemia may be intertwined biochemically and genetically through several key genes. SGLT2 inhibitors emerge as promising treatment for NASH albeit with interindividual variation in efficacy. Genetic background may explain the mechanisms behind the variation. A novel dysfunctional mutation in MUL1 may lead to metabolic inflexibilities through impaired mitochondrial dynamics and function.