BACKGROUND/AIMS: Protein-L-isoaspartyl methyltransferase (PIMT) is a methyltransferase that plays a crucial role in the repair of damaged proteins. In this study, we investigated whether ethanol exposure causes an accumulation of modified proteins bearing atypical isoaspartyl residues that may be related to impaired PIMT activity. We further sought to determine whether betaine administration could prevent the accumulation of these types of damaged proteins. METHODS: Livers of male Wistar rats, fed the Lieber DeCarli control, ethanol or 1% betaine-supplemented diets for 4 weeks, were processed for PIMT-related analyses. RESULTS: We observed a significant increase in the accumulation of modified proteins bearing isoaspartyl residues, i.e. the substrates for PIMT, in homogenate samples and various subcellular fractions of livers from ethanol-fed rats. Betaine supplementation prevented this accumulation of damaged proteins. In contrast, ethanol exposure induced no changes in the PIMT enzyme activity levels as compared to controls. The accumulation of damaged proteins negatively correlated with hepatic S-adenosylmethionine (SAM) to S-adenosylhomocysteine (SAH) ratios. CONCLUSIONS: Ethanol consumption results in the accumulation of modified proteins bearing atypical isoaspartyl residues via impaired in vivo PIMT activity. Betaine administration prevents the ethanol-induced accumulation of isoaspartyl-containing proteins by restoring the PIMT-catalyzed protein repair reaction through normalizing the hepatocellular SAM:SAH ratios.
BACKGROUND/AIMS: Protein-L-isoaspartyl methyltransferase (PIMT) is a methyltransferase that plays a crucial role in the repair of damaged proteins. In this study, we investigated whether ethanol exposure causes an accumulation of modified proteins bearing atypical isoaspartyl residues that may be related to impaired PIMT activity. We further sought to determine whether betaine administration could prevent the accumulation of these types of damaged proteins. METHODS: Livers of male Wistar rats, fed the Lieber DeCarli control, ethanol or 1% betaine-supplemented diets for 4 weeks, were processed for PIMT-related analyses. RESULTS: We observed a significant increase in the accumulation of modified proteins bearing isoaspartyl residues, i.e. the substrates for PIMT, in homogenate samples and various subcellular fractions of livers from ethanol-fed rats. Betaine supplementation prevented this accumulation of damaged proteins. In contrast, ethanol exposure induced no changes in the PIMT enzyme activity levels as compared to controls. The accumulation of damaged proteins negatively correlated with hepatic S-adenosylmethionine (SAM) to S-adenosylhomocysteine (SAH) ratios. CONCLUSIONS:Ethanol consumption results in the accumulation of modified proteins bearing atypical isoaspartyl residues via impaired in vivo PIMT activity. Betaine administration prevents the ethanol-induced accumulation of isoaspartyl-containing proteins by restoring the PIMT-catalyzed protein repair reaction through normalizing the hepatocellular SAM:SAH ratios.
Authors: Wayne G Carter; Vasanthy Vigneswara; Anna Newlaczyl; Declan Wayne; Bilal Ahmed; Stephen Saddington; Charlotte Brewer; Nikhilesh Raut; Henry K Gerdes; Amaia M Erdozain; David Tooth; Edward L Bolt; Natalie A Osna; Dean J Tuma; Kusum K Kharbanda Journal: Biochem Biophys Res Commun Date: 2015-02-13 Impact factor: 3.575
Authors: Natalia A Osna; Wayne G Carter; Murali Ganesan; Irina A Kirpich; Craig J McClain; Dennis R Petersen; Colin T Shearn; Maria L Tomasi; Kusum K Kharbanda Journal: World J Gastroenterol Date: 2016-07-21 Impact factor: 5.742
Authors: Kusum K Kharbanda; Vasanthy Vigneswara; Benita L McVicker; Anna U Newlaczyl; Kevin Bailey; Dean Tuma; David E Ray; Wayne G Carter Journal: Biochem Biophys Res Commun Date: 2009-02-23 Impact factor: 3.575