Svetlana Ivanović‐Matić scite author profile

The progression of oxidative stress, resulting cell damage, and cell death underlies the etiology of liver damage/dysfunction as a complication of diabetes. High-mobility group box 1 (HMGB1) protein, a chromatin-binding nuclear protein and damage-associated molecular pattern molecule, is integral to oxidative stress and signaling pathways regulating cell death and cell survival. We previously found that in streptozotocin (STZ)-induced diabetic rats, reduction of oxidative stress after melatonin administration lowered necrotic cell death and increased expression of HMGB1 and hepatocellular damage. In the present study, we examined whether alleviation of diabetes-attendant oxidative stress and ensuing change in HMGB1 expression influence the dynamic equilibrium between apoptosis/autophagy and liver damage. We observed that elevated HMGB1 protein levels in diabetic rat liver accompanied increased interactions of HMGB1 with TLR4 and RAGE, and activation of the intrinsic apoptotic pathway and Beclin 1-dependent autophagy. The absence of p62 degradation in diabetic rat liver pointed to defective autophagy which was responsible for lower autophagosome/autophagolysosome formation and an increased apoptosis/autophagy ratio. Compared to diabetic rats, in melatonin-treated diabetic rats, the structure of liver cells was preserved, HMGB1/TLR4 interaction and downstream apoptotic signaling were significantly reduced, HMGB1/Beclin 1 colocalization and interactions were augmented and Beclin 1-mediated autophagy, mithophagy in particular, were increased. We concluded that in mild oxidative stress, HMGB1 is cytoprotective, whereas in intense oxidative stress, HMGB1 actions promote cell death and liver damage. Since reduced HMGB1 binds to RAGE but not to TLR4, redox modification of HMGB1 as a mechanism regulating the cross-talk between apoptosis and autophagy in diabetes is discussed.

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Haptoglobin and the inflammatory and oxidative status in experimental diabetic rats: antioxidant role of haptoglobin

Arambašić

Mihailović

Bogojević

et al. 2012

J Physiol Biochem

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Regulation of plasma acute-phase protein and albumin levels in the liver of scalded rats

Ševaljević

Ivanović‐Matić

Petrović

et al. 1989

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At 12 h after scalding of rats a doubling of the hepatocyte nuclear DNA content, which arose from the presence of additional complete genomes and not from amplification of genes coding for the major acute-phase proteins or albumin, was observed. Examination of relative transcription rates per control DNA mass revealed that alpha 1-acid-glycoprotein and cysteine-proteinase-inhibitor genes remained constitutive, alpha- and gamma-fibrinogen and haptoglobin genes underwent transcriptional activation for 290 and 339% respectively, whereas the relative transcription rate of albumin decreased to 65% of the control level. Along with these changes, the alpha 1-acid glycoprotein, cysteine-proteinase inhibitor and the fibrinogen mRNA concentrations increased about 500%, haptoglobin mRNA 250%, whereas the albumin mRNA concentration fell to 86% of the control. The regulation of the mRNA levels was assessed by comparing the relative change in transcription rates expressed per control DNA content with the relative changes of mRNA concentrations. We arrived at the conclusion that the concentrations of alpha 1-acid-glycoprotein and cysteine-proteinase-inhibitor mRNAs were predominantly regulated by a post-transcriptional mechanism, albumin mRNA by a transcriptional mechanism, and the fibrinogen and haptoglobin mRNAs by a combination of both. The degree of change of the serum levels of the examined proteins was similar to that of their mRNA concentrations and was the result of the complete use of the available RNA templates in protein synthesis.

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STAT3/NFκB Interplay in the Regulation of α2‐Macroglobulin Gene Expression During Rat Liver Development and the Acute Phase Response

Uskoković¹,

Dinić²,

Mihailović³

et al. 2007

IUBMB Life

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SummaryThe synthesis of alpha-2-macroglobulin (a 2 M) is low in adult rat liver and elevated in fetal liver. During the acute-phase (AP) response it becomes significantly increased in both adult and fetal liver. In this work, the cross talk of STAT3 and NF-k B transcription factors during a 2 M gene expression was analysed. Using immunoblotting, their cellular compartmentalization was examined by comparing the cytoplasmic levels of STAT3 and NF-k B with their active equivalents, the 86 and 91 kDa isoforms and p65-subunit, respectively, in the nuclear extract and nuclear matrix. Different partitioning dynamics of the transcription factors were observed. At the level of protein-DNA interactions, studied by a 2 M promoter affinity chromatography, it was established that different ratios of promoter-binding STAT3 isoforms participated in elevated hepatic transcription in the basal state fetus and the AP-adult, but only the 91 kDa isoform in the AP-fetus. Unchanged levels of DNA-bound p65 in the control and AP-fetus suggest that it participated in constitutive transcription. The promoter-binding of p65 observed in the AP-adult suggests that it was involved in transcriptional stimulation of a 2 M expression. The selective enrichment of the AP-adult nuclear matrix with promoterbinding STAT3 disclosed the importance of this association in the induction of transcription. Protein-protein interactions were examined by co-immunoprecipitation. Interactions between the 86 kDa STAT3 isoform and p65 that were observed in the control and AP-fetus and of both the 86 and 91 kDa STAT3 isoforms with p65 in the AP-adult, suggest that protein-protein interactions were functionally connected to increased transcription. We concluded that a 2 M gene expression is driven by developmental-and AP-related mechanisms that rely on STAT3/NF-k B interplay.

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