Liliana N. Guerra

High-Mobility Group Box 1 Protein in Human and Murine Skin: Involvement in Wound Healing

High-mobility group box 1 (HMGB1) protein is a multifunctional cytokine involved in inflammatory responses and tissue repair. In this study, it was examined whether HMGB1 plays a role in skin wound repair both in normoglycemic and diabetic mice. HMGB1 was detected in the nucleus of skin cells, and accumulated in the cytoplasm of epidermal cells in the wounded skin. Diabetic human and mouse skin showed more reduced HMGB1 levels than their normoglycemic counterparts. Topical application of HMGB1 to the wounds of diabetic mice enhanced arteriole density, granulation tissue deposition, and accelerated wound healing. In contrast, HMGB1 had no effect in normoglycemic mouse skin wounds, where endogenous HMGB1 levels may be adequate for optimal wound closure. Accordingly, inhibition of endogenous HMGB1 impaired wound healing in normal mice but had no effect in diabetic mice. Finally, HMGB1 had a chemotactic effect on skin fibroblasts and keratinoyctes in vitro. In conclusion, lower HMGB1 levels in diabetic skin may play an important role in impaired wound healing and this defect may be overcome by the topical application of HMGB1.

Antioxidants in the treatment of Graves disease.

An antioxidant mixture (LAROTABE) was evaluated in the treatment of Graves disease. Fifty‐six hyperthyroid patients were treated with methimazol (MMI) (A), LAROTABE (B), or MMI plus LAROTABE (C). According to a clinical score, improvement was obtained at 8 weeks in A and 4 weeks in B and C. Group A diminished their thyroid hormone concentration to normal levels, while patients with LAROTABE did not reduce T3 and T4 unless MMI was introduced. Hyperthyroid patients had increased malondialdehyde (MDA) content and SOD activity and decreased catalase activity compared to controls. Within group A, MDA decreased to control values while SOD was reduced 38.3% and catalase increased 21.6%. Similar results were obtained for MDA and for both enzymes after treatment with LAROTABE. Signs and symptoms of Graves disease might be related to an increase in free radicals; antioxidants could be a new therapeutic tool to improve the clinical manifestation of this illness.

N-Acetylcysteine affects obesity-related protein expression in 3T3-L1 adipocytes.

Abstract Objectives Oxidative stress plays critical roles in the pathogeneses of diabetes, hypertension, and atherosclerosis, but its effect on fat accumulation is still unclear. In this study, we analyzed the role of the well-known antioxidant and a glutathione (GSH) precursor N-acetylcysteine (NAC) in fat accumulation and the expression of obesity-associated proteins. Methods We studied the effects of 10 µM NAC on obesity-related protein expression in cultured 3T3-L1 preadipocytes, which are able to differentiate into mature adipocytes and accumulate lipids. Results NAC treatment inhibited fat accumulation and reduced the expression of obesity-related proteins, including monoamine oxidase A, heat shock protein 70 (HSP70), aminoacylase -1 (ACY-1), and transketolase. Discussion Our results suggest that the effects of NAC on triglycerides (Tgs) and protein expression are correlated. In support of this, we showed that NAC treatment affected both the Tg synthesis pathway and the expression levels of proteins implicated in human obesity.

Thyroid hormone effect in human hepatocytes

Abstract We have already demonstrated that a combined treatment of methimazole and an antioxidant mixture improved the condition of hyperthyroid patients both biochemically and clinically. Elevated thyroid hormone levels might trigger signs and symptoms of hyperthyroidism through the increase of free radicals. To study the direct effect of thyroid hormone on cellular markers of oxidative stress, we carried out in vitro assays in which 0.1–20.0 nM T3 (6.5–1300.0 ng/dl) doses were added to culture media of the human hepatocyte cell line Hep G2 for 1–24 h. T3 increased malondialdehyde (MDA) and intracellular oxidized glutathione (GSSG) levels; SOD activity was also higher with hormone treatment, whereas catalase and glutathione peroxidase activities showed no variation at different T3 doses and during all experimental times. When ascorbic acid was added to the culture, the MDA level decreased and SOD activity was increased. With higher doses of T3 (e.g. 200 nM), cell death occurred (69% of apoptotic cells). The increase in SOD activity was not enough to overcome the effect of T3 since MDA and GSSG remained high during a 24-h experiment. We showed a beneficial effect of ascorbic acid when cells were exposed to a T3 dose of 20 nM, a higher level of hormone than that achieved in hyperthyroidism.

N-acetylcysteine inhibits lipid accumulation in mouse embryonic adipocytes.

Oxidative stress plays critical roles in the pathogenesis of diabetes, hypertension, and atherosclerosis; some authors reported that fat accumulation correlates to systemic oxidative stress in human and mice, but cellular redox environment effect on lipid accumulation is still unclear. In our laboratory we used mouse embryonic fibroblasts (undifferentiated cells: CC), which are capable of differentiating into mature adipocytes (differentiated cells: DC) and accumulate lipids, as obesity model. Here we analyzed the role of the well-known antioxidant and glutathione precursor N-acetylcysteine (NAC) in cellular MAPK modulation and lipid accumulation. We evaluated the effect of NAC on the adipogenic differentiation pathway using different doses: 0.01, 0.1, 1 and 5 mM; no toxic doses in these cells. A dose of 5 mM NAC [DCN-5] provoked a significant decrease in triglyceride accumulation (72±10 [DCN-5] vs 169±15 [DC], p<0.01), as well in Oil Red O stained neutral lipid content (120±2 [DCN-5] vs 139±12 [DC], p<0.01). Molecular mechanisms responsible for adipogenic differentiation involve increase of the expression of phosphoERK½ and phosphoJNK, 5 mM NAC treatment inhibited both pERK½ and pJNK protein levels. We also evaluated the mitotic clonal expansion (MCE) which takes place during adipogenesis and observed an increase in DC at a rate of 1.5 cells number compared to CC at day 2, whereas the highest doses of NAC significantly inhibited MCE. Our results suggest that NAC inhibits lipid accumulation and the MAPK phosphorylation in mouse embryonic fibroblasts during adipogenic differentiation and further contribute to probe the importance of cellular redox environment in adipogenesis.

Bromocriptine and the expression of c-myc and c-fos in human prolactinomas.

Abstract Prolactinomas are one of the most frequent tumors of the human anterior pituitary. Dopamine agonists are the choice in the medical treatment of this disease. Bromocriptine (BC) is a well known anti-neoplasic agent in human PRL secreting adenomas although its effect on PRL cells is far from clear. We decided to investigate its influence on cell proliferation parameters: (3H)thymidine incorporation, expression of c-myc and c-fos, and number of estrogen receptors present in the samples. A total of 28 patients were included in this protocol. They were treated with BC (5-7.5 mg day-1 patient-1) or with vehicle orally 15 days before surgery. We found that in BC treated patients (3H)thymidine incorporation was lower than in vehicle treated patients. The oncogenes expression were diminished in BC comparing with vehicle-treated patients. No difference in the number of estrogen receptors was observed in the samples from BC or vehicle-treated patients. These results clearly demonstrate that one mechanism to reduce the size of human PRL secreting adenomas by BC is the inhibition of DNA duplication. [Neurol Res 2001; 23: 721-723]

N-acetylcysteine inhibits kinase phosphorylation during 3T3-L1 adipocyte differentiation

ABSTRACT Objectives: Reports investigating the effects of antioxidants on obesity have provided contradictory results. We have previously demonstrated that treatment with the antioxidant N-acetylcysteine (NAC) inhibits cellular triglyceride (Tg) accumulation as well as total cellular monoamine oxidase A (MAOA) expression in 3T3-L1 mature adipocytes (Calzadilla et al., Redox Rep. 2013;210–218). Here we analyzed the role of NAC on adipogenic differentiation pathway. Methods: Assays were conducted using 3T3-L1 preadipocytes (undifferentiated cells: CC), which are capable of differentiating into mature adipocytes (differentiated cells: DC). We studied the effects of different doses of NAC (0.01 or 1 mM) on DC, to evaluate cellular expression of phospho-JNK½ (pJNK½), phospho-ERK½ (pERK½) and, mitochondrial expression of citrate synthase, fumarate hydratase and MAOA. Results: Following the differentiation of preadipocytes, an increase in the expression levels of pJNK½ and pERK½ was observed, together with mitotic clonal expansion (MCE). We found that both doses of NAC decreased the expression of pJNK½ and pERK½. Consistent with these results, NAC significantly inhibited MCE and modified the expression of different mitochondrial proteins. Discussion: Our results suggested that NAC could inhibit Tg and mitochondrial protein expression by preventing both MCE and kinase phosphorylation.

Alpha subunit of glycoprotein hormones in the sera of acromegalic patients and its mRNA in the tumors

Within a population of 16 pituitary adenomas we found high levels of glycoprotein alpha subunits in the sera of patients with somatotrophic tumors. This finding was correlated with the presence of mRNA alpha subunit in these tumors indicating the adenomas themselves as the origin of the circulating alpha-subunit. Synthesis of these two hormones, which are chemically very different, by the same tumor cells indicates a high degree of differentiation of these cells. We are unable at this time to conclusively correlate differentiation of these tumors aggressively.