Your search keyword '"Halasz, Mirna"' showing total 6 results

1. Systemic Lipid Metabolism Dysregulation as a Possible Driving Force of Fracture Non-Unions?

Author

Grgurević, Lovorka, Novak, Ruđer, Jambrošić, Lucija, Močibob, Marko, Jaganjac, Morana, Halasz, Mirna, Salai, Grgur, Hrkač, Stela, Milošević, Milan, Vlahović, Tomislav, Romić, Jeronim, Matičić, Dražen, and Vidović, Dinko

Subjects

BONE fractures, LIPID metabolism, BLOOD plasma, CYSTATIN C, PROTEOMICS, FRACTURE healing

Abstract

Introduction: Non-unions are fractures that do not heal properly, resulting in a false joint formation at the fracture site. This condition leads to major health issues and imposes a burden on national healthcare systems. The etiology of non-unions is still not fully understood; therefore, we aimed to identify potential systemic factors that may contribute to their formation. Materials and methods: We conducted a cross-sectional concomitant proteomic and metabolomic pilot study of blood plasma in patients with non-unions (N = 11) and compared them with patients with bone fracture in the normal active healing phase (N = 12). Results: We found five significantly upregulated proteins in the non-union group: immunoglobulin heavy variable 3–74, immunoglobulin lambda variable 2–18, low-density lipoprotein receptor-related protein 4, zinc-alpha-2-glycoprotein, and serum amyloid A-1 protein; and we found one downregulated protein: cystatin-C. The metabolomic study found differences in alanine, aspartate and glutamate metabolism pathways between two groups. Conclusions: The combined results of proteomic and metabolomic analyses suggest that the dysregulation of lipid metabolism may contribute to non-union formation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Lipid Peroxidation-Related Redox Signaling in Osteosarcoma.

Author

Borović Šunjić, Suzana, Jaganjac, Morana, Vlainić, Josipa, Halasz, Mirna, and Žarković, Neven

Subjects

OXIDATION-reduction reaction, OSTEOSARCOMA, OXIDATIVE stress, LIPIDS, CANCER cells, CELLULAR signal transduction, LIPID peroxidation (Biology)

Abstract

Oxidative stress and lipid peroxidation play important roles in numerous physiological and pathological processes, while the bioactive products of lipid peroxidation, lipid hydroperoxides and reactive aldehydes, act as important mediators of redox signaling in normal and malignant cells. Many types of cancer, including osteosarcoma, express altered redox signaling pathways. Such redox signaling pathways protect cancer cells from the cytotoxic effects of oxidative stress, thus supporting malignant transformation, and eventually from cytotoxic anticancer therapies associated with oxidative stress. In this review, we aim to explore the status of lipid peroxidation in osteosarcoma and highlight the involvement of lipid peroxidation products in redox signaling pathways, including the involvement of lipid peroxidation in osteosarcoma therapies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Population differentiation supports multiple human-mediated introductions of the transatlantic exotic sponge Paraleucilla magna (Porifera, Calcarea).

Author

Cavalcanti, Fernanda F., Padua, André, Cunha, Haydée, Halasz, Mirna, Nikolić, Vedran, Barreto, Silvia, and Klautau, Michelle

Subjects

POPULATION differentiation, SPONGES (Invertebrates), COASTS

Abstract

Paraleucilla magna was the first sponge recognised as alien in the Atlantic. It was first registered in Rio de Janeiro (Brazil) and soon became very abundant in the southeastern and southern coasts of Brazil and also in the Mediterranean. Its origin is still unknown but recurrent introductions seem to have occurred in the Mediterranean. In this study, we used genetic markers (microsatellites) to test if Brazilian and Adriatic populations share a single source or if multiple introductions occurred in both regions. We also compared the genetic composition of populations established almost 30 years ago (Brazil) with a recently founded population (Adriatic—less than 10 years). Populations of P. magna were sampled in four localities across 900 km in the Southwestern Atlantic (Brazilian coast) and in one locality in the Adriatic (Croatian coast). Our results suggest the presence of five genetically distinct populations possibly originated by multiple human-mediated introductions from different sources and show that the putative most recently established population is genetically more diverse. [ABSTRACT FROM AUTHOR]

Published

2020

4. De novo expression of transfected sirtuin 3 enhances susceptibility of human MCF-7 breast cancer cells to hyperoxia treatment.

Author

Pinterić, Marija, Podgorski, Iva I., Sobočanec, Sandra, Popović Hadžija, Marijana, Paradžik, Mladen, Dekanić, Ana, Marinović, Maja, Halasz, Mirna, Belužić, Robert, Davidović, Grazia, Ambriović Ristov, Andreja, and Balog, Tihomir

Subjects

CANCER treatment, CARCINOGENESIS, SIRTUINS, TUMOR suppressor genes, REACTIVE oxygen species, GLYCOLYSIS, PHOSPHORYLATION, DNA damage

Abstract

Sirtuin 3 (Sirt3) has a promising role in cancer tumourigenesis and treatment, but there have been controversies about its role as oncogene or tumour suppressor in different types of cancer. Changes in its expression are associated with the excessive production of reactive oxygen species (ROS), thus contributing to mitochondrial dysfunction and age-related pathologies. Hyperoxic treatment (i.e. generator of ROS) was shown to support some tumourigenic properties, but finally suppresses growth of certain mammary carcinoma cells. Due to strikingly reduced Sirt3 level in many breast cancer cell lines, we aimed to clarify the effect of de novo Sirt3 expression upon hyperoxic treatment in the human MCF-7 breast cancer cells. De novo expression of Sirt3 decreased metabolic activity and cellular growth of MCF-7 cells, reduced expression of proangiogenic and epithelial mesenchymal transition genes, induced metabolic switch from glycolysis to oxidative phosphorylation, and decreased abundance of senescent cells. These effects were enhanced upon hyperoxic treatment: induction of DNA damage and upregulation of p53, with an increase of ROS levels followed by mitochondrial and antioxidant dysfunction, resulted in additional reduction of metabolic activity and inhibition of cellular growth and survival. The mitigation of tumorigenic properties and enhancement of the susceptibility of the MCF-7 breast cancer cells to the hyperoxic treatment upon de novo Sirt3 expression indicates that these factors, individually and in combination, should be further explored in vitro and particularly in vivo, as an adjuvant tumour therapy in breast cancer malignancies. [ABSTRACT FROM AUTHOR]

Published

2018

5. Sponges: A Reservoir of Genes Implicated in Human Cancer.

Author

Ćetković, Helena, Halasz, Mirna, and Herak Bosnar, Maja

Abstract

Recently, it was shown that the majority of genes linked to human diseases, such as cancer genes, evolved in two major evolutionary transitions--the emergence of unicellular organisms and the transition to multicellularity. Therefore, it has been widely accepted that the majority of disease-related genes has already been present in species distantly related to humans. An original way of studying human diseases relies on analyzing genes and proteins that cause a certain disease using model organisms that belong to the evolutionary level at which these genes have emerged. This kind of approach is supported by the simplicity of the genome/proteome, body plan, and physiology of such model organisms. It has been established for quite some time that sponges are an ideal model system for such studies, having a vast variety of genes known to be engaged in sophisticated processes and signalling pathways associated with higher animals. Sponges are considered to be the simplest multicellular animals and have changed little during evolution. Therefore, they provide an insight into the metazoan ancestor genome/proteome features. This review compiles current knowledge of cancer-related genes/proteins in marine sponges. [ABSTRACT FROM AUTHOR]

Published

2018

6. Characterization of Nme5-Like Gene/Protein from the Red Alga Chondrus Crispus.

Author

Perina, Dragutin, Korolija, Marina, Mikoč, Andreja, Halasz, Mirna, Herak Bosnar, Maja, and Ćetković, Helena

Abstract

The Nme gene/protein family of nucleoside diphosphate kinases (NDPK) was originally named after its member Nm23-H1/Nme1, the first identified metastasis suppressor. Human Nme proteins are divided in two groups. They all possess nucleoside diphosphate kinase domain (NDK). Group I (Nme1-Nme4) display a single type NDK domain, whereas Group II (Nme5-Nme9) display a single or several different NDK domains, associated or not associated with extra-domains. Data strongly suggest that, unlike Group I, none of the members of Group II display measurable NDPK activity, although some of them autophosphorylate. The multimeric form is required for the NDPK activity. Group I proteins are known to multimerize, while there are no data on the multimerization of Group II proteins. The Group II ancestral type protein was shown to be conserved in several species from three eukaryotic supergroups. Here, we analysed the Nme protein from an early branching eukaryotic lineage, the red alga Chondrus crispus. We show that the ancestral type protein, unlike its human homologue, was fully functional multimeric NDPK with high affinity to various types of DNA and dispersed localization throughout the eukaryotic cell. Its overexpression inhibits both cell proliferation and the anchorage-independent growth of cells in soft agar but fails to deregulate cell apoptosis. We conclude that the ancestral gene has changed during eukaryotic evolution, possibly in correlation with the protein function. [ABSTRACT FROM AUTHOR]

Published

2020