Your search keyword '"Šimić, Goran"' showing total 11 results

1. Effects of heterologous human tau protein expression in yeast models of proteotoxic stress response.

Author

Zubčić, Klara, Franić, Dina, Pravica, Mihaela, Hof, Patrick R., Šimić, Goran, and Boban, Mirta

Subjects

TAU proteins, PROTEIN expression, YEAST, ALZHEIMER'S disease, NEUROFIBRILLARY tangles

Abstract

Background: The primary histological characteristic of Alzheimer's disease is the presence of neurofibrillary tangles, which are large aggregates of tau protein. Aging is the primary risk factor for the development of Alzheimer's disease, however, the underlying causes of tau protein aggregation and toxicity are unclear. Aims: Here we investigated tau aggregation and toxicity under the conditions of compromised protein homeostasis. Methods: We used heterologous expression of human tau protein in the unicellular eukaryote yeast Saccharomyces cerevisiae with evolutionarily conserved protein quality control pathways and examined tau‐dependent toxicity and aggregation using growth assays, fluorescence microscopy, and a split luciferase‐based reporter NanoBiT. Results: Tau protein expressed in yeast under mild proteotoxic stress, or in mutants with impaired pathways for proteotoxic stress response, did not lead to synthetic toxicity or the formation of obvious aggregates. Chronologically old cells also did not develop observable tau aggregates. Our examination of tau oligomerization in living cells using NanoBiT reporter suggests that tau does not form significant levels of oligomers under basal conditions or under mild proteotoxic stress. Conclusion: Together our data suggest that human tau protein does not represent a major burden to the protein quality control system in yeast cells. When expressed in yeast Saccharomyces cerevisiae cell model under the conditions of compromised protein homeostasis, human tau protein does not form visible aggregates or result in toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

2. Histological characterization and development of mesial surface sulci in the human brain at 13-15 gestational weeks through high-resolution histology.

Author

Verma, Richa, Jayakumar, Jaikishan, Folkerth, Rebecca, Manger, Paul R., Bota, Mihail, Majumder, Moitrayee, Pandurangan, Karthika, Savoia, Stephen, Karthik, Srinivasa, Kumarasami, Ramdayalan, Joseph, Jayaraj, Rohini, G., Vasudevan, Sudha, Srinivasan, Chitra, Lata, S., Kumar, E. Harish, Rangasami, Rajeswaran, Kumutha, Jayaraman, Suresh, S., and Šimić, Goran

Abstract

Cellular-level anatomical data from early fetal brain are sparse yet critical to the understanding of neurodevelopmental disorders. We characterize the organization of the human cerebral cortex between 13 and 15 gestational weeks using highresolution whole-brain histological data sets complimented with multimodal imaging. We observed the heretofore underrecognized, reproducible presence of infolds on the mesial surface of the cerebral hemispheres. Of note at this stage, when most of the cerebrum is occupied by lateral ventricles and the corpus callosum is incompletely developed, we postulate that these mesial infolds represent the primordial stage of cingulate, callosal, and calcarine sulci, features of mesial cortical development. Our observations are based on the multimodal approach and further include histological three-dimensional reconstruction that highlights the importance of the plane of sectioning. We describe the laminar organization of the developing cortical mantle, including these infolds from the marginal to ventricular zone, with Nissl, hematoxylin and eosin, and glial fibrillary acidic protein (GFAP) immunohistochemistry. Despite the absence of major sulci on the dorsal surface, the boundaries among the orbital, frontal, parietal, and occipital cortex were very well demarcated, primarily by the cytoarchitecture differences in the organization of the subplate (SP) and intermediate zone (IZ) in these locations. The parietal region has the thickest cortical plate (CP), SP, and IZ, whereas the orbital region shows the thinnest CP and reveals an extra cell-sparse layer above the bilaminar SP. The subcortical structures show intensely GFAP-immunolabeled soma, absent in the cerebral mantle. Our findings establish a normative neurodevelopment baseline at the early stage. [ABSTRACT FROM AUTHOR]

Published

2024

3. Total tau in cerebrospinal fluid detects treatment responders among spinal muscular atrophy types 1–3 patients treated with nusinersen.

Author

Šimić, Goran, Vukić, Vana, Babić, Marija, Banović, Maria, Berečić, Ivana, Španić, Ena, Zubčić, Klara, Golubić, Anja Tea, Barišić Kutija, Marija, Merkler Šorgić, Ana, Vogrinc, Željka, Lehman, Ivan, Hof, Patrick R., Sertić, Jadranka, and Barišić, Nina

Subjects

*SPINAL muscular atrophy, *TAU proteins, *CEREBROSPINAL fluid, *ENZYME-linked immunosorbent assay, *MOTOR ability

Abstract

Aims: Considering the substantial variability in treatment response across patients with spinal muscular atrophy (SMA), reliable markers for monitoring response to therapy and predicting treatment responders need to be identified. The study aimed to determine if measured concentrations of disease biomarkers (total tau protein, neurofilament light chain, and S100B protein) correlate with the duration of nusinersen treatment and with scores obtained using functional scales for the assessment of motor abilities. Methods: A total of 30 subjects with SMA treated with nusinersen between 2017 and 2021 at the Department of Pediatrics, University Hospital Centre Zagreb, Croatia, were included in this study. Cerebrospinal fluid (CSF) samples were collected by lumbar puncture prior to intrathecal application of nusinersen. Protein concentrations in CSF samples were determined by enzyme‐linked immunosorbent assay in 26 subjects. The motor functions were assessed using functional motor scales. Results: The main finding was significantly decreased total tau correlating with the number of nusinersen doses and motor improvement in the first 18–24 months of treatment (in all SMA patients and SMA type 1 patients). Neurofilament light chain and S100B were not significantly changed after administration of nusinersen. Conclusions: The measurement of total tau concentration in CSF is a reliable index for monitoring the biomarker and clinical response to nusinersen therapy in patients with SMA. [ABSTRACT FROM AUTHOR]

Published

2024

4. Fetal development of the human amygdala.

Author

Mulc, Damir, Smilović, Dinko, Krsnik, Željka, Junaković‐Munjas, Alisa, Kopić, Janja, Kostović, Ivica, Šimić, Goran, and Vukšić, Mario

Abstract

The intricate development of the human amygdala involves a complex interplay of diverse processes, varying in speed and duration. In humans, transient cytoarchitectural structures deliquesce, leading to the formation of functionally distinct nuclei as a result of multiple interdependent developmental events. This study compares the amygdala's cytoarchitectural development in conjunction with specific antibody reactivity for neuronal, glial, neuropil, and radial glial fibers, synaptic, extracellular matrix, and myelin components in 39 fetal human brains. We recognized that the early fetal period, as a continuation of the embryonic period, is still dominated by relatively uniform histogenetic processes. The typical appearance of ovoid cell clusters in the lateral nucleus during midfetal period is most likely associated with the cell migration and axonal growth processes in the developing human brain. Notably, synaptic markers are firstly detected in the corticomedial group of nuclei, while immunoreactivity for the panaxonal neurofilament marker SMI 312 is found dorsally. The late fetal period is characterized by a protracted migration process evidenced by the presence of doublecortin and SOX‐2 immunoreactivity ventrally, in the prospective paralaminar nucleus, reinforced by vimentin immunoreactivity in the last remaining radial glial fibers. Nearing the term period, SMI 99 immunoreactivity indicates that perinatal myelination becomes prominent primarily along major axonal pathways, laying the foundation for more pronounced functional maturation. This study comprehensively elucidates the rate and sequence of maturational events in the amygdala, highlighting the key role of prenatal development in its behavioral, autonomic, and endocrine regulation, with subsequent implications for both normal functioning and psychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2024

5. Prenatal development of the human entorhinal cortex.

Author

Šimić, Goran, Krsnik, Željka, Knezović, Vinka, Kelović, Zlatko, Mathiasen, Mathias Lysholt, Junaković, Alisa, Radoš, Milan, Mulc, Damir, Španić, Ena, Quattrocolo, Giulia, Hall, Vanessa Jane, Zaborszky, Laszlo, Vukšić, Mario, Olucha Bordonau, Francisco, Kostović, Ivica, Witter, Menno P., and Hof, Patrick R.

Abstract

Little is known about the development of the human entorhinal cortex (EC), a major hub in a widespread network for learning and memory, spatial navigation, high‐order processing of object information, multimodal integration, attention and awareness, emotion, motivation, and perception of time. We analyzed a series of 20 fetal and two adult human brains using Nissl stain, acetylcholinesterase (AChE) histochemistry, and immunocytochemistry for myelin basic protein (MBP), neuronal nuclei antigen (NeuN), a pan‐axonal neurofilament marker, and synaptophysin, as well as postmortem 3T MRI. In comparison with other parts of the cerebral cortex, the cytoarchitectural differentiation of the EC begins remarkably early, in the 10th week of gestation (w.g.). The differentiation occurs in a superficial magnocellular layer in the deep part of the marginal zone, accompanied by cortical plate (CP) condensation and multilayering of the deep part of CP. These processes last until the 13–14th w.g. At 14 w.g., the superficial lamina dissecans (LD) is visible, which divides the CP into the lamina principalis externa (LPE) and interna (LPI). Simultaneously, the rostral LPE separates into vertical cell‐dense islands, whereas in the LPI, the deep LD emerges as a clear acellular layer. In the 16th w.g., the LPE remodels into vertical cell‐dense and cell‐sparse zones with a caudorostral gradient. At 20 w.g., NeuN immunoreactivity is most pronounced in the islands of layer II cells, whereas migration and differentiation inside‐out gradients are seen simultaneously in both the upper (LPE) and the lower (LPI) pyramidal layers. At this stage, the EC adopts for the first time an adult‐like cytoarchitectural organization, the superficial LD becomes discernible by 3T MRI, MBP‐expressing oligodendrocytes first appear in the fimbria and the perforant path (PP) penetrates the subiculum to reach its molecular layer and travels along through the Cornu Ammonis fields to reach the suprapyramidal blade of the dentate gyrus, whereas the entorhinal‐dentate branch perforates the hippocampal sulcus about 2–3 weeks later. The first AChE reactivity appears as longitudinal stripes at 23 w.g. in layers I and II of the rostrolateral EC and then also as AChE‐positive in‐growing fibers in islands of superficial layer III and layer II neurons. At 40 w.g., myelination of the PP starts as patchy MBP‐immunoreactive oligodendrocytes and their processes. Our results refute the possibility of an inside‐out pattern of the EC development and support the key role of layer II prospective stellate cells in the EC lamination. As the early cytoarchitectural differentiation of the EC is paralleled by the neurochemical development, these developmental milestones in EC structure and connectivity have implications for understanding its normal function, including its puzzling modular organization and potential contribution to consciousness content (awareness), as well as for its insufficiently explored deficits in developmental, psychiatric, and degenerative brain disorders. [ABSTRACT FROM AUTHOR]

Published

2022

6. Evaluation of cerebrospinal fluid phosphorylated tau231 as a biomarker in the differential diagnosis of Alzheimer's disease and vascular dementia.

Author

Kiđemet‐Piskač, Spomenka, Babić Leko, Mirjana, Blažeković, Antonela, Langer Horvat, Lea, Klepac, Nataša, Sonicki, Zdenko, Kolenc, Danijela, Hof, Patrick R., Boban, Marina, Mimica, Ninoslav, Borovečki, Fran, and Šimić, Goran

Subjects

ALZHEIMER'S disease diagnosis, TAU proteins, CEREBROSPINAL fluid, VASCULAR dementia, PHOSPHORYLATION, BIOLOGICAL tags, DIFFERENTIAL diagnosis, DIAGNOSIS

Abstract

Summary: Background: The diagnosis of either Alzheimer's disease (AD) or vascular dementia (VaD) is still largely based on clinical guidelines and exclusion of other diseases that may lead to dementia. Aims: In this study, we assessed whether the use of sensitive and specific biomarkers such as phosphorylated tau proteins could contribute to an earlier and more accurate diagnosis of AD and VaD, as well as to their differentiation. Material and methods: A total of 198 patients, of which 152 had AD, 28 VaD, and 18 were healthy controls (HC), were included in the analyses. We analyzed cerebrospinal fluid (CSF) levels of total tau protein (t‐tau), tau protein phosphorylated at threonine 231 (p‐tau231), and factor score (FS) determined by combination of p‐tau231 and Mini‐Mental State Examination (MMSE) in patients with AD and VaD, as well as in HC. We tested the diagnostic accuracy of these biomarkers in the CSF and FS (p‐tau231, MMSE) in differentiating AD from VaD and HC. Results: Total tau levels were significantly elevated in subjects with AD compared to HC, as well as in VaD subjects compared to HC. Discussion: p‐tau231 levels were significantly higher in patients with ADvsHC as well in patients with VaD vsHC. p‐tau231 levels did not distinguish AD from VaD patients. Importantly, FS(p‐tau231 and MMSE) showed statistically significant differences in the distribution of subjects with AD and VaD. Conclusion: These results indicate that FS (p‐tau231 and MMSE) has a strong potential to provide an early distinction between AD and VaD. [ABSTRACT FROM AUTHOR]

Published

2018

7. In search of the definitive Brodmann's map of cortical areas in human.

Author

Šimić, Goran and Hof, Patrick R.

Published

2015

8. The Zagreb Collection of human brains: a unique, versatile, but underexploited resource for the neuroscience community.

Author

Judaš, Miloš, Šimić, Goran, Petanjek, Zdravko, Jovanov‐Milošević, Nataša, Pletikos, Mihovil, Vasung, Lana, Vukšić, Mario, and Kostović, Ivica

Subjects

*NEUROSCIENCES, *DIAGNOSTIC specimens, *BRAIN research, *INTERNATIONAL agencies, *VIRTUAL microscopy, *CEREBRAL cortex, *FETAL brain

Abstract

The Zagreb Collection of developing and adult human brains was founded in 1974 by Ivica Kostović and consists of 1,278 developing and adult human brains, including 610 fetal, 317 children, and 359 adult brains. It is one of the largest collections of developing human brains. The collection serves as a key resource for many focused research projects and has led to several seminal contributions on mammalian cortical development, such as the discovery of the transient fetal subplate zone and of early bilaminar synaptogenesis in the embryonic and fetal human cerebral cortex, and the first description of growing afferent pathways in the human fetal telencephalon. The Zagreb Collection also serves as a core resource for ever-growing networks of international collaboration and represents the starting point for many young investigators who now pursue independent research careers at leading international institutions. The Zagreb Collection, however, remains underexploited owing to a lack of adequate funding in Croatia. Funding could establish an online catalog of the collection and modern virtual microscopy scanning methods to make the collection internationally more accessible. [ABSTRACT FROM AUTHOR]

Published

2011

9. Volume and number of neurons of the human hippocampal formation in normal aging and Alzheimer's disease.

Author

Šimić, Goran, Kostović, Ivica, Winblad, Bengt, and Bogdanović, Nenad

Published

1997

10. Association of MAPT haplotype‐tagging polymorphisms with cerebrospinal fluid biomarkers of Alzheimer's disease: A preliminary study in a Croatian cohort.

Author

Babić Leko, Mirjana, Willumsen, Nanet, Nikolac Perković, Matea, Klepac, Nataša, Borovečki, Fran, Hof, Patrick R., Sonicki, Zdenko, Pivac, Nela, de Silva, Rohan, and Šimić, Goran

Published

2018

11. Evaluation of cerebrospinal fluid phosphorylated tau 231 as a biomarker in the differential diagnosis of Alzheimer's disease and vascular dementia.

Author

Kiđemet-Piskač S, Babić Leko M, Blažeković A, Langer Horvat L, Klepac N, Sonicki Z, Kolenc D, Hof PR, Boban M, Mimica N, Borovečki F, and Šimić G

Subjects

Aged, Female, Humans, Male, Mental Status and Dementia Tests, Middle Aged, Phosphorylation, ROC Curve, Retrospective Studies, Statistics, Nonparametric, Alzheimer Disease cerebrospinal fluid, Alzheimer Disease diagnosis, Biomarkers cerebrospinal fluid, Dementia, Vascular cerebrospinal fluid, Diagnosis, Differential, tau Proteins cerebrospinal fluid

Abstract

Background: The diagnosis of either Alzheimer's disease (AD) or vascular dementia (VaD) is still largely based on clinical guidelines and exclusion of other diseases that may lead to dementia., Aims: In this study, we assessed whether the use of sensitive and specific biomarkers such as phosphorylated tau proteins could contribute to an earlier and more accurate diagnosis of AD and VaD, as well as to their differentiation., Material and Methods: A total of 198 patients, of which 152 had AD, 28 VaD, and 18 were healthy controls (HC), were included in the analyses. We analyzed cerebrospinal fluid (CSF) levels of total tau protein (t-tau), tau protein phosphorylated at threonine 231 (p-tau231), and factor score (FS) determined by combination of p-tau231 and Mini-Mental State Examination (MMSE) in patients with AD and VaD, as well as in HC. We tested the diagnostic accuracy of these biomarkers in the CSF and FS (p-tau231, MMSE) in differentiating AD from VaD and HC., Results: Total tau levels were significantly elevated in subjects with AD compared to HC, as well as in VaD subjects compared to HC., Discussion: p-tau 231 levels were significantly higher in patients with ADvsHC as well in patients with VaD vsHC. p-tau231 levels did not distinguish AD from VaD patients. Importantly, FS(p-tau231 and MMSE) showed statistically significant differences in the distribution of subjects with AD and VaD., Conclusion: These results indicate that FS (p-tau231 and MMSE) has a strong potential to provide an early distinction between AD and VaD., (© 2018 John Wiley & Sons Ltd.)

Published

2018