Your search keyword '"Saraga-Babic M"' showing total 91 results

1. Apoptotic pathways and stemness in the colorectal epithelium and lamina propria mucosae during the human embryogenesis and carcinogenesis

Author

Tica Sedlar, I., Petricevic, J., Saraga-Babic, M., Pintaric, I., and Vukojevic, K.

Published

2016

2. Expression of cytokeratin 8, vimentin, syndecan-1 and Ki-67 during human tooth development

Author

Kero, D., Kalibovic Govorko, D., Vukojevic, K., Cubela, M., Soljic, V., and Saraga-Babic, M.

Published

2014

3. The involvement of proliferation and apoptosis in the early human gonad development

Author

Vukusic Pusic, T., Janjic, T., Dujmovic, I., Poljicanin, A., Soljic, V., Saraga-Babic, M., and Vukojevic, K.

Published

2013

4. Mutations in DSTYK and Dominant Urinary Tract Malformations

Author

Sanna-Cherchi, S., Sampogna, R. V., Papeta, N., Burgess, K. E., Nees, S. N., Perry, B. J., Choi, M., Bodria, M., Liu, Y., Weng, P. L., Lozanovski, V. J., Verbitsky, M., Lugani, F., Sterken, R., Paragas, N., Caridi, G., Carrea, A., Dagnino, M., Materna-Kiryluk, A., Santamaria, G., Murtas, C., Ristoska-Bojkovska, N., Izzi, C., Kacak, N., Bianco, B., Giberti, S., Gigante, M., Piaggio, G., Gesualdo, L., Kosuljandic Vukic, D., Vukojevic, K., Saraga-Babic, M., Saraga, M., Gucev, Z., Allegri, L., Latos-Bielenska, A., Casu, D., State, M., Scolari, F., Ravazzolo, R., Kiryluk, K., Al-Awqati, Q., DʼAgati, V. D., Drummond, I. A., Tasic, V., Lifton, R. P., Ghiggeri, G. M., and Gharavi, A. G.

Published

2013

5. Identification of Two Ikaros-like Transcription Factors in Lamprey

Author

Mayer, WE, O'Huigin, C, Tichy, H, Terzic, J, and Saraga-Babic, M

Published

2002

6. Morphological diversity of dying cells during regression of the human tail

Author

Sapunar, D., Vilović, K., England, M., and Saraga-Babić, M.

Published

2001

7. Isoflurane post-conditioning influences myocardial infarct healing in rats

Author

Agnic, I, primary, Filipovic, N, additional, Vukojevic, K, additional, Saraga-Babic, M, additional, and Grkovic, I, additional

Published

2018

8. Role of skeletal muscle in ear development

Author

Rot, I, Baguma-Nibasheka, M., Costain, W. J., Hong, P., Tafra, R., Mardesic-Brakus, S., Mrduljas-Djujic, N., Saraga-Babic, M., and Kablar, B.

Subjects

Crista ampullaris, Inner ear, 6 - Ciencias aplicadas::61 - Medicina::616 - Patología. Medicina clínica. Oncología [CDU], sense organs, Microarray, Mouse embryo, Type I hair cell

Abstract

The current paper is a continuation of our work described in Rot and Kablar, 2010. Here, we show lists of 10 up- and 87 down-regulated genes obtained by a cDNA microarray analysis that compared developing Myf5-/-:Myod-/- (and Mrf4-/-) petrous part of the temporal bone, containing middle and inner ear, to the control, at embryonic day 18.5. Myf5-/-:Myod-/- fetuses entirely lack skeletal myoblasts and muscles. They are unable to move their head, which interferes with the perception of angular acceleration. Previously, we showed that the inner ear areas most affected in Myf5-/- :Myod-/- fetuses were the vestibular cristae ampullaris, sensitive to angular acceleration. Our finding that the type I hair cells were absent in the mutants’ cristae was further used here to identify a profile of genes specific to the lacking cell type. Microarrays followed by a detailed consultation of web-accessible mouse databases allowed us to identify 6 candidate genes with a possible role in the development of the inner ear sensory organs: Actc1, Pgam2, Ldb3, Eno3, Hspb7 and Smpx. Additionally, we searched for human homologues of the candidate genes since a number of syndromes in humans have associated inner ear abnormalities. Mutations in one of our candidate genes, Smpx, have been reported as the cause of X-linked deafness in humans. Our current study suggests an epigenetic role that mechanical, and potentially other, stimuli originating from muscle, play in organogenesis, and offers an approach to finding novel genes responsible for altered inner ear phenotypes.

Published

2017

9. Role of skeletal muscle in mandible development

Author

Rot, I., Mardesic-Brakus, S., Costain, W. J., Saraga-Babic, M., and Boris Kablar

Subjects

Mouse, 5 - Ciencias puras y naturales::57 - Biología::576 - Biología celular y subcelular. Citología [CDU], Skeletal muscle, Mandible, Development, Epigenetics

Abstract

As a continuation of the previous study on palate development (Rot and Kablar, 2013), here we explore the relationship between the secondary cartilage mandibular condyles (parts of the temporomandibular joint) and the contributions (mechanical and secretory) from the adjacent skeletal musculature. Previous analysis of Myf5-/- :MyoD-/- mouse fetuses lacking skeletal muscle demonstrated the importance of muscle contraction and static loading in mouse skeletogenesis. Among abnormal skeletal features, micrognathia (mandibular hypoplasia) was detected: small, bent and posteriorly displaced mandible. As an example of Waddingtonian epigenetics, we suggest that muscle, in addition to acting via mechanochemical signal transduction pathways, networks and promoters, also exerts secretory stimuli on skeleton. Our goal is to identify candidate molecules at that muscle-mandible interface. By employing Systematic Subtractive Microarray Analysis approach, we compared gene expression between mandibles of amyogenic and wild type mouse fetuses and we identified up- and downregulated genes. This step was followed by a bioinformatics approach and consultation of webaccessible mouse databases. We searched for individual tissue-specific gene expression and distribution, and for the functional effects of mutations in a particular gene. The database search tools allowed us to generate a set of candidate genes with involvement in mandibular development: Cacna1s, Ckm, Des, Mir300, Myog and Tnnc1. We also performed mouse-to-human translational experiments and found analogies. In the light of our findings we discuss various players in mandibular morphogenesis and make an argument for the need to consider mandibular development as a consequence of reciprocal epigenetic interactions of both skeletal and non-skeletal compartments.

Published

2014

10. Mutations in DSTYK and dominant urinary tract malformations

Author

Sanna Cherchi, S, Sampogna, Rv, Papeta, N, Burgess, Ke, Nees, Sn, Perry, Bj, Choi, M, Bodria, M, Liu, Y, Weng, Pl, Lozanovski, Vj, Verbitsky, M, Lugani, F, Sterken, R, Paragas, N, Caridi, G, Carrea, A, Dagnino, M, Materna Kiryluk, A, Santamaria, G, Murtas, C, Ristoska Bojkovska, N, Izzi, C, Kacak, N, Bianco, B, Giberti, S, Gigante, M, Piaggio, G, Gesualdo, L, Kosuljandic Vukic, D, Vukojevic, K, Saraga Babic, M, Saraga, M, Gucev, Z, Allegri, L, Latos Bielenska, A, Casu, D, State, M, Scolari, F, Ravazzolo, Roberto, Kiryluk, K, Al Awqati, Q, D'Agati, Vd, Drummond, Ia, Tasic, V, Lifton, Rp, Ghiggeri, Gm, and Gharavi, Ag

Subjects

Male, Kidney Disease, Genetic Linkage, 030232 urology & nephrology, Genome-wide association study, Bioinformatics, medicine.disease_cause, Fibroblast growth factor, Kidney, Medical and Health Sciences, Mice, 0302 clinical medicine, 2.1 Biological and endogenous factors, Exome, RNA, Small Interfering, Aetiology, Urinary Tract, Child, Pediatric, 0303 health sciences, Mutation, General Medicine, 3. Good health, Pedigree, medicine.anatomical_structure, Receptor-Interacting Protein Serine-Threonine Kinases, Gene Knockdown Techniques, Female, Biotechnology, Adult, Urologic Diseases, Heterozygote, Urinary system, 1.1 Normal biological development and functioning, Molecular Sequence Data, Renal and urogenital, Small Interfering, 03 medical and health sciences, Young Adult, Clinical Research, Underpinning research, General & Internal Medicine, medicine, Genetics, Animals, Humans, 030304 developmental biology, Base Sequence, business.industry, Human Genome, Infant, Heterozygote advantage, Urogenital Abnormalities, Etiology, RNA, Congenital Structural Anomalies, business, Genome-Wide Association Study

Abstract

BackgroundCongenital abnormalities of the kidney and the urinary tract are the most common cause of pediatric kidney failure. These disorders are highly heterogeneous, and the etiologic factors are poorly understood.MethodsWe performed genomewide linkage analysis and whole-exome sequencing in a family with an autosomal dominant form of congenital abnormalities of the kidney or urinary tract (seven affected family members). We also performed a sequence analysis in 311 unrelated patients, as well as histologic and functional studies.ResultsLinkage analysis identified five regions of the genome that were shared among all affected family members. Exome sequencing identified a single, rare, deleterious variant within these linkage intervals, a heterozygous splice-site mutation in the dual serine-threonine and tyrosine protein kinase gene (DSTYK). This variant, which resulted in aberrant splicing of messenger RNA, was present in all affected family members. Additional, independent DSTYK mutations, including nonsense and splice-site mutations, were detected in 7 of 311 unrelated patients. DSTYK is highly expressed in the maturing epithelia of all major organs, localizing to cell membranes. Knockdown in zebrafish resulted in developmental defects in multiple organs, which suggested loss of fibroblast growth factor (FGF) signaling. Consistent with this finding is the observation that DSTYK colocalizes with FGF receptors in the ureteric bud and metanephric mesenchyme. DSTYK knockdown in human embryonic kidney cells inhibited FGF-stimulated phosphorylation of extracellular-signal-regulated kinase (ERK), the principal signal downstream of receptor tyrosine kinases.ConclusionsWe detected independent DSTYK mutations in 2.3% of patients with congenital abnormalities of the kidney or urinary tract, a finding that suggests that DSTYK is a major determinant of human urinary tract development, downstream of FGF signaling. (Funded by the National Institutes of Health and others.).

Published

2013

11. Copy number variation analysis identifies novel CAKUT candidate genes in children with a solitary functioning kidney

Author

Westland, R., Verbitsky, M., Vukojevic, K., Perry, B.J., Fasel, D.A., Zwijnenburg, P.J., Bokenkamp, A., Gille, J.J.P., Saraga-Babic, M., Ghiggeri, G.M., D'Agati, V.D., Schreuder, M.F., Gharavi, A.G., Wijk, J.A. van, Sanna-Cherchi, S., Westland, R., Verbitsky, M., Vukojevic, K., Perry, B.J., Fasel, D.A., Zwijnenburg, P.J., Bokenkamp, A., Gille, J.J.P., Saraga-Babic, M., Ghiggeri, G.M., D'Agati, V.D., Schreuder, M.F., Gharavi, A.G., Wijk, J.A. van, and Sanna-Cherchi, S.

Abstract

Item does not contain fulltext, Copy number variations associate with different developmental phenotypes and represent a major cause of congenital anomalies of the kidney and urinary tract (CAKUT). Because rare pathogenic copy number variations are often large and contain multiple genes, identification of the underlying genetic drivers has proven to be difficult. Here we studied the role of rare copy number variations in 80 patients from the KIMONO study cohort for which pathogenic mutations in three genes commonly implicated in CAKUT were excluded. In total, 13 known or novel genomic imbalances in 11 of 80 patients were absent or extremely rare in 23,362 population controls. To identify the most likely genetic drivers for the CAKUT phenotype underlying these rare copy number variations, we used a systematic in silico approach based on frequency in a large data set of controls, annotation with publicly available databases for developmental diseases, tolerance and haploinsufficiency scores, and gene expression profile in the developing kidney and urinary tract. Five novel candidate genes for CAKUT were identified that showed specific expression in the human and mouse developing urinary tract. Among these genes, DLG1 and KIF12 are likely novel susceptibility genes for CAKUT in humans. Thus, there is a significant role of genomic imbalance in the determination of kidney developmental phenotypes. Additionally, we defined a systematic strategy to identify genetic drivers underlying rare copy number variations.

Published

2015

12. The involvement of proliferation and apoptosis in the early human gonad development

Author

Vukusic Pusic, T., primary, Janjic, T., additional, Dujmovic, I., additional, Poljicanin, A., additional, Soljic, V., additional, Saraga-Babic, M., additional, and Vukojevic, K., additional

Published

2012

13. Effect of maternal hyperoxygenation on experimentally produced uteroplacental insufficiency in the rat

Author

Sapunar, D, primary, Vilovic, K, additional, Pintaric, I, additional, Vrdoljak, E, additional, Petri, N, additional, and Saraga-Babic, M, additional

Published

1996

14. Morphological Characteristics of Dying Cells in Axial Structures of Developing Human Embryos.

Author

Vilovic, K., Sapunar, D., Ilijic, E., Mimica, M. D., England, M. A., and Saraga-Babic, M.

Subjects

APOPTOSIS, CELL death, ORGANS (Anatomy), EMBRYOS, EMBRYOLOGY

Abstract

Programmed cell death (PCD) is a widespread phenomenon in the development of vertebrates. In most cases, dying cells during development exhibit generalized morphological features typical of apoptosis. We analyzed the morphological features of dying cells in the developing axial structures of 5 human embryos between 5 and 8 weeks of postovulatory age. Cell death in the axial structures, i.e. spinal cord, notochord and surrounding mesenchyme and somites, was analyzed using light and electron microscopy. Tissue samples were taken from the cervicothoracic region of normal human conceptuses. Two morphological types of cell death were found: apoptosis which was characterized by round or semilunar nuclear chromatin condensations, condensation and shrinkage of the cytoplasm and formation of apoptotic bodies, and cell death without the morphological features of apoptosis which was characterized by pyknotic nuclear chromatin condensations, vacuolated cytoplasm and the formation of numerous intercellular spaces. Apoptotic death occurred during the 5th week of normal development in all the axial structures. Later, apoptotic death appeared in all the axial structures, with the exception of the notochord, where some dying cells displayed features of secondary necrosis. According to our findings, apoptosis seems to be the most frequently observed type of PCD, but it is not the exclusive type of morphological cell death during the development of axial structures in human embryos.Copyright © 2001 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

15. Differences in origin and fate between the cranial and caudal spinal cord during normal and disturbed human development

Author

Saraga-Babic, M., Krolo, Mirko, Sapunar, Damir, Terzic, Janos, and Biocic, Mihovil

Abstract

Abstract: Differences in histological appearance between the cranial and caudal parts of the spinal cord and associated axial organs were analyzed in 9- and 15-week-old human dysraphic fetuses and compared with normal fetuses. In human development the cranial part of the neural tube down to the lumbosacral level forms during primary neurulation, while its caudal part results from secondary neurulation. In the 9-week fetus with cervical spina bifida, the cranial spinal cord displayed a variety of morphological changes along the cranio-caudal axis. Spinal cord in the upper cervical region transformed into the area cerebrovasculosa, while the lower cervical and thoracic levels showed only disturbed differentiation of the cell layers and roof plate. The degree of the cranial spinal cord dysmorphogenesis correlated with anomalies of the underlying notochord and vertebral column. The caudal to lumbosacral region of the spinal cord appeared normal. In the case of the 15-week-old fetus with complete dysraphia, the area cerebrovasculosa was found along the whole extent of the cranial spinal cord, while more caudally, all axial organs showed a normal histological structure. Our findings confirmed a different origin for the cranial and caudal parts of the human spinal cord. The appearance of dysraphic disorders corresponded to the time of primary neurulation; therefore, they resulted in the faulty formation of the cranial spinal cord. Normally formed caudal spinal cord appears during secondary neurulation at later developmental stages.

Published

1996

16. Changes of ciliogenesis in congenital nephrotic syndrome of the Finnish type

Author

Saraga, M., Katarina Vukojevic, Krzelj, V., Puretic, Z., Bocina, I., Durdov, M. Glavina, Dworniczak, B., Weber, S., Saraga-Babic, M., and Rosenbaum, Norman

Abstract

/

17. Analysis of expression patterns of syndecans enzymes involved in heparan sulfate biosynthesis and degradation in developing human tooth germs

Author

Kero, D., Bilandzija, T. S., Duplancic, R., Katarina Vukojevic, and Saraga-Babic, M.

18. Ciliogenesis in human kidneys during development and post-natal life

Author

Saraga-Babic, M., Katarina Vukojevic, Bocina, I., Drnasin, K., Saraga, M., and Rosenbaum, Norman

Abstract

/

19. Variations in the formation of the human caudal spinal cord

Author

Saraga-Babic, M., Damir Sapunar, and Wartiovaara, J.

20. Mouse and human studies support DSTYK loss of function as a low-penetrance and variable expressivity risk factor for congenital urinary tract anomalies.

Author

Martino J, Liu Q, Vukojevic K, Ke J, Lim TY, Khan A, Gupta Y, Perez A, Yan Z, Milo Rasouly H, Vena N, Lippa N, Giordano JL, Saraga M, Saraga-Babic M, Westland R, Bodria M, Piaggio G, Bendapudi PK, Iglesias AD, Wapner RJ, Tasic V, Wang F, Ionita-Laza I, Ghiggeri GM, Kiryluk K, Sampogna RV, Mendelsohn CL, D'Agati VD, Gharavi AG, and Sanna-Cherchi S

Subjects

Vesico-Ureteral Reflux, Mice, Inbred C3H, Mice, Inbred C57BL, Receptor-Interacting Protein Serine-Threonine Kinases genetics, Risk Factors, Penetrance, Humans, Mice, Animals, Kidney abnormalities, Urogenital Abnormalities genetics, Urinary Tract, Epilepsy genetics

Abstract

Purpose: Previous work identified rare variants in DSTYK associated with human congenital anomalies of the kidney and urinary tract (CAKUT). Here, we present a series of mouse and human studies to clarify the association, penetrance, and expressivity of DSTYK variants., Methods: We phenotypically characterized Dstyk knockout mice of 3 separate inbred backgrounds and re-analyzed the original family segregating the DSTYK c.654+1G>A splice-site variant (referred to as "SSV" below). DSTYK loss of function (LOF) and SSVs were annotated in individuals with CAKUT, epilepsy, or amyotrophic lateral sclerosis vs controls. A phenome-wide association study analysis was also performed using United Kingdom Biobank (UKBB) data., Results: Results demonstrate ∼20% to 25% penetrance of obstructive uropathy, at least, in C57BL/6J and FVB/NJ Dstyk -/- mice. Phenotypic penetrance increased to ∼40% in C3H/HeJ mutants, with mild-to-moderate severity. Re-analysis of the original family segregating the rare SSV showed low penetrance (43.8%) and no alternative genetic causes for CAKUT. LOF DSTYK variants burden showed significant excess for CAKUT and epilepsy vs controls and an exploratory phenome-wide association study supported association with neurological disorders., Conclusion: These data support causality for DSTYK LOF variants and highlights the need for large-scale sequencing studies (here >200,000 cases) to accurately assess causality for genes and variants to lowly penetrant traits with common population prevalence., Competing Interests: Conflict of Interest All authors declare no conflicts of interest., (Copyright © 2023 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published

2023

21. Connexin 37, 40, 43 and Pannexin 1 Expression in the Gastric Mucosa of Patients with Systemic Sclerosis.

Author

Pavic B, Ogorevc M, Boric K, Vukovic D, Saraga-Babic M, and Mardesic S

Abstract

Systemic sclerosis (SSc) is an autoimmune disease characterized by fibrosis of the skin and internal organs. Although its pathogenesis is not fully understood, connexins (Cxs) and pannexins (Panx) could be involved in the process of fibrosis. We analyzed the protein expression of Cx37, Cx40, Cx43, and Panx1 in the gastric mucosa of patients with SSc and healthy volunteers, using immunofluorescence staining. Protein levels of Cx37 were slightly increased, while the levels of Cx40 were significantly decreased in the lamina propria of the gastric mucosa of SSc patients compared to the controls. The changes were proportional to SSc severity, with the most prominent changes found in patients with severe diffuse cutaneous SSc. No differences in Cx43 or Panx1 levels were found between the analyzed groups of samples. The lack of changes in Cx43 expression, which has been previously associated with fibrosis, could be due to the weak expression of Cx43 in the gastric mucosa in general. Further studies on full-thickness gastric biopsies containing muscle layers and animal SSc models are needed to fully elucidate the role of Cxs and Panxs in SSc-associated fibrosis.

Published

2023

22. Differences in Immunohistochemical and Ultrastructural Features between Podocytes and Parietal Epithelial Cells (PECs) Are Observed in Developing, Healthy Postnatal, and Pathologically Changed Human Kidneys.

Author

Ogorevc M, Kosovic I, Filipovic N, Bocina I, Juric M, Benzon B, Mardesic S, Vukojevic K, Saraga M, Kablar B, and Saraga-Babic M

Subjects

Epithelial Cells metabolism, Humans, Kidney metabolism, Nestin genetics, Nestin metabolism, Glomerulosclerosis, Focal Segmental metabolism, Kidney Diseases metabolism, Podocytes metabolism

Abstract

During human kidney development, cells of the proximal nephron gradually differentiate into podocytes and parietal epithelial cells (PECs). Podocytes are terminally differentiated cells that play a key role in both normal and pathological kidney function. Therefore, the potential of podocytes to regenerate or be replaced by other cell populations (PECs) is of great interest for the possible treatment of kidney diseases. In the present study, we analyzed the proliferation and differentiation capabilities of podocytes and PECs, changes in the expression pattern of nestin, and several early proteins including WNT4, Notch2, and Snail, as well as Ki-67, in tissues of developing, postnatal, and pathologically changed human kidneys by using immunohistochemistry and electron microscopy. Developing PECs showed a higher proliferation rate than podocytes, whereas nestin expression characterized only podocytes and pathologically changed kidneys. In the developing kidneys, WNT4 and Notch2 expression increased moderately in podocytes and strongly in PECs, whereas Snail increased only in PECs in the later fetal period. During human kidney development, WNT4, Notch2, and Snail are involved in early nephrogenesis control. In kidneys affected by congenital nephrotic syndrome of the Finnish type (CNF) and focal segmental glomerulosclerosis (FSGS), WNT4 decreased in both cell populations, whereas Notch2 decreased in FSGS. In contrast, Snail increased both in CNF and FSGS, whereas Notch2 increased only in CNF. Electron microscopy revealed cytoplasmic processes spanning the urinary space between the podocytes and PECs in developing and healthy postnatal kidneys, whereas the CNF and FSGS kidneys were characterized by numerous cellular bridges containing cells with strong expression of nestin and all analyzed proteins. Our results indicate that the mechanisms of gene control in nephrogenesis are reactivated under pathological conditions. These mechanisms could have a role in restoring glomerular integrity by potentially inducing the regeneration of podocytes from PECs.

Published

2022

23. CRKL , AIFM3 , AIF , BCL2 , and UBASH3A during Human Kidney Development.

Author

Lozic M, Minarik L, Racetin A, Filipovic N, Saraga Babic M, and Vukojevic K

Subjects

Adaptor Proteins, Signal Transducing metabolism, Apoptosis Inducing Factor genetics, Apoptosis Inducing Factor metabolism, Fetus embryology, Fetus metabolism, Gene Expression Regulation, Developmental, Humans, Infant, Infant, Newborn, Kidney embryology, Kidney growth & development, Mitochondrial Proteins metabolism, Proto-Oncogene Proteins c-bcl-2 genetics, Proto-Oncogene Proteins c-bcl-2 metabolism, Adaptor Proteins, Signal Transducing genetics, Kidney metabolism, Mitochondrial Proteins genetics, Urogenital Abnormalities genetics, Vesico-Ureteral Reflux genetics

Abstract

We aimed to investigate the spatio-temporal expression of possible CAKUT candidate genes CRKL , AIFM3 , and UBASH3A , as well as AIF and BCL2 during human kidney development. Human fetal kidney tissue was stained with antibodies and analyzed by fluorescence microscopy and RT-PCR. Quantification of positive cells was assessed by calculation of area percentage and counting cells in nephron structures. Results showed statistically significant differences in the temporal expression patterns of the examined markers, depending on the investigated developmental stage. Limited but strong expression of CRKL was seen in developing kidneys, with increasing expression up to the period where the majority of nephrons are formed. Results also lead us to conclude that AIFM3 and AIF are important for promoting cell survival, but only AIFM3 is considered a CAKUT candidate gene due to the lack of AIF in nephron developmental structures. Our findings imply great importance of AIFM3 in energy production in nephrogenesis and tubular maturation. UBASH3A raw scores showed greater immunoreactivity in developing structures than mature ones which would point to a meaningful role in nephrogenesis. The fact that mRNA and proteins of CRKL , UBASH3A , and AIFM3 were detected in all phases of kidney development implies their role as renal development control genes.

Published

2021

24. Expression Pattern of 5-HT (Serotonin) Receptors during Normal Development of the Human Spinal Cord and Ganglia and in Fetus with Cervical Spina Bifida.

Author

Punda H, Mardesic S, Filipovic N, Kosovic I, Benzon B, Ogorevc M, Bocina I, Kolic K, Vukojevic K, and Saraga-Babic M

Subjects

Apoptosis physiology, Caspase 3 metabolism, Cell Differentiation physiology, Cell Proliferation physiology, Humans, Ki-67 Antigen metabolism, Sensory Receptor Cells metabolism, Serotonin metabolism, Fetus metabolism, Ganglia metabolism, Ganglia, Spinal metabolism, Receptors, Serotonin metabolism, Spinal Cord metabolism, Spinal Dysraphism metabolism

Abstract

The expression of 5-HT (serotonin) receptors (sr) was analyzed in the spinal cord and ganglia of 15 human conceptuses (5-10-weeks), and in the 9-week fetus with spina bifida. We used immunohistochemical method to detect sr-positive, apoptotic (caspase-3) and proliferating (Ki-67) cells, double immunofluorescence for co-localization with protein gene peptide (pgp) 9.5 and GFAP, as well as semiquantification and statistical measurements. Following the neurulation process, moderate (sr1 and sr2) and mild (sr3) expression characterized neuroblasts in the spinal cord and ganglia. During further development, sr1 expression gradually increased in the motoneurons, autonomic and sensory neurons, while sr2 and sr3 increased strongly in floor and roof plates. In the ganglia, sr3 expression increased during limited developmental period, while sr1 and sr2 increased throughout the investigated period. Co-expression of sr/pgp 9.5 characterized developing neurons, while sr/GFAP co-localized in the roof plate. In the spinal cord and ganglia of malformed fetus, weaker sr1 and sr2 and stronger sr3 expression accompanied morphological abnormalities. Anomalous roof plate morphology showed an excess of apoptotic and proliferating cells and increased sr3 expression. Our results indicate a human-species specific sr expression pattern, and the importance of sr1 in neuronal differentiation, and sr2 and sr3 in the control of the roof plate morphogenesis in normal and disturbed development.

Published

2021

25. Intrarenal Reflux in the Light of Contrast-Enhanced Voiding Urosonography.

Author

Simicic Majce A, Arapovic A, Saraga-Babic M, Vukojevic K, Benzon B, Punda A, and Saraga M

Abstract

Purpose: The aim of this study was to analyze the incidence of intrarenal reflux (IRR) among vesicoureteral refluxes (VURs), diagnosed by contrast-enhanced voiding urosonography (ceVUS), to define VURs which are positive to IRR and their locations in the kidney. Materials and Methods: Seventy patients with VURs, including 103 uretero-renal units (URUs) with VURs of grades II-V (37 URUs were excluded because of renal anomalies or absence of VUR) were examined with ceVUS due to recurrent febrile UTI or first febrile UTI accompanied by abnormalities on renal ultrasonography. Patients were examined on GE Logiq S8 ultrasound machine, using second generation of ultrasound contrast agent. Results: Out of 103 VURs, 51 (49.51%) had IRR regardless the grade of VUR, showing increase in IRR incidence with VUR severity ( p < 0.0001). The median age at the time of IRR diagnosis was 5 months (IQR, 3-14.3), whereas in patients without IRR, it was 15.5 months (IQR, 5-41.5), ( p = 0.0069). IRR was most common in superior pole (80%), followed by inferior pole (62.7%), and middle segments (37%), and to all segments (27%) ( p < 0.0001). Conclusion: In the present study, patients with IRR-associated VUR showed earlier clinical presentation. The distribution of IRRs corresponded to the natural distribution of composed papillae types II and III, while the incidence of IRR increased with severity of VUR. Further clinical studies may point to the importance of considering IRR in the future classification of VUR., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Simicic Majce, Arapovic, Saraga-Babic, Vukojevic, Benzon, Punda and Saraga.)

Published

2021

26. Connexin Signaling in the Juxtaglomerular Apparatus (JGA) of Developing, Postnatal Healthy and Nephrotic Human Kidneys.

Author

Kosovic I, Filipovic N, Benzon B, Bocina I, Glavina Durdov M, Vukojevic K, Saraga M, and Saraga-Babic M

Subjects

Child, Connexin 43 metabolism, Connexins physiology, Female, Fetus, Gap Junctions metabolism, Humans, Infant, Juxtaglomerular Apparatus physiology, Kidney embryology, Kidney metabolism, Kidney Tubules metabolism, Male, Myocytes, Smooth Muscle metabolism, Nephrotic Syndrome metabolism, Renin metabolism, Renin-Angiotensin System physiology, Signal Transduction, Gap Junction alpha-5 Protein, Gap Junction alpha-4 Protein, Connexins metabolism, Juxtaglomerular Apparatus metabolism, Kidney pathology

Abstract

Our study analyzed the expression pattern of different connexins (Cxs) and renin positive cells in the juxtaglomerular apparatus (JGA) of developing, postnatal healthy human kidneys and in nephrotic syndrome of the Finnish type (CNF), by using double immunofluorescence, electron microscopy and statistical measuring. The JGA contained several cell types connected by Cxs, and consisting of macula densa, extraglomerular mesangium (EM) and juxtaglomerular cells (JC), which release renin involved in renin-angiotensin- aldosteron system (RAS) of arterial blood pressure control. During JGA development, strong Cx40 expression gradually decreased, while expression of Cx37, Cx43 and Cx45 increased, postnatally showing more equalized expression patterning. In parallel, initially dispersed renin cells localized to JGA, and greatly increased expression in postnatal kidneys. In CNF kidneys, increased levels of Cx43, Cx37 and Cx45 co-localized with accumulations of renin cells in JGA. Additionally, they reappeared in extraglomerular mesangial cells, indicating association between return to embryonic Cxs patterning and pathologically changed kidney tissue. Based on the described Cxs and renin expression patterning, we suggest involvement of Cx40 primarily in the formation of JGA in developing kidneys, while Cx37, Cx43 and Cx45 might participate in JGA signal transfer important for postnatal maintenance of kidney function and blood pressure control.

Published

2020

27. Spatio-temporal patterning of different connexins in developing and postnatal human kidneys and in nephrotic syndrome of the Finnish type (CNF).

Author

Kosovic I, Filipovic N, Benzon B, Vukojevic K, Saraga M, Glavina Durdov M, Bocina I, and Saraga-Babic M

Subjects

Actins biosynthesis, Actins genetics, Connexins genetics, Gap Junctions ultrastructure, Gestational Age, Humans, Infant, Kidney embryology, Kidney growth & development, Kidney ultrastructure, Male, Membrane Proteins deficiency, Mesenchymal Stem Cells metabolism, Microfilament Proteins biosynthesis, Microfilament Proteins genetics, Mutation, Missense, Nephrotic Syndrome genetics, Organ Specificity, Platelet Endothelial Cell Adhesion Molecule-1 biosynthesis, Platelet Endothelial Cell Adhesion Molecule-1 genetics, Connexins biosynthesis, Gene Expression Regulation, Developmental, Kidney metabolism, Nephrotic Syndrome metabolism

Abstract

Connexins (Cxs) are membrane-spanning proteins which enable flow of information important for kidney homeostasis. Changes in their spatiotemporal patterning characterize blood vessel abnormalities and chronic kidney diseases (CKD). We analysed spatiotemporal expression of Cx37, Cx40, Cx43 and Cx45 in nephron and glomerular cells of developing, postnatal kidneys, and nephrotic syndrome of the Finnish type (CNF) by using immunohistochemistry, statistical methods and electron microscopy. During kidney development, strong Cx45 expression in proximal tubules and decreasing expression in glomeruli was observed. In developing distal nephron, Cx37 and Cx40 showed moderate-to-strong expression, while weak Cx43 expression gradually increased. Cx45/Cx40 co-localized in mesangial and granular cells. Cx43 /Cx45 co-localized in podocytes, mesangial and parietal epithelial cells, and with podocyte markers (synaptopodin, nephrin). Different Cxs co-expressed with endothelial (CD31) and VSMC (α -SMA) markers in vascular walls. Peak signalling of Cx37, Cx43 and Cx40 accompanied kidney nephrogenesis, while strongest Cx45 signalling paralleled nephron maturation. Spatiotemporal Cxs patterning indicate participation of Cx45 in differentiation of proximal tubules, and Cx43, Cx37 and Cx40 in distal tubules differentiation. CNF characterized disorganized Cx45 expression in proximal tubules, increased Cx43 expression in distal tubules and overall elevation of Cx40 and Cx37, while Cx40 co-localized with increased number of interstitial myofibroblasts.

Published

2020

28. Expression of apoptotic and proliferation factors in gastric mucosa of patients with systemic sclerosis correlates with form of the disease.

Author

Boric K, Mardesic S, Martinovic Kaliterna D, Radic M, Tadin Hadjina I, Vukojevic K, Kosovic I, Solic I, Zekic Tomas S, and Saraga-Babic M

Subjects

Actins metabolism, Adult, Aged, Apoptosis, Atrophy, Biopsy, Case-Control Studies, Caspase 3 metabolism, Cell Proliferation, Collagen metabolism, Female, Gastric Mucosa cytology, Gastric Mucosa metabolism, Humans, Ki-67 Antigen metabolism, Male, Middle Aged, Myofibroblasts metabolism, Myofibroblasts pathology, Scleroderma, Systemic pathology, Severity of Illness Index, Syndecan-1 metabolism, Gastric Mucosa pathology, Scleroderma, Systemic diagnosis

Abstract

Despite high prevalence of patients with gastric disease in systemic sclerosis (SSc), its pathogenesis is still poorly understood. We immunohistochemically analysed biopsies of gastric mucosa (GM) in 5 controls and 15 patients with different forms of SSc: limited cutaneous (lc), diffuse cutaneous moderate (sys1) and severe (sys2). The number of positive cells was analysed by a Kruskall-Wallis test, P < 0.05 was considered statistically significant. Percentage of proliferating (Ki-67 positive) cells was highest in sys1 (3% in superficial and 4,6% in deeper parts of GM), which dropped to 1% in sys2. Percentage of α-smooth muscle actin (α-SMA) positive cells was 5% in controls, 9% in superficial GM, while in deeper GM rose from 7% to 19% in sys1 and sys2, thus indicating increased myofibroblast population. Caspase-3 positive apoptotic cells characterized 1,5-2% of controls, 8% of superficial and 6% of deeper GM cells in sys1. In sys2, apoptosis affected 50% of surface epithelial and gland cells and 30% of deeper glands, and correlated with increased fibrosis and decreased syndecan-1 expression. Our data demonstrate that sys1 is the most "active" proliferating form of SSc. Sys2 characterize collagen deposition, surface epithelium defects, extensive apoptosis and low proliferation, GM atrophy and loss of function.

Published

2019

29. Syndecans and Enzymes for Heparan Sulfate Biosynthesis and Modification Differentially Correlate With Presence of Inflammatory Infiltrate in Periodontitis.

Author

Duplancic R, Roguljic M, Puhar I, Vecek N, Dragun R, Vukojevic K, Saraga-Babic M, and Kero D

Abstract

Periodontitis is a common degenerative disease initiated by the bacteria in subgingival biofilm. The exposure to bacterial biofilm triggers host inflammatory response whose dysregulation is ultimately responsible for the destruction of hard and soft periodontal tissues resulting in tooth loss. To date, significant effort has been invested in the research of the involvement of host cells and inflammatory mediators in regulation of inflammatory response in periodontitis. Syndecans (Sdcs) belong to a four-member family of heparan sulfate proteoglycans (HSPGs). Sdcs are compound molecules comprised of the core protein to which several heparan sulfate (HS) glycosaminoglycan (GAG) chains are attached. The role of Sdcs in pathogenesis of periodontitis is poorly investigated despite the numerous reports from experimental studies about the critical involvement of these factors in modulation of various aspects of inflammatory response, such as the formation of inflammatory mediators gradients, leukocyte recruitment and extracellular matrix remodeling in resolution of inflammation. Most of these functions of Sdcs are HS-related and, thus, dependent upon the structure of HS. This, in turn, is determined by the combinatorial action of enzymes for biosynthesis and modification of HS such as exostosis (EXTs), sulfotransferases (NDSTs), and heparanase 1 (HPSE1). The data presented in this study clearly indicate that some Sdcs display different expression profiles in healthy and diseased periodontal tissue. Additionally, the differences in expression profiles of HS GAG biosynthesis and modification enzymes (EXTs, NDSTs, and HPSE1) in healthy and diseased periodontal tissue imply that changes in HS GAG content and structure might also take place during periodontitis. Most notably, expression profiles of Sdcs, EXTs, NDSTs, and HPSE1 differentially correlate with the presence of inflammatory infiltrate in healthy and diseased periodontal tissue, which might imply that these factors could also be involved in modulation of inflammatory response in periodontitis., (Copyright © 2019 Duplancic, Roguljic, Puhar, Vecek, Dragun, Vukojevic, Saraga-Babic and Kero.)

Published

2019

30. Glomeruli from patients with nephrin mutations show increased number of ciliated and poorly differentiated podocytes.

Author

Vukojevic K, Raguz F, Saraga M, Filipovic N, Bocina I, Kero D, Glavina Durdov M, Martinovic V, and Saraga-Babic M

Subjects

Cell Differentiation, Cell Proliferation, Cilia, Humans, Immunohistochemistry, Mutation, Reference Standards, Tissue Embedding, Kidney Glomerulus growth & development, Membrane Proteins genetics, Nephrotic Syndrome, Podocytes

Abstract

Background: Podocytes are postmitotic, highly specialized cells which maintain the glomerular filtration barrier (GFB). Their injury is characterized by foot processes effacement and change in protein expression leading to proteinuria and end-stage kidney disease., Methods: Our study focuses on the morphological and immunohistochemical changes of human podocytes during normal development and postnatal period, compared to congenital nephrotic syndrome of the Finnish type (CNF). Kidney tissues taken from 17 human conceptuses 8th-38th weeks old, two healthy and three CNF kidneys were embedded in paraffin for immunohistochemical or double immunofluorescence methods, or were embedded in resin for electron microscopy. Paraffin sections were stained with markers for proliferation (Ki-67), proteins nephrin and nestin, and alpha-tubulin. Quantification of positive cells were performed using Mann Whitney and Kruskal-Wallis test., Results: Tissue analysis showed that proliferation of podocytes gradually decreased during development and disappeared in postnatal period. Decrease in number of ciliated glomerular cells and visceral podocytes (from 47% to 3%), and parietal epithelial cells (from 32% to 7%) characterized normal development. Nestin and nephrin co-expressed in developing podocytes in different cellular compartments. During development, nephrin expression increased (from 17% to 75%) and postnatally changed its pattern, while nestin positive glomerular cells decreased from 98% to 40%. CNF glomeruli displayed increased number of immature ciliated podocytes (6%) and parietal epithelial cells (9%)., Conclusion: Changes in cytoplasmic alpha-tubulin expression and reduced nephrin expression (20%) indicating association of incomplete podocyte maturation with failure of GFB function and appearance of prenatal proteinuria in CNF patients., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

31. Syndecans and Enzymes Involved in Heparan Sulfate Biosynthesis and Degradation Are Differentially Expressed During Human Odontogenesis.

Author

Kero D, Bilandzija TS, Arapovic LL, Vukojevic K, and Saraga-Babic M

Abstract

Syndecans belong to a four-member family of cell surface heparan sulfate proteoglycans (HSPGs) abundantly present in various tissues. They are primarily recognized as extracellular matrix (ECM) receptors able to bind various ECM components and form gradients of morphogens and growth factors. Syndecans are composed of core protein with distinctive cytoplasmic, transmembrane, and extracellular domains to which several HS glycosaminoglycan (GAG) chains are covalently attached. In development of composite organs, such as teeth, expression patterns of syndecans display temporo-spatial shifts between epithelial and mesenchymal tissue compartments. Along with diverse functional properties of syndecans and generally large number of their interactors due to HS GAG chain content, this suggests possible involvement of syndecans in modulation of epithelial-to-mesenchymal crosstalk. Functional versatility of syndecans greatly depends upon the biochemical properties of attached HS GAG chains. These are specifically determined during the HS biosynthesis by the combinatorial action of glycosyl-transferases (Exts/EXTs) and bi-functional sulfotransferases (Ndsts/NDSTs), as well as by post-biosynthetic enzymatic cleavage of HS by the only active endoglucuronidase in mammals, heparanase 1 (Hpse1/HPSE1). Matching the essential requirement for HS during organogenesis, null-mutant animals for genes encoding these enzymes display severe developmental anomalies of mineralized tissues (including teeth) with embryonic or perinatal lethality. In this study, we analyzed expression of syndecan HSPGs (syndecans 1, 2, and 4), enzymes involved in HS biosynthesis (EXT1, NDST1, NDST2) and HS cleavage (HPSE1) in human tooth germs during the early stages of odontogenesis. All of the investigated factors displayed temporo-spatial differences in expression patterns, and some of them showed distinctive asymmetries of expression domains. Our findings suggest that these factors might be differentially involved in cellular processes which take place during the early odontogenic sequence in humans.

Published

2018

32. Growth factors FGF8 and FGF2 and their receptor FGFR1, transcriptional factors Msx-1 and MSX-2, and apoptotic factors p19 and RIP5 participate in the early human limb development.

Author

Becic T, Kero D, Vukojevic K, Mardesic S, and Saraga-Babic M

Subjects

Apoptosis, Cell Proliferation, Chondrocytes cytology, Fibroblast Growth Factor 2 genetics, Fluorescent Antibody Technique, Gene Expression, Humans, Immunohistochemistry, Limb Buds growth & development, Receptor-Interacting Protein Serine-Threonine Kinases genetics, Fibroblast Growth Factor 2 metabolism, Fibroblast Growth Factor 8 metabolism, Homeodomain Proteins metabolism, Limb Buds metabolism, MSX1 Transcription Factor metabolism, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, Receptors, Growth Factor metabolism, Stathmin metabolism

Abstract

The expression pattern of fibroblast growth factors FGF8 and FGF2 and their receptor FGFR1, transcription factors MSX-1 and MSX-2, as well as cell proliferation (Ki-67) and cell death associated caspase-3, p19 and RIP5 factors were analyzed in histological sections of eight 4th-9th-weeks developing human limbs by immunohistochemistry and semi-thin sectioning. Increasing expression of all analyzed factors (except FGF8) characterized both the multilayered human apical ectodermal ridge (AER), sub-ridge mesenchyme (progress zone) and chondrocytes in developing human limbs. While cytoplasmic co-expression of MSX-1 and MSX-2 was observed in both limb epithelium and mesenchyme, p19 displayed strong cytoplasmic expression in non-proliferating cells. Nuclear expression of Ki-67 proliferating cells, and partly of MSX-1 and MSX-2 was detected in the whole limb primordium. Strong expression of factors p19 and RIP5, both in the AER and mesenchyme of human developing limbs indicates their possible involvement in control of cell senescence and cell death. In contrast to animal studies, expression of FGFR1 in the surface ectoderm and p19 in the whole limb primordium might reflect interspecies differences in limb morphology. Expression of FGF2 and downstream RIP5 gene, and transcription factors Msx-1 and MSX-2 did not show human-specific changes in expression pattern. Based on their spatio-temporal expression during human limb development, our study indicates role of FGFs and Msx genes in stimulation of cell proliferation, limb outgrowth, digit elongation and separation, and additionally MSX-2 in control of vasculogenesis. The cascade of orchestrated gene expressions, including the analyzed developmental factors, jointly contribute to the complex human limb development., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

33. Regulation of proliferation in developing human tooth germs by MSX homeodomain proteins and cyclin-dependent kinase inhibitor p19 INK4d .

Author

Kero D, Vukojevic K, Stazic P, Sundov D, Mardesic Brakus S, and Saraga-Babic M

Subjects

Cell Cycle, Cell Proliferation, Cyclin A2 metabolism, Humans, Ki-67 Antigen physiology, Protein Domains, Retinoblastoma Protein metabolism, Stem Cells cytology, Cyclin-Dependent Kinase Inhibitor p19 physiology, Gene Expression Regulation, Developmental, Homeodomain Proteins physiology, Incisor embryology, MSX1 Transcription Factor physiology

Abstract

Before the secretion of hard dental tissues, tooth germs undergo several distinctive stages of development (dental lamina, bud, cap and bell). Every stage is characterized by specific proliferation patterns, which is regulated by various morphogens, growth factors and homeodomain proteins. The role of MSX homeodomain proteins in odontogenesis is rather complex. Expression domains of genes encoding for murine Msx1/2 during development are observed in tissues containing highly proliferative progenitor cells. Arrest of tooth development in Msx knockout mice can be attributed to impaired proliferation of progenitor cells. In Msx1 knockout mice, these progenitor cells start to differentiate prematurely as they strongly express cyclin-dependent kinase inhibitor p19 INK4d . p19 INK4d induces terminal differentiation of cells by blocking the cell cycle in mitogen-responsive G1 phase. Direct suppression of p19 INK4d by Msx1 protein is, therefore, important for maintaining proliferation of progenitor cells at levels required for the normal progression of tooth development. In this study, we examined the expression patterns of MSX1, MSX2 and p19 INK4d in human incisor tooth germs during the bud, cap and early bell stages of development. The distribution of expression domains of p19 INK4d throughout the investigated period indicates that p19 INK4d plays active role during human tooth development. Furthermore, comparison of expression domains of p19 INK4d with those of MSX1, MSX2 and proliferation markers Ki67, Cyclin A2 and pRb, indicates that MSX-mediated regulation of proliferation in human tooth germs might not be executed by the mechanism similar to one described in developing tooth germs of wild-type mouse.

Published

2017

34. Role of skeletal muscle in ear development.

Author

Rot I, Baguma-Nibasheka M, Costain WJ, Hong P, Tafra R, Mardesic-Brakus S, Mrduljas-Djujic N, Saraga-Babic M, and Kablar B

Subjects

Animals, Ear embryology, Ear, Inner growth & development, Gene Expression Regulation, Developmental genetics, Hair Cells, Auditory, Inner physiology, Humans, Mice, Microarray Analysis, Organogenesis, Ear growth & development, Muscle, Skeletal physiology

Abstract

The current paper is a continuation of our work described in Rot and Kablar, 2010. Here, we show lists of 10 up- and 87 down-regulated genes obtained by a cDNA microarray analysis that compared developing Myf5-/-:Myod-/- (and Mrf4-/-) petrous part of the temporal bone, containing middle and inner ear, to the control, at embryonic day 18.5. Myf5-/-:Myod-/- fetuses entirely lack skeletal myoblasts and muscles. They are unable to move their head, which interferes with the perception of angular acceleration. Previously, we showed that the inner ear areas most affected in Myf5-/-:Myod-/- fetuses were the vestibular cristae ampullaris, sensitive to angular acceleration. Our finding that the type I hair cells were absent in the mutants' cristae was further used here to identify a profile of genes specific to the lacking cell type. Microarrays followed by a detailed consultation of web-accessible mouse databases allowed us to identify 6 candidate genes with a possible role in the development of the inner ear sensory organs: Actc1, Pgam2, Ldb3, Eno3, Hspb7 and Smpx. Additionally, we searched for human homologues of the candidate genes since a number of syndromes in humans have associated inner ear abnormalities. Mutations in one of our candidate genes, Smpx, have been reported as the cause of X-linked deafness in humans. Our current study suggests an epigenetic role that mechanical, and potentially other, stimuli originating from muscle, play in organogenesis, and offers an approach to finding novel genes responsible for altered inner ear phenotypes.

Published

2017

35. Expression of Epithelial and Mesenchymal Differentiation Markers in the Early Human Gonadal Development.

Author

Martinovic V, Vukusic Pusic T, Restovic I, Bocina I, Filipovic N, Saraga-Babic M, and Vukojevic K

Subjects

Female, Humans, Pregnancy, Antigens, Differentiation metabolism, Cell Differentiation, Embryo, Mammalian cytology, Embryo, Mammalian metabolism, Epithelial-Mesenchymal Transition, Gonads embryology, Gonads metabolism

Abstract

Expressions of cytokeratin 8 (CK8), vimentin, nestin, and alpha-smooth-muscle-actin (alpha-SMA) were analyzed in the developing gonads of 12, 5-9 week old (W) human conceptuses by immunohistochemistry and immunofluorescence. During the investigated period, the number of CK8 positive cells increased from 56% to 92% in the gonadal surface epithelium, from 50% to 60% in the stroma, and from 23% to 42% in the medulla. In the early fetal period, the cell expression of CK8 increased in all gonadal parts, whereas primordial germ cells (PGC) remained negative. The expression of vimentin increased in the gonad stroma (gs) from 73% to 88%, and in the surface epithelium from 18% to 97% until ninth W. The medulla had the highest expression of vimentin in the seventh to eighth W (93%). Vimentin and CK8 colocalized in the somatic cells, while some PGCs showed vimentin expression only. Initially, nestin was positive in the gonad surface epithelium (8%) and stroma (52%), however during further development it decreased to 1% and 33%, respectively. In the early fetal period, the nestin positive cells decreased from 44% to 31% in the gonad medulla. Alpha-SMA was positive only in the blood vessels and mesonephros. The described pattern of expression of intermediate filaments (IF) in developing human gonads suggests their role in the control of PGC apoptosis, early differentiation of gs cells and cell migration. Both epithelial and mesenchymal origins of follicular cells and possible epithelial-to-mesenchymal transition of somatic cells is proposed. Lastly, IF intensity expression varies depending on the cell type and developmental period analyzed. Anat Rec, 300:1315-1326, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

36. Immunohistochemical and electronmicroscopic features of mesenchymal-to-epithelial transition in human developing, postnatal and nephrotic podocytes.

Author

Filipovic N, Vukojevic K, Bocina I, Saraga M, Durdov MG, Kablar B, and Saraga-Babic M

Subjects

Humans, Immunohistochemistry, Microscopy, Electron, Podocytes pathology, Epithelial-Mesenchymal Transition, Nephrotic Syndrome metabolism, Nephrotic Syndrome pathology, Podocytes cytology, Podocytes ultrastructure

Abstract

Differentiation of human podocytes starts with mesenchymal-to-epithelial transition (MET) of the metanephric mesenchyme into the S-shaped nephrons. During further development, differentiating podocytes regain mesenchyme-like cell characteristics by epithelial-to-mesenchymal transition (EMT), leading to formation of the terminally differentiated, non-dividing cell. Both MET and EMT processes involve changes in content and organization of cytoskeletal and actin filaments, accompanied by the increased glomerular vascularization. Here, we analyze and compare normal human developing, postnatal and nephrotic podocytes and glomeruli, using immunohistochemical and double immunofluorescent methods for detection of markers of cytoskeletal filaments (nestin, cytokeratin 10-CK10, vimentin and α-SMA), vasculogenesis (CD31 and VEGF) and podocyte function (receptor for advanced glycation end products, RAGE). In addition, electron microscopy is used to detect ultrastructural changes of the podocytes. Early metanephric cup mesenchyme expresses all investigated markers except α-SMA, which characterizes only surface mesenchymal cells. In differentiating podocytes and cells of Bowman's capsule (parietal podocytes) nestin decreases, vimentin increases, while CK10 gradually disappears. Increase in α-SMA is associated with blood vessels development, appearance of podocyte pedicles and slit diaphragm and loss of intercellular connections (zonulae adherentes). Increase in CD31 characterizes vascular glomerular tufts development, while decrease in RAGE expression accompanies normal podocyte differentiation. In congenital nephrotic syndrome of the Finnish type, dedifferentiated podocytes display changes in cytoskeletal filaments and depletion of podocyte pedicles, while glomerular vascular supply is diminished. Our data also suggest high potential of metanephric mesenchyme and parietal podocytes in possible regeneration of the damaged podocytes.

Published

2017

37. Neuronal differentiation in the early human retinogenesis.

Author

Rancic A, Filipovic N, Marin Lovric J, Mardesic S, Saraga-Babic M, and Vukojevic K

Subjects

Fluorescent Antibody Technique, Humans, Cell Differentiation, Neurons cytology, Organogenesis, Retina cytology, Retina embryology

Abstract

Aim: Our study investigates the differentiation of retinal stem cells towards different neuronal subtypes during the critical period of human eye development., Methods: Expression of the neuronal marker neurofilament 200 (NF200), tyrosine hydroxilase (TH) and choline acetyltransferase (ChAT) was seen by immunofluorescence in the 5th-12th - week stage of development in the human eye. Data was analysed by Mann-Whitney, Kruskal-Wallis and Dunn's post hoc tests., Results: NF200, TH and ChAT cells appeared in the 5th/6th week and gradually increased during further development. The proportion of TH positive areas were distributed similarly to NF200, with a higher proportion in the outer neuroblastic layer. The proportion of a ChAT positive surface was highest in the 5th/6th - week whilst from the 7th week onwards, its proportion became higher in the optic nerve and inner neuroblastic layers than in the outer layer, where a decrease of ChAT positive areas were seen., Conclusions: Our study indicates a high differentiation potential of early retinal cells, which decreased with the advancement of development. The observed great variety of retinal phenotypic expressions results from a large scale of influences, taking place at different developmental stages., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published

2017

38. Genetic Drivers of Kidney Defects in the DiGeorge Syndrome.

Author

Lopez-Rivera E, Liu YP, Verbitsky M, Anderson BR, Capone VP, Otto EA, Yan Z, Mitrotti A, Martino J, Steers NJ, Fasel DA, Vukojevic K, Deng R, Racedo SE, Liu Q, Werth M, Westland R, Vivante A, Makar GS, Bodria M, Sampson MG, Gillies CE, Vega-Warner V, Maiorana M, Petrey DS, Honig B, Lozanovski VJ, Salomon R, Heidet L, Carpentier W, Gaillard D, Carrea A, Gesualdo L, Cusi D, Izzi C, Scolari F, van Wijk JA, Arapovic A, Saraga-Babic M, Saraga M, Kunac N, Samii A, McDonald-McGinn DM, Crowley TB, Zackai EH, Drozdz D, Miklaszewska M, Tkaczyk M, Sikora P, Szczepanska M, Mizerska-Wasiak M, Krzemien G, Szmigielska A, Zaniew M, Darlow JM, Puri P, Barton D, Casolari E, Furth SL, Warady BA, Gucev Z, Hakonarson H, Flogelova H, Tasic V, Latos-Bielenska A, Materna-Kiryluk A, Allegri L, Wong CS, Drummond IA, D'Agati V, Imamoto A, Barasch JM, Hildebrandt F, Kiryluk K, Lifton RP, Morrow BE, Jeanpierre C, Papaioannou VE, Ghiggeri GM, Gharavi AG, Katsanis N, and Sanna-Cherchi S

Subjects

Adolescent, Animals, Child, Chromosomes, Human, Pair 22, Exome, Female, Heterozygote, Humans, Infant, Infant, Newborn, Male, Mice, Models, Animal, Sequence Analysis, DNA, Young Adult, Zebrafish, Adaptor Proteins, Signal Transducing genetics, Chromosome Deletion, DiGeorge Syndrome genetics, Haploinsufficiency, Kidney abnormalities, Nuclear Proteins genetics, Urinary Tract abnormalities

Abstract

Background: The DiGeorge syndrome, the most common of the microdeletion syndromes, affects multiple organs, including the heart, the nervous system, and the kidney. It is caused by deletions on chromosome 22q11.2; the genetic driver of the kidney defects is unknown., Methods: We conducted a genomewide search for structural variants in two cohorts: 2080 patients with congenital kidney and urinary tract anomalies and 22,094 controls. We performed exome and targeted resequencing in samples obtained from 586 additional patients with congenital kidney anomalies. We also carried out functional studies using zebrafish and mice., Results: We identified heterozygous deletions of 22q11.2 in 1.1% of the patients with congenital kidney anomalies and in 0.01% of population controls (odds ratio, 81.5; P=4.5×10 -14 ). We localized the main drivers of renal disease in the DiGeorge syndrome to a 370-kb region containing nine genes. In zebrafish embryos, an induced loss of function in snap29, aifm3, and crkl resulted in renal defects; the loss of crkl alone was sufficient to induce defects. Five of 586 patients with congenital urinary anomalies had newly identified, heterozygous protein-altering variants, including a premature termination codon, in CRKL. The inactivation of Crkl in the mouse model induced developmental defects similar to those observed in patients with congenital urinary anomalies., Conclusions: We identified a recurrent 370-kb deletion at the 22q11.2 locus as a driver of kidney defects in the DiGeorge syndrome and in sporadic congenital kidney and urinary tract anomalies. Of the nine genes at this locus, SNAP29, AIFM3, and CRKL appear to be critical to the phenotype, with haploinsufficiency of CRKL emerging as the main genetic driver. (Funded by the National Institutes of Health and others.).

Published

2017

39. Neuronal differentiation in the developing human spinal ganglia.

Author

Vukojevic K, Filipovic N, Tica Sedlar I, Restovic I, Bocina I, Pintaric I, and Saraga-Babic M

Subjects

Cells, Cultured, Ganglia, Spinal metabolism, Humans, Neurons metabolism, Cell Differentiation, Ganglia, Spinal cytology, Mechanoreceptors metabolism, Neurons cytology, Nociceptors metabolism

Abstract

The spatiotemporal developmental pattern of the neural crest cells differentiation toward the first appearance of the neuronal subtypes was investigated in developing human spinal ganglia (SG) between the fifth and tenth developmental week using immunohistochemistry and immunofluorescence methods. First neurofilament-200- (NF200, likely myelinated mechanoreceptors) and isolectin-B4-positive neurons (likely unmyelinated nociceptors) appeared already in the 5/6th developmental week and their number subsequently increased during the progression of development. Proportion of NF200-positive cells was higher in the ventral parts of the SG than in the dorsal parts, particularly during the 5/6th and 9/10th developmental weeks (Mann-Whitney, P = 0.040 and P = 0.003). NF200 and IB4 colocalized during the whole investigated period. calcitonin gene-related peptide (CGRP; nociceptive responses), vanilloid receptor-1 (VR1; polymodal nociceptors), and calretinin (calcium signaling) cell immunoreactivity first appeared in the sixth week and eighth week, respectively, especially in the dorsal parts of the SG. VR1 and CGRP colocalized with NF00 during the whole investigated period. Our results indicate the high potential of early differentiated neuronal cells, which slightly decreased with the progression of SG differentiation. On the contrary, the number of neuronal subtypes displayed increasing differentiation at later developmental stage. The great diversity of phenotypic expression found in the SG neurons is the result of a wide variety of influences, occurring at different stages of development in a large potential repertory of these neurons. Understanding the pathway of neural differentiation in the human, SG could be important for the studies dealing with the process of regeneration of damaged spinal nerves or during the repair of pathological changes within the affected ganglia. Anat Rec, 299:1060-1072, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

40. Involvement of IGF-2, IGF-1R, IGF-2R and PTEN in development of human tooth germ - an immunohistochemical study.

Author

Kero D, Cigic L, Medvedec Mikic I, Galic T, Cubela M, Vukojevic K, and Saraga-Babic M

Subjects

Epithelium metabolism, Fluorescent Antibody Technique, Humans, Immunohistochemistry, Incisor cytology, Mesoderm metabolism, Insulin-Like Growth Factor II metabolism, PTEN Phosphohydrolase metabolism, Receptor, IGF Type 1 metabolism, Receptor, IGF Type 2 metabolism, Tooth Germ embryology, Tooth Germ metabolism

Abstract

Insulin-Like Growth Factor 2 (IGF-2) is a peptide hormone essential for prenatal growth and development. IGF-2 exerts its mitogenic effects via Insulin-Like Growth Factor 1 Receptor (IGF-1R), and is eliminated by binding to Insulin-Like Growth Receptor 2 (IGF-2R). IGF-2 is also negatively regulated by Phosphatase and Tensin Homolog (PTEN), a phosphatase mutated in various tumors. Not much is known about the interplay between these factors during human odontogenesis. In this study, expression patterns of IGF-2, IGF-1R, IGF-2R and PTEN were analyzed by double immunofluorescence in incisor human tooth germs during the foetal period of development between the 7 th and 20 th gestational week. Throughout the investigated period, IGF-2 was mostly expressed in enamel organ, whereas mild to moderate expression of PTEN could be seen in dental papilla and parts of enamel organ. Expression of IGF-1R was ubiquitous and displayed strong intensity throughout the entire enamel organ. In contrast, expression of IGF-2R had rather erratic pattern in enamel organ and dental papilla alike. Expression patterns of IGF-2, IGF-1R, IGF-2R and PTEN in highly proliferative cervical loops, as well as in differentiating pre-ameloblasts and pre-odontoblasts of cusp tip region during the early and late bell stages when enamel organ acquires definitive shape, indicate importance of these factors in crown morphogenesis of human incisor. Taken together, our data suggest the involvement of IGF-2, IGF-1R, IGF-2R and PTEN in temporo-spatial patterning of basic cellular processes (proliferation, differentiation) during normal tooth development. They are also relevant for improving knowledge of molecular basis of human odontogenesis.

Published

2016

41. Comparison of proliferation, apoptosis and expression of syndecan-1 and α-SMA in edentulous ridge oral mucosa of successful and early failed submerged dental implants--An immunohistochemical study.

Author

Cubela M, Soljic V, Kero D, Vukojevic K, Govorko DK, and Saraga-Babic M

Subjects

Actins physiology, Aged, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Apoptosis physiology, Caspase 3 metabolism, Cell Proliferation physiology, Dental Implantation, Endosseous, Female, Humans, Macrophages metabolism, Male, Middle Aged, Mouth Mucosa blood supply, Mouth Mucosa pathology, Mouth, Edentulous pathology, Osseointegration, Syndecan-1 physiology, Transforming Growth Factor beta analysis, Transforming Growth Factor beta biosynthesis, Transforming Growth Factor beta physiology, Actins biosynthesis, Dental Implants adverse effects, Dental Restoration Failure, Mouth Mucosa metabolism, Mouth, Edentulous metabolism, Syndecan-1 biosynthesis

Abstract

Aims: Pathogenic mechanisms involved in early submerged implant failure are poorly understood. In this study we immunohistochemically analyse differences in proliferation, apoptosis and inflammation in edentulous ridge oral mucosa (ERM) of successful and early failed submerged implants., Materials and Methods: 30 samples of ERM covering successful and early failed submerged implants were obtained at the end of osseointegration period along with control samples of healthy ERM. Sections were stained with Ki-67 (proliferation), caspase-3 (apoptosis) and syndecan-1 (epithelial marker). Percentage of positive cells was analysed by Kruskal-Wallis test and Dunn's post hoc test. Co-localization of Ki-67 and caspase-3 with α-SMA, CD68 and TGF-β was done by double immunofluorescence., Results: There was no significant difference in number of Ki-67 positive cells within surface epithelium (SE) in all groups. Proliferation was significantly higher in underlying connective tissue (UCT) of ERM of early failed submerged implants (26%) compared to ERM of successful submerged implants (3%) and controls (4%). More apoptotic cells appeared in UCT of early failed submerged implants (8%) compared to UCT of successful submerged implants (4%) and UCT of control ERM (3%). Co-localization of Ki-67 and α-SMA in ERM of early failed submerged implants disclosed proliferating fibroblasts and pericytes of blood vessels. Macrophages and cells expressing TGF-β appeared in UCT of failed implants. Expression of syndecan-1 was significantly weaker in SE of early failed submerged implants., Conclusions: Imbalance between proliferation and apoptosis, changes in syndecan-1 expression and inflammation are histopathological features of ERM of early failed submerged implants., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

42. Copy number variation analysis identifies novel CAKUT candidate genes in children with a solitary functioning kidney.

Author

Westland R, Verbitsky M, Vukojevic K, Perry BJ, Fasel DA, Zwijnenburg PJ, Bökenkamp A, Gille JJ, Saraga-Babic M, Ghiggeri GM, D'Agati VD, Schreuder MF, Gharavi AG, van Wijk JA, and Sanna-Cherchi S

Abstract

Copy number variations associate with different developmental phenotypes and represent a major cause of congenital anomalies of the kidney and urinary tract (CAKUT). Because rare pathogenic copy number variations are often large and contain multiple genes, identification of the underlying genetic drivers has proven to be difficult. Here we studied the role of rare copy number variations in 80 patients from the KIMONO study cohort for which pathogenic mutations in three genes commonly implicated in CAKUT were excluded. In total, 13 known or novel genomic imbalances in 11 of 80 patients were absent or extremely rare in 23,362 population controls. To identify the most likely genetic drivers for the CAKUT phenotype underlying these rare copy number variations, we used a systematic in silico approach based on frequency in a large data set of controls, annotation with publicly available databases for developmental diseases, tolerance and haploinsufficiency scores, and gene expression profile in the developing kidney and urinary tract. Five novel candidate genes for CAKUT were identified that showed specific expression in the human and mouse developing urinary tract. Among these genes, DLG1 and KIF12 are likely novel susceptibility genes for CAKUT in humans. Thus, there is a significant role of genomic imbalance in the determination of kidney developmental phenotypes. Additionally, we defined a systematic strategy to identify genetic drivers underlying rare copy number variations.

Published

2015

43. Interplay of proliferation and differentiation factors is revealed in the early human eye development.

Author

Matas A, Filipovic N, Znaor L, Mardesic S, Saraga-Babic M, and Vukojevic K

Subjects

Eye metabolism, Fluorescent Antibody Technique, Indirect, Gestational Age, Humans, Infant, Newborn, Ki-67 Antigen metabolism, Morphogenesis, Nestin metabolism, Octamer Transcription Factor-3 metabolism, S100 Proteins metabolism, Ubiquitin Thiolesterase metabolism, Biomarkers metabolism, Cell Differentiation physiology, Cell Proliferation physiology, Eye embryology, Eye Proteins metabolism

Abstract

Background: Eye development is a consequence of numerous epithelial-to-mesenchymal interactions between the prospective lens ectoderm, outpocketings of the forebrain forming optic vesicles, and surrounding mesenchyme. How different cell types forming eye structures differentiate from their precursors, and which factors coordinate complex human eye development remains largely unknown. Proper differentiation of photoreceptors is of special interest because of their involvement in the appearance of degenerative retinal diseases., Methods: Here we analyze the spatiotemporal expression of neuronal markers nestin, protein gene product 9.5 (PGP9.5), and calcium binding protein (S100), proliferation marker (Ki-67), markers for cilia (alpha-tubulin), and cell stemness marker octamer-binding transcription factor 4 (Oct-4) in histological sections of 5-12 -week human eyes using immunohistochemical and immunofluorescence methods., Results: While during the investigated developmental period nestin shows strong expression in all mesenchymal derivatives, lens, optic stalk and inner neuroblastic layer, PGP9.5 and S100 expression characterizes only neural derivatives (optic nerve and neural retina). PGP9.5 is co-localized with nestin and S100 in the differentiating cells of the inner neuroblastic layer. Initially strong proliferation in all parts of the developing eye gradually ceases, especially in the outer neuroblastic layer. Proliferating Ki-67 positive cells co-localize with nestin in the retina, lens, and choroid. Strong Oct-4 and alpha-tubulin immunoreactivity in the retina and optic nerve gradually decreases, while they co-localize in outer neuroblastic and nerve fiber layers., Conclusions: The described expression of investigated markers indicates their importance in eye growth and morphogenesis, while their spatially and temporally restricted pattern coincides with differentiation of initially immature cells into specific retinal cell lineages. Alterations in their spatiotemporal interplay might lead to disturbances of visual function.

Published

2015

44. Analysis of expression patterns of IGF-1, caspase-3 and HSP-70 in developing human tooth germs.

Author

Kero D, Kalibovic Govorko D, Medvedec Mikic I, Vukojevic K, Cigic L, and Saraga-Babic M

Subjects

Cell Differentiation, Cuspid cytology, Cuspid embryology, Cuspid metabolism, Dental Enamel metabolism, Dental Papilla cytology, Dental Papilla embryology, Dental Papilla growth & development, Dental Papilla metabolism, Enamel Organ cytology, Enamel Organ embryology, Enamel Organ metabolism, Fetus, Humans, Immunohistochemistry, Incisor embryology, Incisor metabolism, Odontogenesis, Tooth Germ cytology, Tooth Germ embryology, Caspase 3 biosynthesis, HSP70 Heat-Shock Proteins biosynthesis, Insulin-Like Growth Factor I biosynthesis, Tooth Germ metabolism

Abstract

Aims: To analyze expression patterns of IGF-1, caspase-3 and HSP-70 in human incisor and canine tooth germs during the late bud, cap and bell stages of odontogenesis., Materials and Methods: Head areas or parts of jaw containing teeth from 10 human fetuses aged between 9th and 20th developmental weeks were immunohistochemically analyzed using IGF-1, active caspase-3 and HSP-70 markers. Semi-quantitative analysis of each marker's expression pattern was also performed., Results: During the analyzed period, IGF-1 and HSP-70 were mostly expressed in enamel organ. As development progressed, expression of IGF-1 and HSP-70 became more confined to differentiating tissues in the future cusp tip area, as well as in highly proliferating cervical loops. Few apoptotic bodies highly positive to active caspase-3 were observed in enamel organ and dental papilla from the cap stage onward. However, both enamel epithelia moderately expressed active caspase-3 throughout the investigated period., Conclusions: Expression patterns of IGF-1, active caspase-3 and HSP-70 imply importance of these factors for early human tooth development. IGF-1 and HSP-70 have versatile functions in control of proliferation, differentiation and anti-apoptotic protection of epithelial parts of human enamel organ. Active caspase-3 is partially involved in formation and apoptotic removal of primary enamel knot, although present findings might reflect its ability to perform other non-death functions such as differentiation of hard dental tissues secreting cells and guidance of ingrowth of proliferating cervical loops., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

45. Expression pattern of RAGE and IGF-1 in the human fetal ovary and ovarian serous carcinoma.

Author

Poljicanin A, Filipovic N, Vukusic Pusic T, Soljic V, Caric A, Saraga-Babic M, and Vukojevic K

Subjects

Adult, Female, Fetus pathology, Humans, Middle Aged, Neoplasm Metastasis, Oocytes metabolism, Oocytes pathology, Ovarian Neoplasms pathology, Ovary pathology, Fetus embryology, Gene Expression Regulation, Neoplastic, Insulin-Like Growth Factor I biosynthesis, Neoplasm Proteins biosynthesis, Ovarian Neoplasms metabolism, Ovary embryology, Receptor for Advanced Glycation End Products biosynthesis

Abstract

The expression pattern of RAGE and IGF-1 proteins in different ovarian cell lineages was histologically analyzed in six fetal, nine adult human ovaries, and nine serous ovarian carcinomas (OSC) using immunohistochemical methods. Mild expression of IGF-1 in ovarian surface epithelium (Ose) and oocytes in the 15-week human ovaries increased to moderate or strong in the stromal cells, oocytes and follicular cells in week 22. Occasional mild RAGE expression was observed in Ose during week 15, while strong expression characterized primordial follicles in week 22. In the reproductive human ovary, IGF-1 was mildly to moderately expressed in all ovarian cell lineages except in theca cells of the tertiary follicle where IGF-1 was negative. RAGE was strongly positive in the granulosa cells and some theca cells of the tertiary follicle, while negative to mildly positive in all cells of the secondary follicle. In the postmenopausal human ovary IGF-1 and RAGE were mildly expressed in Ose and stroma. In OSC, cells were strongly positive to IGF-1 and RAGE, except for some negative stromal cells. Different levels of IGF-1 and RAGE co-expression characterized fetal ovarian cells during development. In reproductive ovaries, IGF-1 and RAGE were co-localized in the granulosa and theca interna cells of tertiary follicles, while in postmenopausal ovaries and OSC, IGF-1 and RAGE were co-localized in Ose and OSC cells respectively. Our results indicate that intracellular levels of IGF-1 and RAGE protein might regulate the final destiny of the ovarian cell populations prior and during folliculogenesis, possibly controlling the metastatic potential of OSC as well., (Copyright © 2015. Published by Elsevier GmbH.)

Published

2015

46. Role of skeletal muscle in mandible development.

Author

Rot I, Mardesic-Brakus S, Costain WJ, Saraga-Babic M, and Kablar B

Subjects

Animals, Cartilage physiology, Databases, Genetic, Epigenesis, Genetic, Gene Expression Regulation, Genotype, Humans, Internet, Mandible physiology, Mice, Mice, Transgenic, Muscle, Skeletal physiology, Mutation, Oligonucleotide Array Sequence Analysis, Phenotype, Computational Biology methods, Mandible embryology, Muscle, Skeletal embryology

Abstract

As a continuation of the previous study on palate development (Rot and Kablar, 2013), here we explore the relationship between the secondary cartilage mandibular condyles (parts of the temporomandibular joint) and the contributions (mechanical and secretory) from the adjacent skeletal musculature. Previous analysis of Myf5-/-:MyoD-/- mouse fetuses lacking skeletal muscle demonstrated the importance of muscle contraction and static loading in mouse skeletogenesis. Among abnormal skeletal features, micrognathia (mandibular hypoplasia) was detected: small, bent and posteriorly displaced mandible. As an example of Waddingtonian epigenetics, we suggest that muscle, in addition to acting via mechanochemical signal transduction pathways, networks and promoters, also exerts secretory stimuli on skeleton. Our goal is to identify candidate molecules at that muscle-mandible interface. By employing Systematic Subtractive Microarray Analysis approach, we compared gene expression between mandibles of amyogenic and wild type mouse fetuses and we identified up- and down-regulated genes. This step was followed by a bioinformatics approach and consultation of web-accessible mouse databases. We searched for individual tissue-specific gene expression and distribution, and for the functional effects of mutations in a particular gene. The database search tools allowed us to generate a set of candidate genes with involvement in mandibular development: Cacna1s, Ckm, Des, Mir300, Myog and Tnnc1. We also performed mouse-to-human translational experiments and found analogies. In the light of our findings we discuss various players in mandibular morphogenesis and make an argument for the need to consider mandibular development as a consequence of reciprocal epigenetic interactions of both skeletal and non-skeletal compartments.

Published

2014

47. Expression of Ki-67, Oct-4, γ-tubulin and α-tubulin in human tooth development.

Author

Kero D, Novakovic J, Vukojevic K, Petricevic J, Kalibovic Govorko D, Biocina-Lukenda D, and Saraga-Babic M

Subjects

Ameloblasts metabolism, Cell Differentiation, Cell Proliferation, Dental Enamel metabolism, Fluorescent Antibody Technique, Humans, Immunoenzyme Techniques, Tooth Germ metabolism, Ki-67 Antigen metabolism, Octamer Transcription Factor-3 metabolism, Odontogenesis physiology, Tooth embryology, Tooth metabolism, Tubulin metabolism

Abstract

Aims: To analyze factors controlling cell proliferation and differentiation, and appearance of primary cilia during the cap and bell stages of incisor or/and canine human enamel organs., Materials and Methods: Qualitative and quantitative analysis of proliferating Ki-67 positive cells and expression of γ-tubulin, α-tubulin and Oct-4 was immunohistochemically analyzed in the cap an bell stages of 10 developing human incisor and canine germs, 8-21 weeks old., Results: During the analyzed period, ratio of Ki-67 positive cells changed in outer enamel epithelium from 48.86% to 24.52%, in inner enamel epithelium increased from 56.11% to 60.06% and then dropped to 44.24%. While in dental papilla proliferation first increased from 46.26% to 55.45%, and then dropped to 22.08%, a constant decrease of proliferation characterized enamel reticulum (from 46.26% to 15.49%). Strong cytoplasmic Oct-4 expression characterized epithelial parts of enamel organ, particularly the differentiating ameloblasts. During further development, Oct-4 expression shifted to both nuclear and cytoplasmic expression in mesenchymal tooth components. Primary cilia characterized most of the cells in developing enamel organ. While non-ciliated (proliferating) cells mainly contained two centrioles (γ-tubulin), the primary cilia (α-tubulin) were arising from basal bodies (γ-tubulin) of non-proliferating cells., Conclusions: We suggest that increase in cell proliferation enables growth of enamel organ, while its selective decrease leads to disintegration of some tooth parts. Drop of proliferation coincided with initiation of ameloblast and odontoblast differentiation. Additionally, cell differentiation was accompanied by increased expression of Oct-4 and probably by signalling via primary cilia, both regulating processes of cell proliferation and differentiation., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

48. Developmental patterns of Ki-67, Oct-4 and α-tubulin proteins expression in the human spinal cord.

Author

Vukojevic K, Janjic T, and Saraga-Babic M

Subjects

Cell Differentiation, Cell Proliferation physiology, Ependyma metabolism, Humans, Spinal Cord embryology, Ki-67 Antigen metabolism, Neuroglia metabolism, Neurons metabolism, Octamer Transcription Factor-3 metabolism, Spinal Cord metabolism, Tubulin metabolism

Abstract

The aim of this study was to analyze immunohistochemically the relationships between factors involved in processes of cell proliferation (Ki-67), differentiation (Oct-4) and primary cilia formation (α-tubulin) in the two parts of the developing human spinal cord (SC) of different origin in 11 human concepti (developmental weeks 5-10). Proliferation was highest in weeks 7-8 in the dorsal ventricular zones of the cranial (85.5%) and caudal (12.1%) SC. In the ventricular (VZ), intermediate (IZ) and marginal zones (MZ) of the cranial SC, α-tubulin and Oct-4 were moderately to strongly expressed. During weeks 5-6, moderate expression of α-tubulin and Oct-4 characterized the ventral part, with mild expression in the dorsal part of the caudal SC. In weeks 7-8, their expression increased in the VZ and IZ, and decreased in the MZ. In both parts of the SC Ki-67 and α-tubulin co-localized in the VZ. Oct-4 and Ki-67 co-localized only in the ependymal cells. In the cranial SC α-tubulin and Oct-4 co-localized (VZ and IZ), while the MZ expressed only α-tubulin. In the caudal SC, α-tubulin and Oct-4 co-localized in the VZ, while in the IZ some cells were only α-tubulin-positive. We suggest the importance of temporal-spatial expression of Ki-67 for the thickening of the cranial SC lateral wall. While in the cranial part of the SC, proliferation followed a ventral-dorsal direction, the caudal SC had a more irregular pattern. α-Tubulin was associated with cilia formation (ependymal cells) and axonic elongation of neuroblasts (MZ). Primary cilia signaling are important in control of SC proliferation and differentiation. Oct-4 expression in the SC coincided with presence of dividing neuroepithelial cells in the VZ and neuroblasts in the IZ, and could control the level of SC differentiation., (Copyright © 2013 Elsevier GmbH. All rights reserved.)

Published

2014

49. Interplay of proliferation and proapoptotic and antiapoptotic factors is revealed in the early human inner ear development.

Author

Tafra R, Brakus SM, Vukojevic K, Kablar B, Colovic Z, and Saraga-Babic M

Subjects

Adult, Caspase 3 metabolism, Cochlea embryology, Cochlea physiology, Ear, Inner metabolism, Female, Fluorescent Antibody Technique, Indirect, Gestational Age, Humans, Immunohistochemistry, Insulin-Like Growth Factor I metabolism, Ki-67 Antigen metabolism, Pregnancy, Proto-Oncogene Proteins c-bcl-2 metabolism, Vestibule, Labyrinth embryology, Vestibule, Labyrinth physiology, Apoptosis Regulatory Proteins physiology, Cell Proliferation drug effects, Ear, Inner embryology, Ear, Inner physiology

Abstract

Hypothesis: Spatiotemporal interplay of factors controlling proliferation, differentiation and apoptosis within the developing human inner ear is essential for labyrinth morphogenesis and development of vestibular and cochlear functions., Background: Studies on the early human inner ear development are scarce and insufficient., Methods: The immunolocalization of Ki-67, Bcl-2, caspase-3, and IGF-1 was analyzed in 6 human inner ears, 5 to 10 gestational weeks old. Statistical data were analyzed using the Kruskal-Wallis test., Results: During the analyzed period, the otocyst has transformed into cochlear duct and saccule ventrally and semicircular canals and utricle dorsally. Initial differentiation of sensorineural fields characterized organ of Corti, maculae, and cristae ampullares. Intense (50%) and evenly distributed proliferation Ki-67 in the otocyst decreased to 24% to 30% and became spatially restricted within the membranous labyrinth epithelium. Simultaneously, expression of antiapoptotic Bcl-2 protein increased in sensorineural fields of organ of Corti, macula, and crista ampullaris. Throughout the investigated period, apoptotic caspase-3 positive cells were mainly distributed at the luminal and basal surfaces of labyrinth epithelium. An inhibitor of apoptosis IGF-1 co-expressed with Bcl-2 and increased in the sensorineural fields with advancing development., Conclusion: The described expression pattern indicates roles for cell proliferation in the growth of the inner ear and Bcl-2 in differentiation of sensorineural fields and protection from apoptosis. Both IGF-1-and caspase-3-mediated apoptosis seem to contribute to proper morphogenesis, differentiation, and innervations of sensorineural fields within the cochlea, semicircular canals, saccule, and utricle. Alterations in spatiotemporal interplay of investigated factors might lead to disturbances of vestibular and cochlear function.

Published

2014

50. Apoptotic pathways in ovarian surface epithelium of human embryos during embryogenesis and carcinogenesis: close relationship of developmental plasticity and neoplasm.

Author

Caric A, Poljicanin A, Tomic S, Vilovic K, Saraga-Babic M, and Vukojevic K

Subjects

Adult, Aged, Caspase 3 metabolism, Embryo, Mammalian physiology, Epithelium physiopathology, Female, Fluorescent Antibody Technique, Humans, Middle Aged, Ovarian Neoplasms physiopathology, Ovary pathology, Apoptosis physiology, Carcinogenesis pathology, Embryonic Development physiology, Epithelium physiology, Ovary physiology

Abstract

Cell differentiation and different pathways of cell death were immunohistochemically analyzed in ovaries of six human embryos, 20 serous borderline tumors (SBT) and ovarian serous carcinomas (OSC) using markers for apoptosis (caspase-3, AIF, TUNEL) and stemness (Oct-4). In the 5-8-week ovaries, caspase-3 was absent in the ovarian surface epithelium (ose) and mildly positive in the ovarian stroma (os), AIF was expressed moderately, while Oct-4 expression gradually decreased during that period. Some ovarian cells expressed only caspase-3 or AIF together with TUNEL, while both caspase-3 and AIF were co-expressed in other ovarian cells. Mild expression of Oct-4 and caspase-3 characterized some cells of SBT, while their expression varied from mild to strong in OSC. AIF displayed mild to strong expression in ose of SBT and moderate to strong expression in OSC, while no expression of AIF was observed in os of both tumors. In the ose of both SBT and OSC, caspase-3 and AIF were co-expressed only occasionally, while AIF and Oct-4 were co-expressed strongly. Our study showed the presence of stemness cells and different pathways of cell death (caspase-3 and AIF-mediated) in the ovarian tissue during development and carcinogenesis, indicating the correlation between developmental plasticity in human embryonic ovaries and OSC., (Copyright © 2013 Elsevier GmbH. All rights reserved.)

Published

2014