Viviana Kozina scite author profile

SummaryAdipocytes, once considered simple lipid-storing cells, are rapidly emerging as complex cells with many biologically diverse functions. A powerful high-throughput method for analyzing single cells is flow cytometry. Several groups have attempted to analyze and sort freshly isolated adipocytes; however, using an adipocyte-specific reporter mouse, we demonstrate that these studies fail to detect the majority of white adipocytes. We define critical settings required for adipocyte flow cytometry and provide a rigid strategy for analyzing and sorting white and brown adipocyte populations. The applicability of our protocol is shown by sorting mouse adipocytes based on size or UCP1 expression and demonstrating that a subset of human adipocytes lacks the β2-adrenergic receptor, particularly in the insulin-resistant state. In conclusion, the present study confers key technological insights for analyzing and sorting mature adipocytes, opening up numerous downstream research applications.

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Sperm DNA integrity testing: big halo is a good predictor of embryo quality and pregnancy after conventional IVF

Tandara

Bajić

Tandara

et al. 2014

Andrology

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SUMMARYSperm DNA integrity is a sperm functional parameter of male fertility evaluation. Two parameters of sperm DNA integrity were observed: DNA damage expressed as DNA fragmentation index (DFI) and percentage of the DNA undamaged spermatozoa expressed as big halo. Halosperm test was used for sperm DNA integrity determination. The aim of this study was to evaluate which DNA integrity parameter is better as an embryo quality and pregnancy prognostic parameter after the conventional IVF. We evaluated two embryo groups (positive and negative group) according to the 3rd day cumulative embryo score. Big halo and DFI, as we expected, showed good correlation (r = À0.69; p < 0.001). Receiver operating characteristic (ROC) analyses show that DFI and big halo are significant (p < 0.001) as prognostic parameters of embryo quality. ROC curves comparison of DFI and big halo revealed the AUC value for big halo to be significantly higher (DFI AUC = 0.71 vs. big halo AUC = 0.83; p = 0.025) than for DFI. Big halo was found to be the only independent predictor of embryo quality. Sperm DNA integrity both parameters are good prognostic parameters of embryo quality after the conventional IVF where big halo seems to be better. ROC analyses show DFI and big halo as significant prognostic parameters for achieved pregnancy (AUC AE SE for DFI was 0.67 AE 0.06 and 0.75 AE 0.06 for big halo). To our knowledge, this is the first study demonstrating the correlation between sperm DNA undamaged rate expressed as big halo parameter and semen characteristics as well as the influence on fertilization rate, embryo quality and pregnancy in conventional IVF.

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Macrophages and Leydig Cells in Testicular Biopsies of Azoospermic Men

Goluža

Boscanin

Cvetko

et al. 2014

BioMed Research International

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A number of studies have indicated that testicular macrophages play an important role in regulating steroidogenesis of Leydig cells and maintain homeostasis within the testis. The current paper deals with macrophages (CD68 positive cells) and Leydig cells in patients with nonobstructive azoospermia (NOA). Methods employed included histological analysis on semi- and ultrathin sections, immunohistochemistry, morphometry, and hormone analysis in the blood serum. Histological analysis pointed out certain structural changes of macrophages and Leydig cells in NOA group of patients when compared to controls. In the testis interstitium, an increased presence of CD68 positive cells has been noted. Leydig cells in NOA patients displayed a kind of a mosaic picture across the same bioptic sample: both normal and damaged Leydig cells with pronounced vacuolisation and various intensity of expression of testosterone have been observed. Stereological analysis indicated a significant increase in volume density of both CD68 positive and vacuolated Leydig cells and a positive correlation between the volume densities of these cell types. The continuous gonadotropin overstimulation of Leydig cells, together with a negative paracrine action of macrophages, could result in the damage of steroidogenesis and deficit of testosterone in situ.

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Visualization of Reinke’s crystals in normal and cryptorchid testis

Kozina

Geist

Kubínová

et al. 2011

Histochem Cell Biol

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Within the human testis, Reinke's crystals are found in Leydig cells but their nature and function are poorly understood. The aim of our study was to investigate the properties of Reinke's crystals in man with the normal morphology of the testis (control group) and infertile patients diagnosed with cryptorchidism. 20 biopsies from infertile patients and six biopsies from men with regular spermatogenesis (20-30 years.) were used. Sections of the testis tissue were stained with haematoxylin and eosin and a modified Masson's method. Specimens were observed by bright field, confocal and transmission electron microscopy (TEM). The number of Reinke's crystals in investigated groups was determined applying stereological methods. In both groups, Reinke's crystals were noted within the cytoplasm and nuclei of Leydig cells. Some "free" crystals were found within the interstitial space, outside Leydig cells. Confocal microscopy proved to be very useful in the assessment of the shape and 3D reconstruction of the crystal. TEM analysis confirmed a hexagonal form of the crystal, while crystallographic data on sections of 70-300 nm thickness provided a better insight into the organization of the crystal lattice. Stereological analysis revealed a significant increase in the number of crystals in cryptorchid testes when compared with controls. Increased number of crystals in cryptorchid specimens leads to the assumption that the prolonged exposure to higher (abdominal) temperature might stimulate enzymes involved in the synthesis of the proteins of the crystal. However, the exact molecular nature of the crystal lattice remains in both normal and cryptorchid testis obscure.

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A One-Step Real-Time Multiplex PCR for Screening Y-Chromosomal Microdeletions without Downstream Amplicon Size Analysis

et al. 2011

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BackgoundY-chromosomal microdeletions (YCMD) are one of the major genetic causes for non-obstructive azoospermia. Genetic testing for YCMD by multiplex polymerase chain reaction (PCR) is an established method for quick and robust screening of deletions in the AZF regions of the Y-chromosome. Multiplex PCRs have the advantage of including a control gene in every reaction and significantly reducing the number of reactions needed to screen the relevant genomic markers.Principal FindingsThe widely established “EAA/EMQN best practice guidelines for molecular diagnosis of Y-chromosomal microdeletions (2004)” were used as a basis for designing a real-time multiplex PCR system, in which the YCMD can simply be identified by their melting points. For this reason, some AZF primers were substituted by primers for regions in their genomic proximity, and the ZFX/ZFY control primer was exchanged by the AMELX/AMELY control primer. Furthermore, we substituted the classical SybrGreen I dye by the novel and high-performing DNA-binding dye EvaGreen™ and put substantial effort in titrating the primer combinations in respect to optimal melting peak separation and peak size.SignificanceWith these changes, we were able to develop a platform-independent and robust real-time based multiplex PCR, which makes the need for amplicon identification by electrophoretic sizing expendable. By using an open-source system for real-time PCR analysis, we further demonstrate the applicability of automated melting point and YCMD detection.

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Viviana Kozina

Flow Cytometry of Mouse and Human Adipocytes for the Analysis of Browning and Cellular Heterogeneity

Sperm DNA integrity testing: big halo is a good predictor of embryo quality and pregnancy after conventional IVF

Macrophages and Leydig Cells in Testicular Biopsies of Azoospermic Men

Visualization of Reinke’s crystals in normal and cryptorchid testis

A One-Step Real-Time Multiplex PCR for Screening Y-Chromosomal Microdeletions without Downstream Amplicon Size Analysis

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