Ferda Topal-Celikkan scite author profile

Ferda Topal-Celikkan

2Publications

7Citation Statements Received

15Citation Statements Given

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Ankara University

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Mouse ovarian tissue vitrification on copper electron microscope grids versus slow freezing: a comparative ultrastructural study

Topal-Celikkan

Özkavukçu

Balcı

et al. 2015

Reprod. Fertil. Dev.

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There are many reasons, including cancer therapy, for premature ovarian failure and infertility. Oocyte, embryo and ovarian cryopreservation are current options for fertility preservation. Ovarian tissue cryopreservation is essential in patients whose cancer therapy cannot be delayed, including prepubertal girls, and is mostly performed using slow freezing. In the present study, mouse ovarian tissues were vitrified on copper electron microscope grids (n=18) or conventionally slow frozen (n=18). Post-thaw tissues were examined histologically using light and electron microscopy and compared with the control group. According to light microscopy observations, antral follicles were found to be better preserved with the slow freezing technique rather than vitrification. Electron microscopy revealed swollen mitochondria in the oocyte cytoplasm, condensations in the zona pellucida, breakages in the junctions of granulosa cells and vacuolisation in the extracellular space in pathologic follicles, which were relatively more frequent, in the vitrification group after thawing. These results indicate that ovarian slow freezing is preferable than vitrification on copper electron microscope grids, especially for larger follicles. Conversely, vitrification of ovarian pieces using cooper grids is user-friendly and provided good protection for primordial follicles and stromal cells. There is a need for further studies into advanced tissue vitrification techniques and carriers.

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Glyoxal Does Not Preserve Cellular Proteins as Accurately as PFA: A Microscopical Survey of Epitopes

Topal-Celikkan

Mungan

Sucu

et al. 2019

Preprint

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Chemical fixation is one of the most critical steps to retaining cellular targets as naturally as possible. Recent developments in microscopy allow sophisticated detection and measuring techniques with which spatio-temporal molecular alterations is conceivable. Here, we document the fixation competence of glyoxal (Gly), a less-toxic dialdehyde molecule, and paraformaldehyde (PFA) side-by-side (with or without Triton-X 100 permealization) in live-and fixed-cell preparations including human stem cells, spermatozoa, mouse oocytes/embryos using super-resolution microscopy. Although Gly seemed to act faster than PFA, catastrophic consequences were found not acceptable, especially in oocytes and embryos. Due to cell lysate and immunocytochemistry surveys, it was obvious that PFA is superior to Gly in retaining cellular proteins in situ with little/no background staining. In many samples, PFA revealed more reliable and consistent results regarding the protein quantity and cellular localization corresponding to previously defined patterns in the literature. Although the use of Gly is beneficial as indicated by previous reports, we concluded that it does not meet the requirement for proper fixation, at least for the tested cell types and proteins. Results 1) Live-cell Imaging of mEmbryos and hUC-MSCsFreshly-isolated mouse embryos (mEmbryos) and cultured human umbilical cord-derived mesenchymal stem cell (hUC-MSC) monolayers in glass-bottomed Petri dishes were microscopically examined using a laser-illuminated differential interference contrast (DIC) imaging to observe the cell dynamics during fixation. Prior to fixation, live samples in culture media were recorded in a time-lapse manner for 15-25 min (Fig 1 and Extended View Content). Subsequently, the same samples were directly taken to fixation simply by replacement of the culture media with the fixative solution. As seen in Fig 1, Extended View Content and Table 3, a series of significant changes were noted during the fixation interval (20 min for mEmbryos or 15 min for hUC-MSCs) followed by a 5-min TX incubation.

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