Identification of gonial stem cells and Leydig cells in transgenic medaka (Oryzias latipes) reporter strains

Khatun, Mst. Muslima

31 July 2013

The mechanism to maintain stem cell properties and to exit into differentiation pathways is a pivotal question in stem cell research. Spermatogonia are the adult stem cells of the male germ line, which are used in biomedical research as a source of undifferentiated cells. The communication between germ line stem cells and specialized somatic cells (Sertoli cells and Leydig cells) plays important roles in stem cell maintenance, germ cell proliferation, and differentiation. With regard to the biology of stem cells and spermatogenesis, the medaka (Oryzias latipes) is used as a teleost model organism, and it is also used to assess the effects of endocrine disruptors on reproductive phenomena. However, the lack of suitable molecular markers hampers the detection, isolation and analysis of different testis cells including gonial stem cells and Leydig cells. Therefore, oct4, sox2 and cyp11b were chosen to create transgenic reporter lines for the labeling of stem cells and Leydig cells, respectively. The present study had the aim to examine the temporal and spatial expression of the respective genes during embryonic development and in adult gonads of the medaka, and to describe the application of these transgenic lines in stem cell biology and reproductive biology. The mCherry expression in transgenic fish of the line FSI-Tg(sox2-mCherry)17 marks embryonic stem cells, Leydig cells and interstitial cells in adult testis. Faithful EGFP and DsRed expression in transgenic reporters strains for oct4 and cyp11b mimics the endogenous expression of oct4/pou2 and cyp11b-protein, respectively. The reporter gene expression in the strains FSI-Tg(oct4-EGFP)9 and FSI-Tg(oct4-EGFP)A allows the visualization of oct4 positive cells during embryonic development, PGCs, early germ cells and adult gonial cells. The Leydig cells express brightly green or red fluorescence in the medaka strains FSI-Tg(cyp11b-EGFP)20 and FSI-Tg(cyp11b-DsRed)1434, respectively, allowing the easy identification of Leydig cells in adult testis. The oct4-EGFP reporter labels medaka embryonic and spermatogonial stem cells, in which the spermatogonial stem cells at the ends of the testicular lobules show brightly green fluorescence. The transgenic expression in stem cells is also shown in the flow plot of primary testis cells. The spermatogonia are the largest cells and have the strongest fluorescence, which decreased upon differentiation. Therefore, the oct4-EGFP reporter strains will provide an opportunity to detect and to isolate the EGFP expressing cells for transplantation. These strains will also facilitate further experiments on the effects of drugs or hypoxia on these cells, because the strongest EGFP expressing cells can be easily detected in transgenic lines. Labeling of Leydig cells in cyp11b reporter lines opens a new area to study the seasonal variation of spermatogenesis. The medaka is a seasonal breeder in its natural habitat and the simulation of seasonal changes allows the simultaneous quantitative analysis of oct4-EGFP and cyp11b-DsRed expressing cells under such conditions.

Oryzias latipes

Spermatogonia

Leydig Cells

Transgenesis

Reporter strains

oct4

cyp11ß

Oryzias latipes

Spermatogonien

Leydig Zellen

Transgenese

Reporterlinien

oct4

cyp11ß

ddc:571.6

rvk:WE 2000

Identification of gonial stem cells and Leydig cells in transgenic medaka (Oryzias latipes) reporter strains

Khatun, Mst. Muslima

15 July 2013

The mechanism to maintain stem cell properties and to exit into differentiation pathways is a pivotal question in stem cell research. Spermatogonia are the adult stem cells of the male germ line, which are used in biomedical research as a source of undifferentiated cells. The communication between germ line stem cells and specialized somatic cells (Sertoli cells and Leydig cells) plays important roles in stem cell maintenance, germ cell proliferation, and differentiation. With regard to the biology of stem cells and spermatogenesis, the medaka (Oryzias latipes) is used as a teleost model organism, and it is also used to assess the effects of endocrine disruptors on reproductive phenomena. However, the lack of suitable molecular markers hampers the detection, isolation and analysis of different testis cells including gonial stem cells and Leydig cells. Therefore, oct4, sox2 and cyp11b were chosen to create transgenic reporter lines for the labeling of stem cells and Leydig cells, respectively. The present study had the aim to examine the temporal and spatial expression of the respective genes during embryonic development and in adult gonads of the medaka, and to describe the application of these transgenic lines in stem cell biology and reproductive biology. The mCherry expression in transgenic fish of the line FSI-Tg(sox2-mCherry)17 marks embryonic stem cells, Leydig cells and interstitial cells in adult testis. Faithful EGFP and DsRed expression in transgenic reporters strains for oct4 and cyp11b mimics the endogenous expression of oct4/pou2 and cyp11b-protein, respectively. The reporter gene expression in the strains FSI-Tg(oct4-EGFP)9 and FSI-Tg(oct4-EGFP)A allows the visualization of oct4 positive cells during embryonic development, PGCs, early germ cells and adult gonial cells. The Leydig cells express brightly green or red fluorescence in the medaka strains FSI-Tg(cyp11b-EGFP)20 and FSI-Tg(cyp11b-DsRed)1434, respectively, allowing the easy identification of Leydig cells in adult testis. The oct4-EGFP reporter labels medaka embryonic and spermatogonial stem cells, in which the spermatogonial stem cells at the ends of the testicular lobules show brightly green fluorescence. The transgenic expression in stem cells is also shown in the flow plot of primary testis cells. The spermatogonia are the largest cells and have the strongest fluorescence, which decreased upon differentiation. Therefore, the oct4-EGFP reporter strains will provide an opportunity to detect and to isolate the EGFP expressing cells for transplantation. These strains will also facilitate further experiments on the effects of drugs or hypoxia on these cells, because the strongest EGFP expressing cells can be easily detected in transgenic lines. Labeling of Leydig cells in cyp11b reporter lines opens a new area to study the seasonal variation of spermatogenesis. The medaka is a seasonal breeder in its natural habitat and the simulation of seasonal changes allows the simultaneous quantitative analysis of oct4-EGFP and cyp11b-DsRed expressing cells under such conditions.

info:eu-repo/classification/ddc/571.6

ddc:571.6

Organ and primary culture of medaka (Oryzias latipes) testis: Test systems for the analysis of cell proliferation and differentiation / Organ und Primärzellkultur von Medaka Testis: Test Systeme zur Untersuchung des Zellproliferation und Zelldifferenzierung

Song, Miyeoun

22 June 2003

In cultured medaka testis fragments, cells remained viable for the entire culture period (17h), and spermatids that developed from spermatocytes were viable and motile. Primary cultures were characterized over a period of two days with respect to cell viability and the distribution of adherent and suspended cells. These two cell populations were maintained in dynamic equilibrium in vitro for several days. Proliferating cells were predominant among clusters of suspended cells, as determined by BrdU labeling, and CFSE and propidium iodide PI labeling. Based on cytological criteria, the proliferating cells were mostly spermatogonia and possibly also preleptotene spermatocytes. Differentiation of spermatocytes into spermatids or spermatozoa was also observed, mainly among the suspended cells. These results suggest that the organ and primary culture systems are suitable systems for studying the effects of substances that interfere with spermatogenesis in the medaka, a model vertebrate. The organ and primary culture systems were used to analyze the effects of a synthetic estrogen, EE2, on cell proliferation in medaka testis. Both organ and primary culture were suitable for this purpose consistently small concentrations (0.01 and 1 nM) of EE2 stimulated cell proliferation slightly, while higher concentrations (100 nM) had an inhibitory effect. To investigate the effect of phytoestrogens on cell proliferation in spermatogenesis, selected flavonoids [genistein (1, 10, 100 µg/ml), quercetin (0.01, 1, 100 µM), and 8-prenylnarigenin (0.001, 0.1, 1, 10 µM)] were added to medaka testis primary cultures. Genistein and quercetin inhibited cell proliferation in the cultures while 8-prenylnarigenin had no effect. In a second series of experiments the addition of genistein (10 µg/ml) to primary cultures significantly inhibited both cell proliferation and cell differentiation as determined by flow cytometry using CFSE/PI labeling.

Durchflusszytometrie

EE2

Genistein

Medaka

Spermatogenese

Spermatogonien

Zelldifferenzierung

Zellproliferation

EE2

cell proliferation

flow cytometry

genistein

primary culture

spermatogenesis

spermatogonia

ddc:32

rvk:WX 5500

Diole

Durchflusscytometrie

Endokrin wirksamer Stoff

Genistein

Japankärpfling

Proliferation

Spermatogenese

Spermatogonium

Zelldifferenzierung

Novel proapoptotic p63 isoforms are driven by an endogenous retrovirus in the male germ line of humans and great apes, likely increasing genome stability / Neue proapoptotische p63-Isoformen werden von einem endogenen Retrovirus in den männlichen Keimbahnen von Mensch und Menschenaffen gesteuert und erhöhen wahrscheinlich die genomische Stabilität

Beyer, Ulrike

29 October 2010

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

TP63

ERV9 LTR

Spermatogonien

genomische Integrität

Primatenevolution

Apoptose

Hodenkrebs

HDAC-Inhibitoren

SAHA

TP63

ERV9 LTR

spermatogonia

genomic surveillance

primate evolution

apoptosis

testicular cancer

HDAC inhibitors

SAHA

42.13

WF 200: Molekularbiologie

Organ and primary culture of medaka (Oryzias latipes) testis: Test systems for the analysis of cell proliferation and differentiation

Song, Miyeoun

18 July 2003

In cultured medaka testis fragments, cells remained viable for the entire culture period (17h), and spermatids that developed from spermatocytes were viable and motile. Primary cultures were characterized over a period of two days with respect to cell viability and the distribution of adherent and suspended cells. These two cell populations were maintained in dynamic equilibrium in vitro for several days. Proliferating cells were predominant among clusters of suspended cells, as determined by BrdU labeling, and CFSE and propidium iodide PI labeling. Based on cytological criteria, the proliferating cells were mostly spermatogonia and possibly also preleptotene spermatocytes. Differentiation of spermatocytes into spermatids or spermatozoa was also observed, mainly among the suspended cells. These results suggest that the organ and primary culture systems are suitable systems for studying the effects of substances that interfere with spermatogenesis in the medaka, a model vertebrate. The organ and primary culture systems were used to analyze the effects of a synthetic estrogen, EE2, on cell proliferation in medaka testis. Both organ and primary culture were suitable for this purpose consistently small concentrations (0.01 and 1 nM) of EE2 stimulated cell proliferation slightly, while higher concentrations (100 nM) had an inhibitory effect. To investigate the effect of phytoestrogens on cell proliferation in spermatogenesis, selected flavonoids [genistein (1, 10, 100 µg/ml), quercetin (0.01, 1, 100 µM), and 8-prenylnarigenin (0.001, 0.1, 1, 10 µM)] were added to medaka testis primary cultures. Genistein and quercetin inhibited cell proliferation in the cultures while 8-prenylnarigenin had no effect. In a second series of experiments the addition of genistein (10 µg/ml) to primary cultures significantly inhibited both cell proliferation and cell differentiation as determined by flow cytometry using CFSE/PI labeling.

info:eu-repo/classification/ddc/32

ddc:32

Transcriptomes of testis and pituitary from male Nile tilapia (O. niloticus L.) in the context of social status

Thönnes, Michelle, Prause, Rebecca, Levavi-Sivan, Berta, Pfennig, Frank

18 April 2024

African cichlids are well established models for studying social hierarchies in teleosts and elucidating the effects social dominance has on gene expression. Ascension in the social hierarchy has been found to increase plasma levels of steroid hormones, follicle stimulating hormone (Fsh) and luteinizing hormone (Lh) as well as gonadosomatic index (GSI). Furthermore, the expression of genes related to gonadotropins and steroidogenesis and signaling along the brain-pituitary-gonad axis (BPG-axis) is affected by changes of an animal’s social status. In this study, we use RNA-sequencing to obtain an in-depth look at the transcriptomes of testes and pituitaries from dominant and subordinate male Nile tilapia living in long-term stable social hierarchies. This allows us to draw conclusions about factors along the brain-pituitary-gonad axis that are involved in maintaining dominance over weeks or even months. We identify a number of genes that are differentially regulated between dominant and subordinate males and show that in high-ranking fish this subset of genes is generally upregulated. Genes differentially expressed between the two social groups comprise growth factors, related binding proteins and receptors, components of Wnt-, Tgfβ- and retinoic acid-signaling pathway, gonadotropin signaling and steroidogenesis pathways. The latter is backed up by elevated levels of 11-ketotestosterone, testosterone and estradiol in dominant males. Luteinizing hormone (Lh) is found in higher concentration in the plasma of long-term dominant males than in subordinate animals. Our results both strengthen the existing models and propose new candidates for functional studies to expand our understanding of social phenomena in teleost fish.

info:eu-repo/classification/ddc/610

ddc:610

info:eu-repo/classification/ddc/500

ddc:500