Zinc Fixation for Flow Cytometry Analysis of Intracellular and Surface Epitopes, DNA Content, and Cell Proliferation

Lippia lacunosa is a Brazilian savanna plant that belongs to the Verbenaceae family. It has been used in folk medicine as a treatment for different diseases. This species represents an endangered Brazilian medicinal plant, and this is the first report documenting a reliable protocol for the in vitro propagation and regeneration of L. lacunosa. Axenic explants were cultivated in MS medium containing different concentrations of naphthalene acetic acid (NAA) to induce root growth. The mean shoot length and the number of roots were highest with 0.06 mg·L-1 NAA. The highest number of buds in shoot regeneration was induced with 2 mg·L-1 6-benzylaminopurine (BA). To obtain a long-term culture, the dwarf shoots were elongated on MS media containing 0.5 mg·L-1 BA alternated with MS containing 2 mg·L-1 BA every 40 days. In the present protocol, the long-term shoots retained the ability to root even after long periods of BA treatment. In addition, we evaluated the nuclear DNA content and ploidy levels, including the occurrence of endopolyploidy, in long-term micropropagated plant leaves using flow cytometry analysis. The plants propagated in vitro over several years possessed nuclear DNA contents ranging from 2.940 to 3.095 pg, and no differences in DNA content were found among in vitro plants or between these plants and the control (L. lacunosa from a greenhouse with a DNA content of 3.08 pg). The flow cytometry analysis also demonstrated that there was no polyploidization. The present study will be useful for biotechnological approaches and provides the first estimate of the nuclear DNA content of this species using flow cytometry.

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Flow Cytometry Analysis in Voided Urine of Patients with Bladder Cancer

Urologia Journal ◽

10.1177/039156039306000207 ◽

1993 ◽

Vol 60 (2) ◽

pp. 162-166

Author(s):

A. Lotto ◽

G. Carluccio ◽

A. Calisti ◽

A. Disperati ◽

E. Capuzzo ◽

...

Keyword(s):

Flow Cytometry ◽

Bladder Cancer ◽

Quantitative Evaluation ◽

Dna Content ◽

Urine Cytology ◽

Urinary Cytology ◽

Flow Cytometry Analysis ◽

Excellent Correlation ◽

First Diagnosis

Flow cytometry is known to be able to give a quantitative evaluation of the DNA of cellular populations (grade of ploidy), as well as to estimate the percentages of phases (S + G2M) providing useful information about the pathology in question and its aggressivity. This method has been applied in diagnosing patients with bladder cancer, using their voided urine and comparing with urine cytology. Our data, from 59 patients, indicate flow cytometry utility in diagnosing bladder cancer; in fact there is an excellent correlation between the urinary cytology and the DNA content in cytometry which increases in higher grade bladder cancer. The sensitivity of CFM is in the range of 92% to 94%, and is superior to that of conventional voided urine cytology (range 64% to 84%). It is felt that cytofluorometric analysis permits a reliable evaluation of voided urine, not only at first diagnosis, but especially during follow-up.

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Quantification of somatic and spermatogenic cell proliferation in the testes of ruminants, using a proliferation marker and flow cytometry analysis

Theriogenology ◽

10.1016/s0093-691x(98)00075-2 ◽

1998 ◽

Vol 49 (7) ◽

pp. 1275-1287 ◽

Cited By ~ 4

Author(s):

S. Blottner ◽

H. Roelants

Keyword(s):

Flow Cytometry ◽

Cell Proliferation ◽

Spermatogenic Cell ◽

Proliferation Marker ◽

Flow Cytometry Analysis

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Callus regeneration and polyploidy induction of Allium cepa L var. Bima Brebes using oryzalin

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/948/1/012043 ◽

2021 ◽

Vol 948 (1) ◽

pp. 012043

Author(s):

R Q A’ yun ◽

D Dinarti ◽

A Husni ◽

M Kosmiatin

Keyword(s):

Flow Cytometry ◽

Allium Cepa ◽

Ploidy Level ◽

Dna Content ◽

Callus Induction ◽

Consumer Preference ◽

Morphological Trait ◽

Flow Cytometry Analysis ◽

Allium Cepa L ◽

Callus Regeneration

Abstract Polyploidy induction could increase shallot bulb-size to raise consumer preference and local shallot productivity. The research aimed to obtain an effective method of polyploidy induction on callus of onion (Allium cepa) var. Bima Brebes. The experiment was consisted of two experimental steps, which were callus induction of onion and polyploid induction of the callus. A 1×1 cm callus was treated by two drops of oryzalin with concentrations 0, 25, 50, 75, 100, and 120 μM. The ploidy level was identified based on morphological trait, stomatal analysis and DNA content using a flow cytometry. The results showed callus diameter, number of green spots, and number of shoots were decreased with increasing oryzalin concentration. The planlet leaves regenerated from oryzalin treated callus were darker than that of control. The flow cytometry analysis showed that planlets with 75 μM oryzalin was tetraploid, had longer and wider stomata than that of the control.

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203 EFFECT OF OXYGEN TENSION AND SUBSTRATE ON GROWTH AND DIFFERENTIATION OF MOUSE EMBRYONIC STEM CELLS

Reproduction Fertility and Development ◽

10.1071/rdv18n2ab203 ◽

2006 ◽

Vol 18 (2) ◽

pp. 209

Author(s):

M. A. Ramírez ◽

E. Pericuesta ◽

M. Pérez-Crespo ◽

R. Fernández-González ◽

P. N. Moreira ◽

...

Keyword(s):

Cell Cycle ◽

Flow Cytometry ◽

Cell Proliferation ◽

Embryonic Stem ◽

Feeder Layer ◽

Flow Cytometry Analysis ◽

Differentiation Markers ◽

Spontaneous Differentiation ◽

Oxygen Tensions ◽

Mes Cells

Normally the majority of mammalian cells, including murine embryonic stem (mES) cells, are immersed in a low oxygen environment (hypoxia); however, mES are generally cultured in an atmosphere containing 21% O2 (normoxia). Such conditions may not be the most appropriate for mES propagation. We have tested the effects of hypoxia and culture on either feeder fibroblasts or gelatin substrate on mES cell growth and spontaneous differentiation. Two ES cell lines (R1 129/Sv from the laboratory of A. Nagy and MAR B6D2 F1 generated in our laboratory) were cultured under two different oxygen tensions (5 and 21%), and on two different substrates, 0.1% gelatin or murine embryonic fibroblasts (mEF). Cell cycle, cell proliferation, mRNA expression of pluripotency and differentiation markers, as well as spontaneous differentiation to cardiomyocytes, were monitored. For cell proliferation measurements, mES after 7 days of culture at the different conditions were labeled with 5-(and-6)-carboxyfluorescein diacetate succinimidyl ester, and cultured for up to three more days. Cells were then harvested for flow cytometry analysis every 24 h after labeling (Cell TraceTM CFSE Cell Proliferation Kit; Molecular Probes, Inc., Eugene, OR, USA). For cell cycle analysis, cells grown on mEF under the two different oxygen tensions were fixed after 10 days of culture, and then stained with propidium iodide/Triton-X-100 for flow cytometry analysis (Current Protocols in Cytometry, Chap. 7, 2001). The spontaneous differentiation of embryoid bodies [formed by ES cells in the absence of leukemia inhibitory factor (LIF)] to cardiomyocytes was also monitored. For mRNA expression of pluripotency (Nanog, Oct-3/4, Rex1, GENESIS, FGFR-4, TERF1, Cx43, and GLUT1) and differentiation markers (GATA4, GATA2, AFP, Msx-1, Brachyury, and Myf5), RT-PCR analysis was performed on mES cells from Day 0 to Day 10. Under hypoxia conditions, the proliferation of both types of mES cells was greater than under normoxia, independent of substrate used, and a higher number of apoptotic cells was detected. Moreover, only under normoxia conditions did mES cells lose the expression of pluripotency markers GENESIS and GLUT1. In addition, under lower oxygen tension, the rate of differentiation to beating cardiomyocytes was significantly lower on the feeder layer than that under normoxia (11.9% vs. 28.1%; P = 0.012). The feeder layer supported significantly higher cardiomyocyte formation when compared to 0.1% gelatin at 21% O2 (28.1% vs. 8.3%; P < 0.001). Our results show that normoxia may not be the most appropriate condition for mES cell propagation and that hypoxic culture may be necessary to maintain full pluripotency of mES cells.

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Upregulation of Lipid Metabolism Modulators in Myeloma Cells Underlines Their Progression in a Supportive Microenvironment and Linking Metabolic Pathways with Growth Signaling

Blood ◽

10.1182/blood.v120.21.329.329 ◽

2012 ◽

Vol 120 (21) ◽

pp. 329-329

Author(s):

Sathisha Upparahallivenkateshaiah ◽

Khan Sharmin ◽

Ling Wen ◽

Rakesh Bam ◽

Xin Li ◽

...

Keyword(s):

Cell Cycle ◽

Fatty Acids ◽

Flow Cytometry ◽

Cell Proliferation ◽

Fatty Acid ◽

Lipid Metabolism ◽

Cellular Metabolism ◽

Flow Cytometry Analysis ◽

Human Immunoglobulins ◽

Phosphorylated Akt

Abstract Abstract 329 Accumulating evidence indicate that cellular metabolism and bi-products also play important roles in signaling associated with tumor cell proliferation, cell cycle, survival and drug resistance. The overall goal of the study was to molecularly characterize MM cells grown in the supportive bone marrow (BM) of clinically relevant SCID-hu or SCID-rab models. MM cells from 22 patients were engrafted in experimental animals. Following establishment of the disease as determined by increased production of circulating human immunoglobulins over a period of 2–4 months, MM cells were isolated from the implanted bones and subjected to global gene expression profile (GEP). Based on stringent criteria (e.g. p<0.05, >2 folds) we identified commonly overexpressed or underexpressed genes in post-engrafted MM cells compared to pre-engrafted cells from the same patients. Among the top upregulated genes we identified several factors associated with lipid metabolism including FABP5 (fatty acid-binding protein 5), SCD (stearoyl CoA desaturase 1), FADS1 (fatty acid desaturase 1) and SLC27A5 (a fatty acid transporter). Clinical GEP data of newly diagnosed patients from Total Therapy program at our institute revealed upregulation of these genes in high risk patients. We further sought to unravel the role of SCD in MM since it has been previously implicated in tumorigenesis and specific inhibitors are being developed for clinical use. SCD (encodes SCD1), is a rate-limiting enzyme responsible for synthesis of monounsaturated fatty acids. We hypothesized that while nutrient unsaturated fatty acids sufficiently satisfy requirement of most normal cells, growing MM cells demand higher content of these lipids for formation of new membrane phospholipids and immediate energy; therefore, inhibiting SCD1 may suppress MM cell survival and proliferation. Small-molecule inhibitor of SCD1 (BioVision) suppressed growth of 5 MM lines dose dependently; 72 hours IC50 ranged between 1μM (p<0.0006) and 2.5 μM (p<0.0001). At 1 μM the SCD1 inhibitor reduced MM cell proliferation by 70±4% (p<0.002) using thymidine incorporation assay and increased number of apoptotic MM cells from 10±1% in control cells to 27±8% in SCD1 inhibitor-treated cells (p<0.03), using annexin V/PI flow cytometry analysis. This inhibitor also disrupted cell cycle progression in MM cell lines as determined by flow cytometry analysis of DNA content. The Akt/mTOR and AMPK pathways, albeit opposing functions, are known central integrators of cellular metabolism and proliferation signaling. SCD1 inhibitor reduced phosphorylated AKT and increased phosphorylated AMPK in MM cells assessed by Western Blot. For in vivo experiments in SCID-rab mice, SCD1 inhibitor was constantly administered (1.25 μg/hour) by osmotic pumps directly connected to the implanted bones that had been engrafted with luciferase-expressing H929 MM cells (6 mice/group). SCD1 inhibitor suppressed MM growth by 60% (p<0.01) assessed by live-animal imaging and measurement of circulating levels of human immunoglobulins in mice sera. These findings suggest that intracellular modulators of lipid metabolism such as SCD1 are induced in MM cells by the supportive BM and mediate signals linking cellular metabolism, survival and proliferation. Disclosures: No relevant conflicts of interest to declare.

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