Team:Slovenia/Notebook

From 2012.igem.org

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<h3>Microscopy-encapsulated cell viability (Microencapsulation) </h3>
<h3>Microscopy-encapsulated cell viability (Microencapsulation) </h3>
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<p>To observe encapsulated cells' viability, HEK 293T cells were stained with Hoechst and 7-aminoactinomycin D (7-AAD) viability stains. Hoechst stains both living and dead cells, while 7-AAD stains dead cells only.</p>
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<p>To observe encapsulated cells' viability, HEK 293T cells were stained with Hoechst and 7-aminoactinomycin D (7-AAD) viability stains. Hoechst stains both live and dead cells, while 7-AAD stains dead cells only.</p>
<ol>
<ol>
<li>Encapsulated cells were grown in DMEM culture medium supplemented with 10% FBS. </li>
<li>Encapsulated cells were grown in DMEM culture medium supplemented with 10% FBS. </li>
<li>200 µL of the microcapsule suspension was collected and alginate-PLL capsules were seeded into an 8-well microscope chamber. </li>
<li>200 µL of the microcapsule suspension was collected and alginate-PLL capsules were seeded into an 8-well microscope chamber. </li>
<li>5 µL of 7-AAD and 1 µL of Hoechst stain were added to one well. </li>
<li>5 µL of 7-AAD and 1 µL of Hoechst stain were added to one well. </li>
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<li>Encapsulated cells were protected from direct light and stained for 30 min at 37 °C. </li>
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<li>Encapsulated cells were protected from direct light and stained for 30 minutes at 37 °C. </li>
<li>A 405-nm diode laser was used to excite Hoechst and a 543-nm line of HeNe laser was used to excite 7-AAD. </li>
<li>A 405-nm diode laser was used to excite Hoechst and a 543-nm line of HeNe laser was used to excite 7-AAD. </li>
<li>Fluorescence emission was detected at 450-500 nm and 600-700 nm for Hoechst and 7-AAD respectively. </li>
<li>Fluorescence emission was detected at 450-500 nm and 600-700 nm for Hoechst and 7-AAD respectively. </li>
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<h3>Flow cytometry - the annexin assay (Safety mechanisms) </h3>
<h3>Flow cytometry - the annexin assay (Safety mechanisms) </h3>
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<p>To determine the percentage of cells undergoing apoptosis as a result of herpes simplex virus thymidine kinase (HSV-TK) (pCMV-mGMK_TK30) transfection and ganciclovir treatment we labelled cells with Annexin V conjugated with phycoerythrin (PE). Annexin V is a Ca2+ dependent phospholipid-binding protein that has a high affinity for the phospholipid phosphatidylserine and therefore binds to apoptotic cells with  phosphatidylserine exposed on their surface.</p>
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<p>To determine the percentage of cells undergoing apoptosis as a result of herpes simplex virus thymidine kinase (HSV-TK) (pCMV-mGMK_TK30) transfection and ganciclovir treatment we labeled cells with Annexin V conjugated with phycoerythrin (PE). Annexin V is a Ca2+ dependent phospholipid-binding protein that has a high affinity for the phospholipid phosphatidylserine and therefore binds to apoptotic cells with  phosphatidylserine exposed on their surface.</p>
<ol>
<ol>
<li>HEK293 cells were seeded in 12-well plates. </li>
<li>HEK293 cells were seeded in 12-well plates. </li>
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<li>Cells were transfected with pCMV-mGMK_TK30 and treated with ganciclovir. Concentrations of ganciclovir and plasmids are indicated in figure legends. </li>
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<li>Cells were transfected with pCMV-mGMK_TK30 and treated with ganciclovir. Concentrations of ganciclovir and plasmids are indicated in Figure legends. </li>
<li>After incubation the cells were washed with PBS buffer and resuspended by pipetting. </li>
<li>After incubation the cells were washed with PBS buffer and resuspended by pipetting. </li>
<li>Cells were pelleted with centrifugation at 1200 rpm. </li>
<li>Cells were pelleted with centrifugation at 1200 rpm. </li>
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<p>To determine the percentage of dead cells due to cytotoxic activity of natural killer cells against HEK293T cells expressing MICA protein, cells were stained with propidium iodide dye, which intercalates into DNA and stains only dead cells, because it is a membrane impermeant fluorescent molecule.</p>
<p>To determine the percentage of dead cells due to cytotoxic activity of natural killer cells against HEK293T cells expressing MICA protein, cells were stained with propidium iodide dye, which intercalates into DNA and stains only dead cells, because it is a membrane impermeant fluorescent molecule.</p>
<ol>
<ol>
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<li>HEK293T cells seeded in 12-well plates were transfected with plasmids expressing MICA (pPCMV-MICA_pcDNA3) and/or a blue fluorescent protein (BFP) (pPCMV-BFP). BFP was used to discriminate between HEK293T and NK-92 cells. </li>
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<li>HEK293T cells seeded in 12-well plates were transfected with plasmids expressing MICA (pPCMV-MICA_pcDNA3).</li>
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<li>Two days after transfection cells were mixed with NK-92 cells in different ratios (1:1, 1:5, 1:10) and incubated for 4 hours at 37 °C in culture medium consisting of RPMI, 20% FBS and hIL-2 (100 U/ml). </li>
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<li>Two days after transfection with CMV-MICA_pcDNA3, cells were resuspended in PBS at final concentration 1x10<sup>6</sup> cells/mL, stained with CFSE (0,6μM) and incubated for 10 minutes at 37°C. Staining was quenched by the addition of 5 volumes of ice-cold culture media (RPMI+ 20% FBS) to the cells. After 5 minutes incubation on ice, cells were pelleted by centrifugation and then washed by resuspending the pellet in fresh media (RPMI+ 20% FBS) a further two times for a total of three washes. CFSE was used to discriminate between HEK293T and NK-92 cells or between NK target cells K562, which were used as a positive control, and NK-92 cells.</li>
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<li>After incubation of HEK293T with NK-92 cells, cells were treated with propidium iodide. </li>
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<li>HEK293T cells or K562 cells were mixed with NK-92 cells in different ratios (1:1, 1:5, 1:10) and incubated for 4 hours at 37 °C in culture medium consisting of RPMI, 20% FBS and hIL-2 (100 U/ml).</li>
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<li>Along with site and forward scatter the signal in the FL1 channel (530-580 nm) was also recorded. </li>
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<li>After incubation of HEK293T or K562 cells  with NK-92 cells, cells were treated with propidium iodide.</li>
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<li>Along with site and forward scatter the signal in the FL1 channel (530-580 nm) was also recorded.</li>
</ol>
</ol>
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<li>The syringe was connected to the bead producing unit (BPU). </li>
<li>The syringe was connected to the bead producing unit (BPU). </li>
<li>Microcapsules were produced at a flow rate of 12-14 units, vibration frequency 1030-1100 Hz and voltage for bead dispersion 900-1300 V. </li>
<li>Microcapsules were produced at a flow rate of 12-14 units, vibration frequency 1030-1100 Hz and voltage for bead dispersion 900-1300 V. </li>
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<li>Polymerisation lasted for 10 min. </li>
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<li>Polymerization lasted for 10 minutes. </li>
<li>The polymerization solution was drained and 75 mL of 0,05% poly-L-lysine (PLL) solution was added. </li>
<li>The polymerization solution was drained and 75 mL of 0,05% poly-L-lysine (PLL) solution was added. </li>
<li>Beads were incubated in PLL solution for 10 minutes. </li>
<li>Beads were incubated in PLL solution for 10 minutes. </li>
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<li>The PLL solution was removed and beads were washed twice (for 1 and for 5 min) with 150 mL of MOPS buffer. </li>
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<li>The PLL solution was removed and beads were washed twice (for 1 and for 5 minutes) with 150 mL of MOPS buffer. </li>
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<li>100 mL of 0,03% alginate was added and beads were incubated for 10 min. </li>
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<li>100 mL of 0,03% alginate was added and beads were incubated for 10 minutes. </li>
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<li>Alginate solution was drained and beads were washed once with 150 mL of MOPS buffer for 1 min. </li>
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<li>Alginate solution was drained and beads were washed once with 150 mL of MOPS buffer for 1 minute. </li>
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<li>150 mL of depolymerization solution was added for 10 min. </li>
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<li>150 mL of depolymerization solution was added for 10 minutes. </li>
<li>Depolymerization solution was removed and capsules were resuspended in 150 mL MOPS and collected in a bead collection flask. </li>
<li>Depolymerization solution was removed and capsules were resuspended in 150 mL MOPS and collected in a bead collection flask. </li>
<li>MOPS was removed and microcapsules were transferred to T-75 with 10 mL DMEM, 10% FBS media supplemented with penicillin and streptomycin. </li>
<li>MOPS was removed and microcapsules were transferred to T-75 with 10 mL DMEM, 10% FBS media supplemented with penicillin and streptomycin. </li>
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<li>All proteins to be detected had a Myc tag at the C-terminus. </li>
<li>All proteins to be detected had a Myc tag at the C-terminus. </li>
<li>The membrane was incubated with primary antibodies (rabbit anti-Myc diluted 1:500) overnight at 4 °C and 150 rpm. Membrane was washed. </li>
<li>The membrane was incubated with primary antibodies (rabbit anti-Myc diluted 1:500) overnight at 4 °C and 150 rpm. Membrane was washed. </li>
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<li>Washing in wash buffer three times for 5 min each.</li>
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<li>Washing in wash buffer three times for 5 minutes each.</li>
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<li>Membrane was incubated with secondary antibodies (anti-rabbit secondary antibodies, conjugated with HRP, diluted 1:3000) for 45 min at room temperature and 150 rpm. </li>
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<li>Membrane was incubated with secondary antibodies (anti-rabbit secondary antibodies, conjugated with HRP, diluted 1:3000) for 45 minutes at room temperature and 150 rpm. </li>
<li>HRP activity was detected by addition of SuperSignal West Femto or Pico Substrate (Thermo Scientific). Images were captured with Syngene G:Box chemiluminescent imaging system. </li>
<li>HRP activity was detected by addition of SuperSignal West Femto or Pico Substrate (Thermo Scientific). Images were captured with Syngene G:Box chemiluminescent imaging system. </li>
</ol>
</ol>

Revision as of 17:08, 26 October 2012