Name: determination of ros production by neutrophils upon interaction with opsonized biofilm
Uploaded: 2023-09-29T11:21:20.000+00:00
Duration: 2 min 6 s
Description: Source: Rana, P. S. J. B., et al. Standardized In vitro Assays to Visualize and Quantify Interactions between Human Neutrophils and Staphylococcus aureus ...

determination of ros production by neutrophils upon interaction with opsonized biofilm

Determination of ROS Production by Neutrophils upon Interaction with Opsonized Biofilm

Add 100 microliters of 20% normal human serum diluted in HBSS, dropwise, to the washed biofilm, and incubate at 37 degrees Celsius for 30 minutes to opsonize the biofilm. Aspirate the serum solution, and wash the biofilms, dropwise, with 150 microliters of HBSS. Aspirate the HBSS, leaving behind wells with opsonized biofilms.
Add luminol to the neutrophils resuspended in HBSS to make up a final concentration of 5 micromolar luminol. This solution is ready to use for groups A and C. Add neutrophils mixed with luminol to the wells with opsonized biofilms.
For group D, prepare 50 micromolar luminol solution in HBSS in a separate tube without any neutrophils, and add it to the well containing the biofilm. Aliquot 350 microliters of neutrophils mixed with luminol, and add PMA at a final concentration of 500 nanograms per milliliter to the mixture.
For group B, add the neutrophils from this mixture into wells without biofilm. This serves as a positive control. Centrifuge the plate at 270 RCF for 30 seconds at 4 degrees Celsius. Ensure the plate reader is set to 37 degrees Celsius, the luminescence and kinetic read for 60 minutes with 3-minute intervals.
Place the plate in the plate reader to measure ROS production by neutrophils for 60 minutes.

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1. Measurement of ROS produced by neutrophils
<ol>
	<li>Add 100 &#181;L of 20% normal human serum (diluted in HBSS) dropwise to the washed biofilm and incubate at 37 &#176;C under static conditions for 30 min to opsonize the biofilm.</li>
	<li>Aspirate the 20% serum solution and wash the biofilms dropwise with 150 &#181;L of HBSS once. Aspirate the HBSS, leaving behind wells with opsonized biofilms. 
	NOTE: For interpretation of the experiment, a minimum of four groups is recommended: (A) Neutrophils + Biofilm, (B) Neutrophils + PMA (positive control, see Table of Materials), (C) Neutrophils only, and (D) Biofilm only.</li>
	<li>Add luminol (see Table of Materials) to the neutrophils resuspended in HBSS at a concentration of 4 x 106 cells/mL such that the final luminol concentration is 50 &#181;M. This solution is ready to use for groups (A) and (C). Add 4 x 105 neutrophils mixed with luminol to the wells with opsonized biofilms.</li>
	<li>In a separate tube, prepare 50 &#181;M luminol solution in HBSS without any neutrophils and add it to the well containing biofilm (group D).</li>
	<li>Aliquot 350 &#181;L of neutrophils mixed with luminol and add phorbol 12-myristate 13-acetate (PMA) at a final concentration of 500 ng/mL to the mixture. For group (B), add 4 x 105 neutrophils from this mixture into wells without biofilm. This serves as a positive control. 
	NOTE: The concentration of PMA indicated in this step is relatively high to ensure a robust burst response as PMA-stimulated neutrophils are a positive control. PMA can be used at a lower concentration to activate neutrophils, depending on the experiment.</li>
	<li>Centrifuge the plate at 270 x g for 30 s at 4 &#176;C.</li>
	<li>Ensure the plate reader is set to 37 &#176;C along with the setting for luminescence and kinetic read for 60 min with 3 min intervals. Place the plate in the plate reader to measure ROS production by neutrophils for 60 min. 
	NOTE: For this assay, biofilms were grown in white plates used for luminescence assays. PMA is a known agonist for the oxidative burst response. When performing studies involving PMA, ensure that PMA is added at the final step while the solution containing neutrophils is cold since PMA immediately initiates the burst response.</li>
</ol>

<table border="1" fo:keep-together.within-page="1" fo:keep-with-next.within-page="always">
	<tbody>
		<tr>
			<td>50 mL conical centrifuge tubes</td>
			<td>Thermo Scientific</td>
			<td>339652</td>
			<td></td>
		</tr>
		<tr>
			<td>Alcohol swab</td>
			<td>BD</td>
			<td></td>
			<td>Used for blood draw</td>
		</tr>
		<tr>
			<td>Cell counter</td>
			<td>Bal Supply</td>
			<td>202C</td>
			<td></td>
		</tr>
		<tr>
			<td>Clear bottom 96-well flat bottom polystyrene plates</td>
			<td>Costar</td>
			<td>3370</td>
			<td></td>
		</tr>
		<tr>
			<td>Dulbecco&#39;s phosphate-buffered saline (DPBS) 1x</td>
			<td>Gibco</td>
			<td>14190-144</td>
			<td></td>
		</tr>
		<tr>
			<td>Hanks&#39; balanced salt solution (HBSS) 1x</td>
			<td>Corning cellgro</td>
			<td>21-022-CV</td>
			<td>Without calcium, magnesium, and phenol red</td>
		</tr>
		<tr>
			<td>Hemocytometer</td>
			<td>Bright Line</td>
			<td></td>
			<td></td>
		</tr>
		<tr>
			<td>Luminol</td>
			<td>Sigma</td>
			<td>A8511-5G</td>
			<td></td>
		</tr>
		<tr>
			<td>Minimal essential media (MEM) Alpha 1x</td>
			<td>Gibco</td>
			<td>41061-029</td>
			<td></td>
		</tr>
		<tr>
			<td>Normal human serum</td>
			<td>Complement Technology</td>
			<td>NHS</td>
			<td></td>
		</tr>
		<tr>
			<td>Petri Dish (100 x 15 mm)</td>
			<td>VWR</td>
			<td>25384-342</td>
			<td></td>
		</tr>
		<tr>
			<td>Phorbol 12-myristate 13-acetate</td>
			<td></td>
			<td></td>
			<td></td>
		</tr>
		<tr>
			<td>Poly-L-lysine solution</td>
			<td>Sigma</td>
			<td>P4707-50ML</td>
			<td></td>
		</tr>
		<tr>
			<td>SoftMax Pro Software</td>
			<td>Molecular Devices</td>
			<td></td>
			<td>Microplate reader software used for data acquisition</td>
		</tr>
		<tr>
			<td>SpectraMax i3x</td>
			<td>Molecular Devices</td>
			<td></td>
			<td>Microplate reader</td>
		</tr>
	</tbody>
</table>

Source: Rana, P. S. J. B., et al. <a href="https://app.jove.com/v/63773">Standardized In vitro Assays to Visualize and Quantify Interactions between Human Neutrophils and Staphylococcus aureus Biofilms.</a> J. Vis. Exp. (2022)
In this video, we demonstrate an in vitro chemiluminescence assay to detect the generation of reactive oxygen species by neutrophils upon exposure to an opsonized bacterial biofilm.

Source: Rana, P. S. J. B., et al. Standardized In vitro Assays to Visualize and Quantify Interactions between Human Neutrophils and Staphylococcus aureus ...

Bacteria tagged with opsonins are recognized by specific neutrophil receptors, triggering phagocytosis with reactive oxygen species, or ROS, release, and bacterial degradation.
To quantify ROS production by neutrophils in vitro, take a multi-well plate. The test well contains a Staphylococcus aureus biofilm comprising extracellular matrix film-embedded bacteria. The control well is without the biofilm.
Incubate the biofilm with human serum, allowing serum opsonins to opsonize the biofilm.
Aspirate the serum. Wash with buffer, removing unbound opsonins. Add neutrophils and luminol &#8212; a chemiluminescent compound to the wells. Centrifuge, bringing the neutrophils near the biofilm.
Using a plate reader, measure the luminescence over time.
In the biofilm-containing well, neutrophils bind to the biofilm&#39;s opsonins, causing neutrophil activation and bacterial internalization into phagosomes. Specific signaling pathways get activated, causing NADPH oxidase assembly on phagosomes.&#160;
NADPH oxidase catalyzes electron transfer from NADPH to molecular oxygen, generating ROS that degrade bacteria. Further, NADPH oxidase on the cell membrane releases ROS extracellularly.
In response, biofilm bacteria produce enzymes that neutralize ROS and release leukocidins that form pores in neutrophil membranes and cause lysis, disrupting ROS production. Luminol reacts with ROS, causing its excitation, and emits luminescence upon relaxation.
The test well exhibits increased ROS levels compared to the control, indicating neutrophil-opsonized biofilm interactions.

48 조회수. Opsonized Biofilm과의 상호 작용에 따른 호중구에 의한 ROS 생산 측정

Determination of ROS Production by Neutrophils upon Interaction with Opsonized Biofilm

내레이션 대본

Determination of ROS Production by Neutrophils upon Interaction with Opsonized Biofilm