The aim of this procedure is to examine contributions of nalt, the nasopharyngeal associated lympho reticular tissues to nasal and systemic immune responses of mice to intranasal vaccines. This is accomplished by examining ex vivo cultures of the intact nalt, and with a mouse model, the intact nalt are obtained and serially washed, cleaned. Eggplants are then cultured and aliquots are taken at intervals.
These samples are centrifuged stored and later examined for evidence of an immune response. Surgical removal of Nat from the mouse nasal passages is performed carefully to not damage surrounding tissues. After the surgically altered mice are subjected to experimentation, the success of the surgery is assessed by histology.
Ultimately, results are used to assess local and systemic humoral immune responses to intranasal vaccination. Although the developmental pathway of the null has been at least partially described, mouse models for the story of the nulls based on single gene knockouts are not currently available. As an alternative to single gene knockout surgical ablation completely removed the null from the nasal passages without affecting any of the tissue.
This mouse model has been used to describe the relationship between the alt and vaccines or antigens and local and systemic immunity. Though this method may provide insight into the basis of host responses of inter nasal vaccinations of mice, it can also be applied to the study of adjuvants or other pharmaceutical products that may affect nasal immunity. Visualization of this method is critical as the surgical steps are common but difficult because you're working in a small area with little visualization and a small window of time to complete the procedure in order to keep the animals healthy.
Prior to collecting the alt fill, all the wells of a 48 well culture plate with 250 microliters of warmed media do the same. In one column of a second 48 well plate keep both plates warm until they are needed. Euthanize mouse using approved iacuc guidance with injected not inhalant anesthetics on an aseptic workspace To collect the nalt, first, remove the lower jaw of the mouse.
Next, clean the upper palate area with alcohol and iodine wipes using a number 11 surgical blade. Carefully cut and excise the upper palate by following the inside contour of the mouse incisors and molar teeth. Gently peel back the pallet with forceps.
Being careful not to tear the pallet. Collect each pallet in a first column well of the 48 well plate filled with media. Wash the pallets by moving them successively through each well in the row.
Carefully tapping the pallet between washes After the eight washes, transfer the pallets to a media filled well in the second plate. Culture the plate at 37 degrees Celsius. For the duration of the study every 24 hours, collect a 100 microliter media sample from each culture.
Well replace the media with 100 microliters of fresh warmed culture medium before returning the plate to the incubator. Centrifuge the culture media samples to pellet the debris. Transfer the supinate to fresh tubes and store them at minus 20 degrees Celsius until all the samples can be tested with an Eliza.
For antigen specific IgG, IGM and IGA or secreted cytokines for three days prior to surgery, feed seven to nine week old mice gel-like wet food to acclimate them to the food and water substitute administered post-operation prior to anesthetizing. A seven to nine week old mouse administer pain relief medication into a oral cavity. Anesthetize mice using approved IUC guidance.
Be sure to apply para lube veto ointment onto eyes and again. Do not use inhalant anesthetics when the animal is no longer responsive to a toe pinch, administer one milliliter of saline subcutaneously between the shoulder blades using a 22 to 28 gauge needle. This prevents potential dehydration of the mouse after surgery in the same manner, administer 0.1 milliliter of ream subcutaneously between the shoulder blades.
This promotes healthy respiration during and after surgery. Place the mouse in a supine position with thermal support. Maintain the thermal support throughout the surgery.
Gently pry the mouth open using two separate loops of surgical suture around the upper and lower incisors exposing the upper palate. Use a number 11 surgical blade to make an incision about three millimeters long down the midline of the upper palate in the sight of the K.Next, insert a 0.5 millimeter micro curette and gently scrape under both edges of the incision to disrupt the knut. Using a straight fine loop on a thermal quarter unit, ize the incision to stop the bleeding after cauterizing.
Allow the mouse to recover on the thermal support until it is fully conscious. Over the next three days. Inject the mouse with one milliliter of saline to prevent dehydration.
To assess hydration, perform a skin tent test to check for skin tga. Do this up to three times daily if necessary. Likewise, provide oral pain medication once per day.
Wet food should be provided for at least three days prior to any experimental procedures. Observe the mice for eight to 10 days by tracking their weight gain. Poor weight recovery usually indicates incomplete palate healing, and these mice should be withdrawn from further studies.
The success of n surgery must be ascertained by histology. After all, experimentation euthanize the mouse as described previously and complete the process with a cervical dislocation. Now remove the lower mandible from the rest of the skull by snipping through the condylar processes with scissors.
Do this on both sides. Starting at the nape of the neck, remove the skin and fur from the skull by slowly peeling and cutting towards the ventral side of the cranium. Carefully remove the skin around the nasal area.
Then snip the skin off the tip of the snout and remove it completely. Now detach the cranium from the vertebrae using the scissors. Insert the scissors into the foram and magnum of the cranium and cut halfway down the cranium midline.
This allows permeation of formin into the soft tissues during fixation. Fix the cranium in 10%neutral buffered formula in for 24 hours. At room temperature the next day, decalcify the sample by placing it in a cassette, wrapping the cassette in gauze and placing it in a bottle of formic acid mixture.
Incubate the sample for 12 hours of room temperature after 12 hours. Clean the sample, rinse it under tap water for 20 minutes. Using a razor blade, trim the sample to the septum and pass the eye orbits For short term storage, the sample and cassette can be kept in 10%NBF.
When embedding, ensure that the ssam end is embedded down into the paraffin and the cassette end placed on the top of the eye orbit end. Then continue filling the top of the cassette with paraffin and allow it to cool before placing it on the microtome. When ready, perform a standard histological examination.
Make five micron cross sections of the snout and apply an h and d stain. The confirmation of the note ablation by histological examination is essential to interpret your results and should follow the successful completion of every experiment. The absence of cluster mononuclear cells on the side of the alt is an indication of successful ablation.
An h and e cross-section of the nasal sinus area surrounding the knt typically appears as nucleated cell clusters encased by a kilometer epithelial cell layer. After the surgery, there should be a noticeable disruption to the upper palate as well as to the integrity of the nat. After recuperation from surgery, the incision should be closed and the nasal cavity devoid of nat mice are administered STX vaccine formulated with an adjuvant that activates the toll-like receptor four.
Pathway controls were given only saline or vaccine without adjuvent cultured. Nalt obtained from experimental groups secreted antigen-specific immunoglobulins into medium that was measurable by Eliza. A comparison of two vaccine administration routes showed that the greatest amounts of IGA A were released by nalt obtained from mice vaccinated intranasally with a subunit vaccine.
Combined with adjuvent biological samples acquired from control or nalt free, mice can be used to profile the in vivo immune response to nasal antigens. For comparison with the tissue culture results IGA and IgG responses to intranasal vaccination were significantly decreased without functional malt levels of antigen-Specific IGA were generally greater than IgG in mucosal secretions of vaccinated mice. Once mastered note collection and culturing can be completed in approximately 30 minutes for one note and including 1 24 hour time point collection.
If done properly, a skilled worker can collect and culture several nats in one day. Scraping under the palate must be sufficient to ablate nat. While attempting this procedure, it is important to work quickly to blood loss.
This will allow clear visualization of the incision and keep the animals healthy. After watching this video, you should have a good understanding of how to study the contributions of the mouse malt to local and systemic immune responses after internasal vaccination.
