Protocols

Isolation experiments of single nucleated cells in mice

Summary

The basic techniques for preparing cell suspensions from mouse lymphoid organs are first described, including the removal of erythrocytes and dead cells

The method for removing erythrocytes and dead cells is described first.

Author: J.E. Collier et al, Translator: Xuitao Cao et al. This experiment is from the "Compact Immunology Laboratory Guide".

Operation method

Isolation experiments of single nucleated cells in mice

Move

Basic program for the preparation of cell suspensions from the spleen, thymus and lymph nodes. Materials

RPMI-5 or DMEM-5 complete culture medium

Freshly isolated mouse organs: mouse thymus < 6 weeks of age; mouse spleen and lymph nodes from 6 weeks to 6 months of age

60 mmX 15 mm Petri dishes

Scissors and valvator (stored in a beaker with 70% ethanol)

6 ml syringe with 19 G needle

200um nylon filter

1 . Place the freshly isolated organs into 60 mm X 15 mm Petri dishes (one dish for each organ) containing 3 ml of RPMI-5 or DMEM-5 complete medium and cut the organs with scissors.

2 . Using the plunger of a 6 ml syringe, squeeze the tissue mass firmly toward the bottom of the petri dish until only fibrous tissue remains.

3 . The tissue suspension is repeatedly aspirated several times with a 6 ml syringe fitted with a 19 G needle to further crush the tissue mass.

4 . Strain the cell suspension through a 200 Mm nylon strainer into a centrifuge tube. Wash the dish once with approximately 4 ml of complete medium, repeat if necessary, and add the washings to the centrifuge tube through the strainer.

5. Centrifuge in a Sorvall H-1000B centrifuge at lOOOr/min (200 g) for IOmin and discard the supernatant (if necessary to remove erythrocytes and dead cells, see auxiliary protocol). The precipitate is resuspended in 20 ml complete medium, centrifuged, and resuspended in an appropriate amount of medium for counting (Appendix 3A).

6 . If the cells cannot be processed immediately, the best way to maintain cell viability is to place the cell suspension on ice. This treatment also reduces cell loss due to cell walling (Tip 2. 3).

Option 1 Removal of erythrocytes from spleen cell suspensions

It is advisable to remove red blood cells (RBCs) from spleen cell suspensions before performing a lymphocyte count. Thymus and lymph node cell suspensions do not require RBC removal. Subpopulation isolation of splenocytes also requires removal of RBCs.

Additional materials (see basic protocol for additional materials and Appendix 1 for items with V)

V A C K lysis buffer

1 . Suspend spleen cells in approximately 5 ml of Lysis Buffer per spleen; a 12 ml tube can be used to lyse one or two spleens, or more spleens can be lysed in a 50 ml centrifuge tube.

2 . Incubate at room temperature for 5 min with shaking.

3 . Add the wash solution until the vessel is full and centrifuge at 200 g for IOmin on a low speed centrifuge and discard the supernatant. Wash the precipitate once more and resuspend with appropriate amount of medium for further operations (e.g. dead cell removal, cell counting, or fine cell counting).
(e.g., dead cell removal, cell counting, or cell separation). The basic principle of the method described below is based on the difference in density between live (less dense) and dead (more dense) cells, which facilitates the separation of live lymphocytes from erythrocytes.

Additional Materials

High density solution: Ficoll-Paque (Ficoll and pantothenic acid; Pharmacia LKB) or Lympholyte--M (Cedarlane)
12m l or 50m l polypropylene centrifuge tubes (better than polystyrene centrifuge tubes)

Note: The densities of Flcoll-Paque and Lympholyte-M are temperature dependent; the high-density solutions used in this method and other commercial products are suitable for use at room temperature. Therefore, care should be taken to keep the cell suspension, centrifugation and high density solution at room temperature. Failure to do so may result in loss of viable cells at the density interface as they sink to the bottom of the centrifuge tube. 1 . 用 R P M I -5完全培养基混悬细胞,分装到离心管中使其细胞数达到0. 5 X 108〜 I X IO8 个细胞/2ml (12m l 离心管)或 I X l O 8〜5 X 108 个细胞/5ml (50m l 离心管)。 2 . 用移液器吸取3ml (使 用 12m l 离心管时)或 5ml (使 用 50m l 离心管时)高密度溶 液 ,将枪头伸到离心管底,缓慢将高密度溶液加入细胞悬液下方。 3 . 室温, 800g■离心15m i n 。为了取得好的分离效果,最 好 将 离 心 机 的 “brake”开关 关掉。 4 . 使 用 5m l 移液器,沿高密度层表面缓慢移动移液器枪头,吸入漂浮在高密度层上方 的活细胞,尽量少收集高密度溶液。将活细胞移入另一管中。 5 . 加 入 R P M I -5完 全 培 养 基 (少 量 细 胞 加 入 l〇m l ,细 胞 量 较 多 时 加 入 40m l ),室温 , 200g•离心l Omin。重复一次。 6 . 以适量培养基混悬细胞以便进行下一步操作。


For more product details, please visit Aladdin Scientific website.

https://www.aladdinsci.com/

Categories: Protocols
Explore topics: Immunological experiments

Da — when not otherwise indicated, molecular weight units are daltons.   Mw — weight-average molecular weight.   Mn — number-average molecular weight.

Products are supplied for research and development use only. Not for use in humans, animals, diagnosis, or therapy.

Cite this article

Aladdin Scientific. "Isolation experiments of single nucleated cells in mice" Aladdin Knowledge Base, updated 24 dic 2024. https://www.aladdinsci.com/us_es/faqs/isolation-experiments-of-single-nucleate-en.html
Was this article helpful? Yes No 1 out 1 found this helpful

Shall we send you a message when we have discounts available?

Remind me later

Thank you! Please check your email inbox to confirm.

Oops! Notifications are disabled.