从尸检人脑软脑膜捐助外植体培养的推导

摘要

The leptomeninges explant culture protocol from human postmortem brain is a technically robust and simple way to derive fibronectin-positive meningeal fibroblasts within 6-8 weeks and cryopreserve approximately 20-30 million cells.

摘要

即使很大的进展已在帕金森氏病的临床表征而作出的，一些研究报告，帕金森氏病的诊断没有病理证实在高达临床诊断帕金森氏病的25％。因此，从组织临床确诊患者原发性帕金森病可有误诊率高收取;因此在从这些组织体外研究来研究帕金森氏病作为临床前模型中可以成为徒劳。

通过收集死后人软脑膜与帕金森氏病的一个证实神经病理学诊断和特征在于黑质纹状体细胞损失和细胞内蛋白质的夹杂物称为路易体，人们可以肯定，临床观察帕金森未被另一个潜在的疾病进程（ 例如肿瘤，动脉硬化）引起的。

该协议presenTS解剖，并准备为脑膜成纤维细胞培养的推导死后人类软脑膜的。此过程是健壮和具有高的成功率。培养物的挑战是无菌的脑采购一般不无菌条件下进行。因此，要在培养介质用青霉素，链霉素和两性霉素B的鸡尾酒补充是很重要

脑膜成纤维细胞的尸检确诊病例与帕金森氏症的推导为帕金森氏病的体外模型的基础。脑膜成纤维细胞出现制备样品后3-9天，约20-30亿个细胞可在6-8周冷冻保存。脑膜成纤维细胞培养是同质和细胞表达纤维连接蛋白，一种常用的标记来识别脑膜。

引言

脑膜由保护大脑三种细胞膜的:硬脑膜，蛛网膜和软脑膜。最近，已经认识到，脑膜也起到大脑发育和脑稳态¹中起重要作用。脑膜从间充质和神经嵴源性细胞衍生和有趣的是，它已被证明存在于脑膜该祖细胞可以产生的神经元在体外和体内 ^2，3，4移植后。脑膜培养已还成功地用作饲养层，因为它们具有基质细胞衍生诱导活性为胚胎干细胞分化为多巴胺能神经元^5。此外，软脑膜必须直接分化成神经元，星形胶质细胞和少突胶质缺血条件⁶下的可能性。

此协议，人死后的脑膜样本从蛛网膜和软脑膜收集，统称为软脑膜，并且采购作为人脑捐赠用于研究目的的一部分。大脑的解剖是死亡的24小时之内进行，并且如所示在这里这个协议软脑膜样品置于冷生长培养基用于进一步的处理的下一个6-8小时内。

这个协议描述了用于患者主软脑膜细胞培养的发展解剖和制备的人类脑膜样品。将组织切成25-30片大约3mm×3mm的正方形。三片置于每个6孔明胶包好，并与圆形盖玻片按住。脑膜解剖大约需要25-35分钟。这种文化的主要挑战是，一般不会无菌条件下进行无菌为大脑采购，运输和清扫。 ŧherefore，到培养基用青霉素，链霉素和两性霉素B的鸡尾酒补充并使用多孔培养皿分别培养组织片是很重要的。

脑膜成纤维细胞的生长通常在第一个星期内发生。介质每两至三天更换直到细胞汇合，细胞酶促传代。脑膜成纤维细胞是在每毫升/瓶1百万个细胞在冷冻保存介质冻存。有了这个协议，20-30万元脑膜成纤维细胞可在6-8周衍生为冷冻保存。这些脑膜成纤维细胞的下游应用是用于疾病研究，直接的神经元分化，或从软脑膜为疾病机制的理解以及对药物开发诱导多能干细胞的衍生初级培养物。

研究方案

The brain donation registration includes documentation by the registrant of their intent to donate. The autopsy permission for tissue retrieval is provided by the next of kin as permitted by law. Research studies using collected autopsy specimens are reviewed by the institutional review board (IRB) to ensure compliance with Health Insurance Portability and Accountability Act (HIPAA) regulations.

NOTE: Leptomeninges samples are collected by the brain dissector or neuropathologist during a brain dissection and are stored in 50 mL conical tubes containing 25-30 mL meninges growth media. The sample is stored at 4 °C until sample preparation. The processing should be performed as soon as possible as the viability of cells decreases with time post mortem.

1. Set-up before Starting the Leptomeninges Dissection

NOTE: Steps 1.1 - 1.3 are to be performed inside a biosafety cabinet.

1. Prepare meninges growth media by combining 375 mL of Dulbecco's Modified Eagle Media, 100 mL of fetal bovine serum, 5 mL 10 mM non-essential amino acids, 5 mL 200 mM L-alanyl-L-glutamine, 5 mL 100 mM sodium pyruvate, 5 mL 10,000 U/mL penicillin/streptomycin and 5 mL 250 µg/mL Amphotericin B in 500 mL filter unit. Filter and mix. Use media for up to four weeks.
2. Place all materials in the biosafety cabinet before starting the dissection: 4x Petri dishes, 2x 6-well plates, 2x scalpels, 15-20 sterilized 15-mm cover slips, phosphate buffer saline (PBS), serological pipettes, aspirating pipettes.
3. Add 1 mL of sterile-autoclaved 0.1% gelatin solution to each well of a 6-well plate. Set the plate aside for 30-60 min. Prepare 2x 6-well plates.

2. Preparation of Leptomeninges Sample

NOTE: Steps 2.1 - 2.3 are to be performed inside a biosafety cabinet.

1. Add approximately 10 mL of PBS to a sterile 10-cm tissue culture dish and place the meninges sample in the dish. Using forceps, gently wash leptomeninges with PBS to remove blood.
2. Transfer the meninges into a new 10-cm tissue culture dish containing 10 mL of fresh PBS and continue washing. Repeat as necessary to remove as much blood as possible.
3. Using two scalpels, cut leptomeninges tissue into an approximately 6 cm x 6 cm large piece.
4. Place lid on a culture dish and transfer to a dissecting microscope in a horizontal laminar flow hood.

3. Dissection of Leptomeninges Tissue

NOTE: Steps 3.1 - 3.3 are to be performed inside a horizontal laminar flow hood using a dissecting microscope.

1. Remove blood vessels from a region on the leptomeninges piece (step 2.3) large enough to create at least 20-25 3 mm x 3 mm pieces. Hold the leptomeninges in place with one scalpel and with the other, use a gentle and shallow scraping motion to separate the vessels.
2. Cut small squares of tissue from the prepared region. Cut in a stepwise process by first making larger pieces and then slicing those into smaller sections.
3. Use one scalpel to hold the tissue in place and another scalpel to cut the tissue with a rocking motion. Due to the consistency of the tissue, it is difficult to slide the scalpels against each other. This will only tear the tissue apart and results in ragged edges.
4. Continue cutting the pieces in half until there are about 20-25 3 mm x 3 mm pieces.

4. Transfer of Dissected Meninges Pieces onto Tissue Culture Plates

NOTE: Step 4 is to be performed inside a biosafety cabinet.

1. Aspirate gelatin from 6-well plate (from step 1.3). Add 1 mL of meninges growth media to each well. Using sterile forceps, place 3-4 biopsy pieces into each well.

5. Placement of Cover Slips over Meninges Pieces

NOTE: Steps 5.1 - 5.2 are to be performed inside a horizontal laminar flow hood using a dissecting microscope.

1. Cover the pieces with 1-2 sterile 15-mm circular coverslips per well.
2. Press down firmly with forceps to ensure the pieces are touching the bottom of the plate. This allows attachment of tissue pieces to the bottom of the well.
3. Place the 6-well plate into a 37 °C, 5% CO₂ incubator.

6. Cell Culture Maintenance

NOTE: Steps 6.1 - 6.3 are to be performed inside a biosafety cabinet. Handle culture dishes with care as coverslips should not move and dislodge the meninges pieces.

1. After 2 days in culture, add an additional 1 mL of fresh meninges growth media to each well.
2. At Day 7, carefully aspirate the media and add 2 mL of fresh media to each well.
3. After Day 9, continue to change growth media every other day until culture becomes confluent.

7. Passaging

NOTE: All steps are to be performed inside a biosafety cabinet. Once meningeal fibroblasts have migrated out of the meningeal tissue pieces and start to grow towards the edges of the culture vessel, expand meningeal fibroblasts into larger culture dish.

1. Before starting the passaging, coat the culture dish with 1% gelatin for 15-30 min.
2. Aspirate media from 6-well dish and wash cells with 2 mL PBS.
3. Add 1 mL of trypsin/EDTA to each well and incubate at 37 °C for 5-10 min. It is not necessary to remove the cover slips or the meningeal tissue for this step.
4. When cells are rounded and start to detach, add 2 mL of culture media.
5. Pipette cells up and down to completely disrupt all clumps and transfer the cell solution to larger culture dish.
6. Use a ratio of 1:3 to 1:4 to combine cells from three 6-well dishes into one T75 culture dish.
7. Once meningeal fibroblasts cells are confluent in T75 culture flasks, trypsinize the cells, and cryopreserve in cryopreservation media at 1x10⁶ cells/mL per vial. One T75 culture flask with confluent meningeal fibroblasts contains about 5-7 million cells.

8. Characterization of the Meningeal Fibroblasts by Immunostaining

NOTE: Before starting the procedure, prepare 4% paraformaldehyde solution, 5% normal goat serum in PBS (blocking buffer), 0.3% Triton X-100 in PBS (permeabilization buffer), primary and secondary antibody solutions, and 1 µg/mL of Hoechst 33342 diluted in PBS from 10 mg/mL stock.

1. Seed 15,000 to 30,000 meningeal fibroblasts in 8-well chamber slide coated with 0.1% gelatin.
2. After 24 h when the cells are attached, fix cells in 100 µL 4% paraformaldehyde per well for 10 min at room temperature. Wash the wells 3 times with 1x PBS.
3. Permeabilize the cells with 150 µL of 0.3% Triton X-100 for 5 min at room temperature. Wash the wells 3 times with 1x PBS.
4. Add 200 µL blocking solution (PBS + 5% normal goat serum) for 1 h at room temperature.
5. Aspirate the blocking solution, and add 150 µL of desired primary antibodies diluted in blocking solution. For double-staining, prepare working dilutions of primary antibodies in separate centrifuge tubes on ice as follows:
   1. Prepare 1:300 dilution of anti-Fibronectin + 1:200 dilution of anti-nestin in blocking solution. Prepare 1:250 dilution of anti-SERPINH1 + 1:1,000 dilution of anti-TUJ1 in blocking solution. Prepare 1:250 dilution of anti-SERPINH1 + 1:100 dilution of anti-SOX2 in blocking solution
6. Incubate at 4 °C overnight.
7. Wash the wells 3 times with 1x PBS.
8. Prepare a working 1:400 dilution of fluorescently labeled secondary antibodies goat anti-rabbit (green; Ex/Em² 495/519 nm) and goat anti-mouse (red; Ex/Em² 590/617 nm) in blocking solution and add 100 µL to each well. Incubate for 1 h, in the dark, at room temperature. Then wash wells once with 1x PBS.
9. Add 100 µL of 1 µg/mL Hoechst 33342 (blue; Ex/Em² 358/461 nm) solution to each well and incubate in the dark for 3 min. Wash wells 3 times with 1x PBS, leaving in the final 1x PBS wash in the well, and cover the slide with aluminum foil.
10. Analyze cells under fluorescent microscope.

结果

When the leptomeninges processing protocol has been successful, outgrowth of meningeal fibroblasts is first observed three to nine days after dissection, although this can depend on the length of post-mortem interval for the brain. Figure 1 demonstrates meningeal fibroblast cultures of four different donors. Figure 1A shows a leptomeninges piece held down by a glass cover slip (dark diagonal line) and fibroblast outgrowth around the tissue four days after...

讨论

This protocol describes a simple and robust protocol to derive a meningeal fibroblast culture from human postmortem leptomeninges collected in conjunction with a brain donation. There are very few descriptions of protocols to derive cell cultures from postmortem human material. Two studies describe skin-derived fibroblast cultures^7,8,9, one study describes dura samples¹⁰, and another describes non-cryopre...

材料

Name	Company	Catalog Number	Comments
Corning Petri dishes	Fisher Scientific	351029
Nunc 6-well plate	Fisher Scientific	14-832-11
15-mm cover slips	Fisher Scientific	12-545-83 15CIR-1D
Scalpels, sterile blade, No. 15	Miltex	4-415
Curved precision tip forceps	Fisher Scientific	16-100-122
Serological pipettes	Fisher Scientific	13-678-11E
Pasteur pipettes	Fisher Scientific	22-230490
Gelatin	Sigma	G1890-100G
Phosphate Buffer Saline	Fisher Scientific	SH30264.02
Corning 500 mL filter unit	Fisher Scientific	430770	Combine media components and filter.
Nunc Cell Culture Treated Flasks with Filter Caps, T175 cm2	Thermo Scientific	178883
Name	Company	Catalog Number	Comments
Growth Media
Hyclone DMEM	Fisher Scientific	SH30081.02
Hyclone FBS	Fisher Scientific	SH30910.03
MEM Non-Essential Amino Acids Solution (100x)	Thermo Fisher	11140-050
GlutaMAX Supplement (100x)	Thermo Fisher	35050-061
Sodium Pyruvate (100 mM)	Thermo Fisher	11360-070
Penicillin-Streptomycin (10,000 U/mL)	Thermo Fisher	15140-122
Amphotericin B (Yellow Solution/250 µg/mL)	Fisher Scientific	BP264520
Bambanker Freeze 120 mL	Fisher Scientific	NC9582225
Name	Company	Catalog Number	Comments
Fibronectin Staining
8 well chamber slides	Fisher Scientific	1256518
20% paraformaldehyde	Electron Microscopy Sciences	15713
Triton X-100	Sigma	T8787
100% Glycerol	BioRad	9455
100% normal goat serum	Fisher Scientific	101098-382
Anti-Fibronectin antibody [F1]	Abcam	ab32419	1:300 dilution in blocking solution
Anti-SERPINH1	Sigma	S5950-200ul	1:250 dilution in blocking solution
Anti-SOX2	Millipore	MAB4343	1:100 dilution in blocking solution
Anti-Nestin	Millipore	MAB5326	1:200 dilution in blocking solution
Anti-TUJ1	Covance	MMS-435P	1:1,000 dilution in blocking solution
Alexa Fluor 488 anti-rabbit	Thermo Fisher	A11029	1:400 dilution in blocking solution; (green channel; Ex/Em2 495/519 nm)
Alexa Fluor 555 anti-mouse	Thermo Fisher	A21424	1:400 dilution in blocking solution; (red channel; Ex/Em2 590/617 nm)
Hoechst 33342 stain	Thermo Fisher	H3570	dilute to a final concentration of 1.0 μg/mL; (blue channel; Ex/Em2 358/461 nm)
Suppliers are suggestions, similar products from alternative vendors can be used as well.