Telomerase Activity in the Various Regions of Mouse Brain: Non-Radioactive Telomerase Repeat Amplification Protocol (TRAP) Assay

Podsumowanie

Telomerase is expressed in the neonatal brain and also in distinct regions of the adult brain. We present a non-toxic time saving TRAP assay for the analysis of telomerase activity in various regions of the mouse brain and detection of differences in telomerase activity between male and female mouse brains.

Streszczenie

Telomerase, a ribonucleoprotein, is responsible for maintaining the telomere length and therefore promoting genomic integrity, proliferation, and lifespan. In addition, telomerase protects the mitochondria from oxidative stress and confers resistance to apoptosis, suggesting its possible importance for the surviving of non-mitotic, highly active cells such as neurons. We previously demonstrated the ability of novel telomerase activators to increase telomerase activity and expression in the various mouse brain regions and to protect motor neurons cells from oxidative stress. These results strengthen the notion that telomerase is involved in the protection of neurons from various lesions. To underline the role of telomerase in the brain, we here compare the activity of telomerase in male and female mouse brain and its dependence on age. TRAP assay is a standard method for detecting telomerase activity in various tissues or cell lines. Here we demonstrate the analysis of telomerase activity in three regions of the mouse brain by non-denaturing protein extraction using CHAPS lysis buffer followed by modification of the standard TRAP assay.

In this 2-step assay, endogenous telomerase elongates a specific telomerase substrate (TS primer) by adding TTAGGG 6 bp repeats (telomerase reaction). The telomerase reaction products are amplified by PCR reaction creating a DNA ladder of 6 bp increments. The analysis of the DNA ladder is made by 4.5% high resolution agarose gel electrophoresis followed by staining with highly sensitive nucleic acid stain.

Compared to the traditional TRAP assay that utilize ³²P labeled radioactive dCTP's for DNA detection and polyacrylamide gel electrophoresis for resolving the DNA ladder, this protocol offers a non-toxic time saving TRAP assay for evaluating telomerase activity in the mouse brain, demonstrating the ability to detect differences in telomerase activity in the various female and male mouse brain region.

Wprowadzenie

Telomerase is a ribonucleoprotein composed of telomerase reverse transcriptase (TERT), the catalytic subunit of telomerase, and a RNA component (TERC). The canonical role of telomerase is to preserve the proper length of the telomeres by adding repetitive sequences (TTAGGG) to the telomeric ends, therefore promoting genomic integrity, and cell proliferation¹. Additional roles were attributed to TERT in cells, i.e. it confers resistance to apoptosis induced by various damaging agent², protects human mesenchymal stem cells from oxidative stress³, and plays a pro-survival role in fully differentiated neurons by its association to TIA1 positive RNA granules⁴.

TERT is expressed and active mainly in somatic dividing cells and in most types of cancers, while the enzyme expression and activity levels are tightly regulated in non-dividing cells^5,6. Studies have shown that in the rodent brain, telomerase activity becomes undetectable by postnatal day 10, while TERT mRNA is maintained at lower levels into adulthood⁷. Other studies demonstrated telomerase activity within the adult sub-ventricular zone, the olfactory bulb, the hippocampus, and in the adult cerebellum and cortex⁸. We recently demonstrated that novel compounds that increase telomerase expression and activity in the brain and spinal cords exerted neuroprotective effects in N-Methyl-D-aspartate (NMDA) - injected mice, delayed the onset and progression of the amyotrophic lateral sclerosis disease in SOD1 transgenic mice and increased the survival of motor neurons in the spinal cord of these mice⁹. To fully understand the pro-survival role of telomerase in neurons and in the brain, it is essential to develop a simple and relatively sensitive fast assay for the detection of telomerase activity in the various regions of the brain.

The telomeric repeat amplification protocol (TRAP) is a well-known sensitive assay combining the canonical activity of telomerase and the polymerase chain reaction (PCR). In this assay, telomerase adds TTAGGG repeats to a telomerase substrate (TS primer) oligonucleotide, followed by PCR amplification which generates 6 base-pairs (bp) DNA ladder using the TS reverse primer – ACX. ³²P labeled dCTP’s are used to detect the low amount of PCR products. The DNA ladder is resolved by sequencing polyacrylamide gel electrophoresis (PAGE). Both the intensity of the DNA bands and the length of the DNA ladder reflect the amount of active enzyme molecules and their processivity respectively¹⁰.

This traditional assay holds some major difficulties: The danger of exposure to radioactive substances, large and hard to handle sequencing PAGE and the time consumption of the gel running and film exposure of the radioactive product (overnight in both cases).

This protocol offers an improved non-radioactive agarose mini-gel based assay. The DNA 6 bp ladder is resolved using 4.5% high-resolution agarose gel and the detection is achieved using highly sensitive nucleic acid stain. The combination of using high resolution agarose mini-gel and sensitive nucleic acid stain offers easy to handle assay, eliminates the danger of exposure to radioactivity and significantly shorten the overall assay duration from 3 days to several hours.

Access restricted. Please log in or start a trial to view this content.

Protokół

Animal experiments were approved by the ethical committee for animal experiments in the Ben-Gurion University (IL-39-08-2010).

1. Mouse Brain Protein Extraction

1. Prepare 3 tubes of 15 ml each containing 5 ml Ringer's solution and place tubes on ice.
2. Sacrifice the mouse using Isoflurane anesthesia (CAUTION – use chemical hood) for 10-20 sec followed by cervical dislocation and immediate decapitation.
3. Remove the brain from the skull and rinse for a few seconds with ice cold Ringer's solution to prevent damage to the brain tissue.
4. Using a surgical blade, separate the cerebellum (CR) and brainstem (BS) from the frontal cortex. Next, separate the cerebellum from the brainstem and cut the frontal lobe (FL) from the frontal cortex; remove the olfactory bulb from the frontal lobe. Place the 3 brain regions in the designated 15 ml tubes.
5. Homogenize the tissue in each tube. Add fresh ice cold Ringer's solution so each tube contains the same volume and centrifuge for 7 min at 800 x g.
6. Remove the supernatant and add 100 µl of CHAPS lysis buffer to each tube. Mix well, by passing the solution several times (~10) through a 1 ml syringe with a 21 G needle, and incubate on ice for 30 min.
7. Transfer the contents of each tube to a new micro-centrifuge tube and centrifuge for 30 min at 13,000 x g. Transfer the supernatant to a new micro-centrifuge tube and determine the protein concentration using a previously established method. Store the protein extracts in aliquots of 10 µl at -80 °C.

2. TRAP Assay Preparation of Instruments, Reaction Solutions, and Protein Dilution Calculations

1. Prepare appropriate number of labeled micro-centrifuge tubes for protein extract dilutions and telomerase reaction buffer. Perform all pipetting in the protocol using filter tips to prevent contamination.
2. Thaw the following solutions on ice: TRAP reaction mix 10x, TS primer, dNTP's, UPW and protein extracts (see table of materials for reagents and reagents concentrations).
3. Dilute the solution of the protein extract to a final concentration of 1 µg/µl using ultra-pure water (UPW).

3. Telomerase Reaction

1. Prepare telomerase reaction mix by adding the following to a micro-centrifuge tube: 2 µl TRAP mix (10x), 1 µl TS primer (0.1 µg), 1 µl dNTPs (10 mM) and 15 µl UPW. For multiple samples, multiply aforementioned volumes by the number of samples, plus 1.
2. Add 19 µl of the reaction mix to each reaction tube and add 1 µl of the diluted protein extract (1 µg proteins) to each tube for a final volume of 20 µl.
3. Place the reaction tubes in a 30 °C pre-heated water bath for 45 min.

4. PCR Reaction

1. Fifteen min before the end of the telomerase reaction, thaw the following solutions: ACX primer, Titanium Taq Buffer, UPW.
2. Prepare PCR reaction mix by adding the following to a micro-centrifuge tube: 2.5 µl Titanium Taq Buffer (10x), 1 µl ACX primer (0.1 µg), 2 µl UPW (1 μl when IC is used) and 0.5 µl Titanium Taq Polymerase (50x). For multiple samples, multiply aforementioned volumes by the number of samples plus 2.
3. Add 6 µl of the PCR mix to each PCR tube and add the entire volume of the telomerase reaction (20 µl) to each tube for a final volume of 26 µl.
4. Insert the PCR tubes to a PCR thermo cycler and run the following program:
   - 90 °C – 2 min.
   - 94 °C – 30 sec.*
   - 60 °C – 30 sec.*
   - 72 °C – 45 sec.*
   - 72 °C – 2 min.
   Store PCR products at -20 °C.
   * = 34 cycles

5. Agarose Mini-gel Preparation, Samples Running, and Gel Staining

1. Add 25 ml chilled electrophoresis buffer (TBE) and a stir bar to a beaker that is 2-4 times the volume of the buffer solution and slowly sprinkle in 1.125 g of the high-resolution (HR) agarose powder while the solution is rapidly stirred. Remove the stir bar, cover the beaker with a plastic wrap and pierce in a small hole for ventilation. Heat the beaker in the microwave on "Low" power for 3 min and then switch to "High" power and heat the solution in short pulses with care not to cause spilling. Note that when the foam created by heating becomes large bubbles and disappears after a few seconds, the agarose is ready.
2. Cast the gel to a horizontal mini-gel apparatus, after the gel solidifies at room temperature allow the gel to chill for 20 min at 4 °C before use.
3. Load each lane with 25 µl of TRAP sample (20 µl TRAP PCR products and 5 µl 6x gel-loading dye) and run at 110 V for 3 hr in a 4 °C cold room.
4. Prepare nucleic acid stain 3x working solution by adding 15 µl 10,000x nucleic-acid stain, stock solution to 50 ml Double Distilled Water (DDW) with 0.1 M NaCl (0.29 g). Stain the gel for 20 min with gentle shaking.
5. Use UV transilluminator with 302 nm wavelength to view the TRAP ladder DNA bands.

Access restricted. Please log in or start a trial to view this content.

Wyniki

Whole cell protein extracts were prepared from the frontal lobe (FL), brain stem (BS) and cerebellum (CR), derived from 3 CD-1 female and 3 CD-1 male mice at the ages of 1 and 3 months old for the modified TRAP assay and 3 CD-1 male mice at the age of 2 months old for the radioactive TRAP assay. Telomerase activity was detected in 1 µg proteins extract using the modified TRAP assay and 2 µg proteins extract for the radioactive TRAP assay. Detection of telomerase activity by the radioactive TRAP assay and by the...

Access restricted. Please log in or start a trial to view this content.

Dyskusje

Analysis of telomerase activity in the mouse brain via the TRAP assay consists of 4 major steps: 1) proteins extraction from specific regions of the brain tissue 2) TS primer elongation by telomerase - telomerase reaction 3) amplification of the telomerase reaction products by PCR 4) separation of the PCR products using high resolution agarose gel.

This modified TRAP assay addresses two major difficulties that rise from the traditional assay: the use of radioactive dCTP's for sensitive det...

Access restricted. Please log in or start a trial to view this content.

Materiały

Name	Company	Catalog Number	Comments
TRAP Mix (10x)			Made manually, mix the following in UPW: 630 mM KCl, 200 mM Tris-HCl pH 8.2, 10 mM EDTA, 15 mM MgCl2, 1 mg/ml BSA, 0.5% TWEEN (purchased from Sigma). Aliquots are frozen at -20 °C.
Ringer's solution			Made manually, mix the following in DDW: 124 mM NaCl, 3 mM KCl, 1.25 mM NaH2PO4·H2O, 2 mM MgSO4, 26 mM NaHCO3, 1.802 g/L D-(+)-glucose anhydrous.
Isoflurane	Minrad INC.	NDC 60307-110-10	Handle with care in a chemical hood
dNTPs (10 mM)	Sigma	D7295
TS primer (5'-AATCCGTCGAGCAGAGTT-3')	Sigma		DNA oligos orderd in DRY format and UPW added according to requierd concentration
ACX primer (5'-GCGCGGCTTACCCTTACCCTTACCCTAACC-3')	Sigma		DNA oligos orderd in DRY format and UPW added according to requierd concentration
Titanium Taq Polymerase/Buffer	Clontech	S1792/S1793
High Resolution agarose	Sigma	A4718	Any high quality high-resolution agarose may be sutible
Mini-gel apparatus	Bio-Rad	170-4466
Nucleic Acid Stain (GEL-RED)	Biotium	41003
IC primer (5'-ATCGCTTCTCGGCCTTTT-3')	Sigma		DNA oligos orderd in DRY format and UPW added according to requierd concentration
CHAPS lysis buffer	Cell Signaling Technology	9852S	Add PMSF (protease inhibitor) to a final concentration of 1 mM
Ultra Pure Water (UPW)	Biological Industries	01-866-1B
CD-1 mice	HARLAN Laboratories INC.