Figure 1. Structures of analytes.
Vitamin B1 (Thiamine Diphosphate, TDP) and B6 (Pyridoxal-5- Phosphate, PLP) in whole blood is measured clinically to help measure various metabolic functions. TDP and PLP are highly water soluble (logP= -5.9, -2.2 respectively) and are extremely light-sensitive. Traditionally, TDP and PLP are measured through fluorescence detection, requiring the use of hazardous reagents for derivatization. This additional derivatization step is also time consuming. This application note describes a simple, ISOLUTE® PLD+ protocol for the extraction of vitamin B1 and B6 (TDP/PLP) from whole blood and LC-MS/MS analysis.
High, reproducible recoveries and low protein and phospholipid coextraction were demonstrated. ISOLUTE PLD+ Protein and Phospholipid Removal plates and cartridges offer a fast and extremely simple sample preparation approach. Proteins are efficiently removed from the sample using an in-plate, ‘solvent first’, protein crash and filter procedure, which is easily automated.
Vitamin B1(Thiamine Diphosphate, TDP) and Vitamin B6 (Pyridoxal-5-Phosphate, PLP).
ISOLUTE® PLD+ Protein and Phospholipid Removal Plate
Samples are processed manually using the Biotage® PRESSURE+ 96 positive pressure manifold. Each step described below was processed at 6 to 9 psi using the adjustable flow setting. Drying was performed using the TurboVap® 96 Dual 50 L/min flow at 4ooC (gas) and 60 oC (plate) with a plate height of 55 mm.
Apply 330 µL of precipitation solvent (0.1 M HCl + 1.2 M perchloric acid) to each well of the ISOLUTE® PLD+ plate.
Add 200 µL of whole blood to each well via handheld pipette and mix thoroughly via 5 repeat aspirate/dispense steps.
Apply positive pressure (10 psi) for approximately 5 minutes. For highly particulate laden or viscous samples, increased pressure may be required. Collect eluent in a square 2 mL 96-well plate (p/n 120-5203).
While samples can be analyzed directly after extraction, HCl is known to be corrosive to the MS source, so samples should be dried and reconstituted in 0.1 % formic acid. Dry the extract in a stream of air or nitrogen using a TurboVap® 96 Dual 96 position manifolds in single or dual mode (for 2 plates) with 50 L/min flow at 40 °C (gas) and 60°C (plate) with a plate height of 55 mm. If necessary, transfer samples via pipette to autosampler vials.
Reconstitute in 200 µL 0.1% formic acid and mix well.
Shimadzu Nexera X2
Phenomenex Gemini 5 µm C18 (100 x 3 mm id)
A: 10 mM Ammonium bicarbonate pH 8.8 (aq)
B: Methanol
Flow Rate: 0.6 mL/min
|
Time (min) |
%A |
%B |
|---|---|---|
|
0.01 |
100 |
0 |
|
1.5 |
100 |
0 |
|
5 |
40 |
60 |
|
6.5 |
40 |
60 |
|
6.51 |
100 |
0 |
|
9 |
100 |
0 |
Figure 2. HPLC Gradient Conditions.
Sciex 5500 MSD
425°C
|
ID |
Q1 |
Q3 |
DP (volts) |
CE (volts) |
CXP (volts) |
|---|---|---|---|---|---|
|
PLP1 |
248.0 |
150.1 |
40 |
25 |
6 |
|
PLP2 |
248.0 |
122.1 |
80 |
30 |
6 |
|
PLP3 |
248.0 |
94.1 |
60 |
40 |
7 |
|
TDP1 |
425.0 |
304.0 |
80 |
20 |
8 |
|
TDP2 |
425.0 |
81.0 |
60 |
25 |
7 |
|
TDP3 |
425.0 |
122.0 |
80 |
20 |
7 |
The negative log P value for TDP (-5.9) and PLP (-2.2) allows for the aqueous acidic crash solvent to double as the extraction solvent. Recoveries based on endogenous levels of TDP/PLP are presented in Table 3.
Good separation was observed between the TDP/PLP. Figure 3 represents spiked whole blood extraction of TDP/PLP at 75 ng/mL.
Figure 3. Spiked whole blood extraction of TDP/PLP at 75 ng/mL.
Figure 4. Standard addition calibration curves for PLP and TDP.
Stripped whole blood was not available at the time of the study, so standard addition calibration was performed in a range of 10–1000 ng/mL. Good linearity was observed (r2>0.99) over the calibration range. Figure 4 shows representative standard addition calibration curves.
Whole blood samples prepared by precipitation alone (no ISOLUTE® PLD+ sample prep) were compared to samples prepared with ISOLUTE PLD+ plates as described previously. The average of 5 injections were recorded and percent recovery and RSD values were obtained. Percent recovery is based upon the calculated recovery of the TDP/PLP by precipitation alone, highlighting any analyte loss due to the use ISOLUTE PLD+ sample preparation plate. Table 3 summarizes the recovery data.
|
Analyte |
Precipitation alone (ng/mL) |
PLD+ (ng/mL) |
Recovery % |
% RSD (n=5) |
|
PLP |
43.7 |
36.4 |
81.9 |
1.2 |
|
TDP |
83.5 |
78.6 |
93.9 |
1.3 |
The efficacy of ISOLUTE PLD+ Phospholipid and Protein Removal Plate was investigated via LC-MS/MS analysis of residual phospholipids and gel electrophoresis analysis for proteins. Figure 5 shows no detectable protein in electrophoresis data for sample treated with ISOLUTE PLD+. A significant reduction (>99%) of phospholipids is observed in the LC-MS/MS analysis of the common 184 product ion (Figure 6) when compared to whole blood precipitated alone.
Figure 5. Gel Electrophoresis on whole blood precipitated with aqueous acidic crash solvent and using ISOLUTE® PLD+.
Figure 6. LC-MS/MS on whole blood precipitated with 100% aqueous acidic crash solvent and ISOLUTE® PLD+. The 184–184 transition was monitored in precipitated whole blood (top) and whole blood precipitated on ISOLUTE® PLD+ (Bottom).
Whole blood is precipitated and vitamin B1(Thiamine Diphosphate, TDP) and B6 (Pyridoxal-5-Phosphate, PLP) are extracted in the same acidic solution using the ISOLUTE® PLD+ Protein and Phospholipid Removal Plate. No protein was detected in ISOLUTE PLD+ treated samples via gel electrophoresis and phospholipids were reduced >99%. When compared to samples precipitated alone, the PLD+ plate has good recovery of TDP (93.9%) and PLP (81.9%) with %RSD less than 2.
|
Part Number |
Description |
Quantity |
|
918-0050-P01 |
ISOLUTE® PLD+ Protein and Phospholipid Removal Plate |
1 |
|
918-0005-AG |
ISOLUTE® PLD+ Cartridges 50 mg/1 mL (tables) |
100 |
|
121-5203 |
Collection Plate, 2 mL, Square |
50 |
|
PPM-96 |
Biotage® PRESSURE+ 96 Positive Pressure Manifold |
1 |
|
418000 |
TurboVap® 96 Dual |
1 |
Literature number: AN985