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Companies that produce biopharmaceutical products must verify the quantity of host cell DNA impurities carried over through the purification process and in the drug’s final dosage to meet or exceed regulatory guidelines. Due to its high sensitivity, accuracy, specificity, dynamic range, high-throughput capability and consistent performance, PCR-based solutions are the most commonly used techniques for residual DNA quantitation.
To verify product quality, the amount of residual DNA in a drug's final dosage form must meet regulatory guidelines established by the various regulatory agencies. Each regulatory agency has specific guidelines for acceptable limits, ranging from 10 pg to 10 ng DNA per therapeutic dose depending on the product and therapeutic modality. The Applied Biosystems resDNASEQ Quantitative DNA solution was specifically developed to help meet these regulatory guidelines, such as the ones below:
Validation of residual host cell DNA assays may vary by regulatory agency, but the general expectation is to meet validation requirements outlined in ICH Harmonised Tripartite Guideline Validation of Analytical Procedures Q2(R1) (ICHQ2R1).
Here we share validation data from our resDNASEQ host cell DNA quantitation kits, focusing on some of the most challenging validation parameters including sensitivity by limit of quantitation (LOQ), specificity, and accuracy.
The quantitation limit of an individual analytical procedure is the lowest amount of analyte in a sample which can be quantitatively determined with suitable precision and accuracy. The quantitation limit is a parameter of assays for low levels of compounds in sample matrices and is used particularly for the determination of impurities and/or degradation products. For resDNASEQ kits, the LOQ is 1.5 pg/mL for mammalian DNA; and LOQ to 15 pg/mL for bacterial/yeast DNA.
Figure 2. Superior sensitivity compared to USP recommended assay. resDNASEQ CHO assay is 10 times more sensitive than CHO assay recommended by USP.
Assay accuracy is measured by spiking replicate samples with a known concentration and calculating recovery from a standard curve. Assay precision is defined and measured by percent coefficient of variation (%CV), which is calculated by dividing the standard deviation by the average Ct of the number of replicates.
Table 1 demonstrates the 90% or greater recovery from a typical antibody drug substance test sample that was spiked with 100, 10, 1, or 0.1 pg CHO standard DNA in triplicate.
Spiked DNA quantity (pg) | Quantity recovered (pg) | Average recovery % | CV % | ||
100 |
105 |
133 |
123 |
120 |
12 |
10 |
10.2 |
10.9 |
11.5 |
109 |
6 |
1 |
1.1 |
1.1 |
1.2 |
110 |
5 |
0.1 |
0.09 |
0.10 |
0.08 |
90 |
7.9 |
For accurate quantitation, the assay must detect only the target DNA and no other DNA present in the sample. An example is shown below where the resDNASEQ Human DNA assay is unaffected by the presence of other DNA.
DNA | Quantity | Ct |
---|---|---|
Human | 3 ng | 13.59 |
CHO | 10 ng | 29.27 |
E. coli | 10 ng | 31.20 |
MDCK | 10 ng | 31.51 |
NS0 | 10 ng | 31.29 |
Pichia pastoris | 10 ng | 30.38 |
Table 2: resDNASEQ human assay highly specific to human DNA and unaffected by high concentrations of unrelated DNA.
Figure 3. NS0 assay demonstrating no cross reactivity with unrelated DNA. Even with a high amount of unrelated human DNA, the standard curve remains unaffected.
For the most accurate quantitation of residual host cell DNA, the assay results must be unaffected by the size of the DNA molecules present in the test sample. Shown below are results generated from analysis of a dilution series of high molecular weight and fragmented CHO standard DNA in several different matrices representing typical monoclonal antibody purification scenarios. The resDNASEQ assay maintained consistent performance even with fragmented DNA across the entire concentration range of the analysis.
DNA added |
Matrix 1 |
Matrix 2 |
Matrix 3 |
Matrix 4 |
Matrix 5 |
|||||
HMW |
LMW |
HMW |
LMW |
HMW |
LMW |
HMW |
LMW |
HMW |
LMW |
|
1 ng |
122% |
91% |
122% |
100% |
95% |
88% |
103% |
93% |
85% |
105% |
0.1 ng |
95% |
94% |
95% |
108% |
109% |
86% |
99% |
107% |
82% |
110% |
10 pg |
91% |
84% |
91% |
98% |
96% |
89% |
84% |
98% |
86% |
101% |
1 pg |
88% |
82% |
88% |
87% |
91% |
79% |
85% |
82% |
66% |
101% |
0.1 pg |
91% |
87% |
91% |
80% |
100% |
87% |
82% |
86% |
76% |
115% |
Table 3: Spiked CHO resDNASEQ recoveries at 5 concentration levels, showing high molecular weight DNA (uncut) and low molecular weight DNA (Sau961). Matrices are M1: ion exchange, pH 7.5; M2: hydrophobic Interaction; M3: ion exchange, pH 6; M4: protein A eluate; M5: purified drug substance.
Validation and implementation guidance
Validation consulting services provide technical project management to help verify that the assay is tested for required parameters.
Compliance services
Timely, cost-effiective, audit-ready documentation managed by a compliance specialist so that your instrument is installed, operating, and performing to manufacturer’s specifications.
Training services
Application and instrument training programs available at our training centers located throughout the world, in your own lab, or through web-based instruction.
Service plans
Scheduled planned maintenance and guaranteed response times to help avoid unnecessary downtime, reduce strain on lab staff, and help extend the life of your instrument.
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