Cation exchange chromatography provides effective retrovirus clearance for antibody purification processes.

One measure taken to ensure safety of biotherapeutics produced in mammalian cells is to demonstrate the clearance of potential viral contaminants by downstream purification processes. This paper provides evidence that cation exchange chromatography (CEX), a widely used polishing step for monoclonal antibody (mAb) production, can effectively and reproducibly remove xMuLV, a retrovirus used as a model of non-infectious retrovirus-like particles found in Chinese hamster ovary cells. The dominant mechanism for xMuLV clearance by the strong cation exchanger, Fractogel SO 3⁻, is by retention of the virus via adsorption instead of inactivation. Experimental data defining the design space for effective xMuLV removal by Fractogel SO 3⁻ with respect to operational pH, elution ionic strength, loading, and load/equilibration buffer ionic strength are provided. Additionally, xMuLV is able to bind to other CEX resins, such as Fractogel COO⁻ and SP Sepharose Fast Flow, suggesting that this phenomenon is not restricted to one type of CEX resin. Taken together, the data indicate that CEX chromatography can be a robust and reproducible removal step for the model retrovirus xMuLV.

Cross comparison of rapid mycoplasma detection platforms.

The use of animal and plant derived raw materials in mammalian cell culture processes may provide a possible route of entry for adventitious contaminants such as mycoplasma. Mycoplasma contaminations of cell culture represent a serious challenge to the production of biotechnology derived therapeutics. The slow growing nature of mycoplasma can disguise their infection of cultures since cells may continue to proliferate, though at reduced levels and with lesser output of engineered protein. Rapid identification of mycoplasma contaminated cell cultures and materials enables a faster response time to prevent the spread of the contamination. We describe here the comparison of different mycoplasma detection methods: two nucleic acid-based technologies, the standard mycoplasma culture procedure, and a hybrid culture-quantitative PCR assay. In this study, a cell line infected with two species of mycoplasma was used to compare the different detection methods. Our data demonstrates that the two nucleic acid-based techniques are robust methods for detection of mycoplasma and have similar detection capability. In contrast, no mycoplasma was detected in the standard culture assay or in a hybrid culture-quantitative PCR assay. This shows a potential limitation of the culture assay that relies on the ability of mycoplasma to grow in broth media.

Characterization of an oncolytic herpes simplex virus drug candidate.

The structural integrity and conformational stability of a genetically modified live, oncolytic herpes simplex virus (o-HSV) were investigated across a wide pH (5.5-8.0) and temperature (10°C-87.5°C) range. A combination of circular dichroism, intrinsic and extrinsic fluorescence, and static light scattering results was visualized using an empirical phase diagram approach to provide a global assessment of physical stability. Distinct phases were identified including the native state of the virus, an intermediate phase that could represent gradual swelling and/or shedding of the viral envelope, and a highly disrupted, aggregated phase. The nature of these altered forms of the virus was further evaluated by transmission electron microscopy and viral plaque assays. The effect of freeze-thaw (F/T) stress on o-HSV was also examined. After one F/T cycle, a loss of infectious virus titers was observed. In addition, the monomeric virus particle concentration decreased during F/T stress, whereas there was a concurrent increase in larger particles (2-10 µm). The comprehensive biophysical characterization of viral stability conducted in this study identified major degradation events leading to loss of infectivity of o-HSV and represents an important step toward stabilization of the virus against thermal and F/T stresses.

Susceptibility of mouse minute virus to inactivation by heat in two cell culture media types.

Viral contaminations of biopharmaceutical manufacturing cell culture facilities are a significant threat and one for which having a risk mitigation strategy is highly desirable. High temperature, short time (HTST) mammalian cell media treatment may potentially safeguard manufacturing facilities from such contaminations. HTST is thought to inactivate virions by denaturing proteins of the viral capsid, and there is evidence that HTST provides ample virucidal efficacy against nonenveloped or naked viruses such as mouse minute virus (MMV), a parvovirus. The aim of the studies presented herein was to further delineate the susceptibility of MMV, known to have contaminated mammalian cell manufacturing facilities, to heat by exposing virus-spiked cell culture media to a broad range of temperatures and for various times of exposure. The results of these studies show that HTST is capable of inactivating MMV by three orders of magnitude or more. Thus, we believe that HTST is a useful technology for the purposes of providing a barrier to adventitious contamination of mammalian cell culture processes in the biopharmaceutical industry.

Relapse of secondary syphilis after benzathine penicillin G: molecular analysis.

BACKGROUND AND OBJECTIVES: It is difficult to distinguish between relapse and reinfection in patients who develop a second episode of syphilis after treatment. GOAL: The goal of this study was to use molecular methods to distinguish between relapse and reinfection in a patient with recurrent secondary syphilis. STUDY DESIGN: Treponema pallidum tprK sequences were amplified from cerebrospinal fluid (CSF), skin, and blood from the initial presentation and from blood from the second presentation. Neighbor-joining clustering analysis was performed for deduced tprK sequences from the case patient and for sequences derived from blood and CSF of a different patient with secondary syphilis. RESULTS: The case patient's tprK sequences from both episodes of syphilis clustered together with a high degree of similarity. CONCLUSION: Our patient likely relapsed despite treatment.