Biosafety and product release testing issues relevant to replication-competent oncolytic viruses

Wisher, M. H.

doi:10.1038/sj.cgt.7700536

Cited by 14 publications

(8 citation statements)

References 18 publications

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“…Such preparations might yield toxoid containing undesirable contaminants such as the prion causing bovine spongiform encephalopathy (BSE; Mad Cow Disease) or antigenic peptides that stimulate anaphylactic reactions and other undesirable immune reactions in immunized hosts (23). When non-animal/ non-dairy peptones were used by others, such as phytone or yeast extract, the toxin titers were markedly lower, that is, 12.5 or 25% respectively of the titer with animal/dairy products.…”

Section: Discussionmentioning

confidence: 99%

Production of Clostridium difficile toxin in a medium totally free of both animal and dairy proteins or digests

Fang

Gerson²,

Demain³

2009

Proc. Natl. Acad. Sci. U.S.A.

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In the hope of developing a vaccine against Clostridium difficile based on its toxin(s), we have developed a fermentation medium for the bacterium that results in the formation of Toxin A and contains no meat or dairy products, thus obviating the problem of possible prion diseases. Particular preparations of hydrolyzed soy proteins, especially Soy Peptone A3, have been found to replace both the meat/dairy product tryptone in the preparation of working cell banks and seed media, and NZ-Soy BL4 does the same in the fermentation medium. These replacements yield even higher toxin titers.fermentation medium ͉ TcdA ͉ Toxin A

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Section: Discussionmentioning

confidence: 99%

Production of Clostridium difficile toxin in a medium totally free of both animal and dairy proteins or digests

Fang

Gerson²,

Demain³

2009

Proc. Natl. Acad. Sci. U.S.A.

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“…Particular attention should be directed toward a detailed characterization of a stable good manufacturing practice (GMP) process, including the establishment of a master cell bank and a master seed virus and the development of sophisticated release assays. 14–16 Thus, it is advisable that developers of oncolytic Ads contact local regulatory authorities at an early time point to discuss these issues.…”

Section: Adenovirusesmentioning

confidence: 99%

“… 18 An additional challenge is a consistent surveillance of master cell bank and master seed virus used in the production of oncolytic Ads that included tests for the cellular identity and the absence of any adventitious contaminants, such as mycoplasma and bovine/porcine viruses. 14 …”

Section: Adenovirusesmentioning

confidence: 99%

Moving oncolytic viruses into the clinic: clinical-grade production, purification, and characterization of diverse oncolytic viruses

Ungerechts

Bossow

Leuchs

et al. 2016

Molecular Therapy - Methods & Clinical Development

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Oncolytic viruses (OVs) are unique anticancer agents based on their pleotropic modes of action, which include, besides viral tumor cell lysis, activation of antitumor immunity. A panel of diverse viruses, often genetically engineered, has advanced to clinical investigation, including phase 3 studies. This diversity of virotherapeutics not only offers interesting opportunities for the implementation of different therapeutic regimens but also poses challenges for clinical translation. Thus, manufacturing processes and regulatory approval paths need to be established for each OV individually. This review provides an overview of clinical-grade manufacturing procedures for OVs using six virus families as examples, and key challenges are discussed individually. For example, different virus features with respect to particle size, presence/absence of an envelope, and host species imply specific requirements for measures to ensure sterility, for handling, and for determination of appropriate animal models for toxicity testing, respectively. On the other hand, optimization of serum-free culture conditions, increasing virus yields, development of scalable purification strategies, and formulations guaranteeing long-term stability are challenges common to several if not all OVs. In light of the recent marketing approval of the first OV in the Western world, strategies for further upscaling OV manufacturing and optimizing product characterization will receive increasing attention.

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“…[29][30][31] Prodrug-activating genes ('suicide genes') are attractive candidates for 'arming' CRAds since augmentation of viral activity is conditional on prodrug administration, thereby allaying biosafety concerns associated with directly toxic gene products. 32 This approach, termed virus-directed enzyme-prodrug therapy (VDEPT), utilizes deactivated precursors of cytotoxic agents that require metabolism to exert their antiproliferative effects. 33,34 The most clinical advanced enzyme/prodrug combinations for VDEPT are Escherichia coli cytosine deaminase (CD) for conversion of 5-fluorocytosine to the antineoplastic agent 5-fluorouracil, and herpes simplex virus thymidine kinase (TK) for activation of the prodrug gancyclovir.…”

Section: Introductionmentioning

confidence: 99%

The nitroreductase prodrug SN 28343 enhances the potency of systemically administered armed oncolytic adenovirus ONYX-411NTR

Singleton

Bai

et al. 2007

Cancer Gene Ther

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Biosafety and product release testing issues relevant to replication-competent oncolytic viruses

Cited by 14 publications

References 18 publications

Production of Clostridium difficile toxin in a medium totally free of both animal and dairy proteins or digests

Production of Clostridium difficile toxin in a medium totally free of both animal and dairy proteins or digests

Moving oncolytic viruses into the clinic: clinical-grade production, purification, and characterization of diverse oncolytic viruses

The nitroreductase prodrug SN 28343 enhances the potency of systemically administered armed oncolytic adenovirus ONYX-411NTR

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