Characterization of the co-elution of host cell proteins with monoclonal antibodies during protein A purification

HIV-1 Vpu targets the host cell proteins CD4 and BST-2/Tetherin for degradation, ultimately resulting in enhanced virus spread and host immune evasion. The discovery and characterization of small molecules that antagonize Vpu would further elucidate the contribution of Vpu to pathogenesis and lay the foundation for the study of a new class of novel HIV-1 therapeutics. To identify novel compounds that block Vpu activity, we developed a cell-based 'gain of function' assay that produces a positive signal in response to Vpu inhibition. To develop this assay, we took advantage of the viral glycoprotein, GaLV Env. In the presence of Vpu, GaLV Env is not incorporated into viral particles, resulting in non-infectious virions. Vpu inhibition restores infectious particle production. Using this assay, a high throughput screen of >650,000 compounds was performed to identify inhibitors that block the biological activity of Vpu. From this screen, we identified several positive hits but focused on two compounds from one structural family, SRI-41897 and SRI-42371. It was conceivable that the compounds inhibited the formation of infectious virions by targeting host cell proteins instead of Vpu directly, so we developed independent counter-screens for off target interactions of the compounds and found no off target interactions. Additionally, these compounds block Vpu-mediated modulation of CD4, BST-2/Tetherin and antibody dependent cell-mediated toxicity (ADCC). Unfortunately, both SRI-41897 and SRI-42371 were shown to be specific to the N-terminal region of NL4-3 Vpu and did not function against other, more clinically relevant, strains of Vpu.

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Fast, Robust, and Sensitive Identification of Residual Host Cell Proteins in Recombinant Monoclonal Antibodies Using Sodium Deoxycholate Assisted Digestion

Analytical Chemistry ◽

10.1021/acs.analchem.0c02258 ◽

2020 ◽

Vol 92 (17) ◽

pp. 11888-11894

Author(s):

Delia Li ◽

Adam Farchone ◽

Qing Zhu ◽

Frank Macchi ◽

Donald E. Walker ◽

...

Keyword(s):

Monoclonal Antibodies ◽

Host Cell ◽

Sodium Deoxycholate ◽

Host Cell Proteins

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Identification and characterization of host cell proteins interacting with Scylla serrata reovirus non-structural protein p35

Virus Genes ◽

10.1007/s11262-016-1418-7 ◽

2016 ◽

Vol 53 (2) ◽

pp. 317-322 ◽

Cited By ~ 1

Author(s):

Yangyang Yuan ◽

Dongyang Fan ◽

Sidong Zhu ◽

Jifang Yang ◽

Jigang Chen

Keyword(s):

Host Cell ◽

Scylla Serrata ◽

Structural Protein ◽

Host Cell Proteins ◽

Identification And Characterization

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Toward the complete characterization of host cell proteins in biotherapeutics via affinity depletions, LC-MS/MS, and multivariate analysis

mAbs ◽

10.1080/19420862.2015.1082017 ◽

2015 ◽

Vol 7 (6) ◽

pp. 1128-1137 ◽

Cited By ~ 25

Author(s):

James A Madsen ◽

Victor Farutin ◽

Theresa Carbeau ◽

Steve Wudyka ◽

Yan Yin ◽

...

Keyword(s):

Multivariate Analysis ◽

Host Cell ◽

Complete Characterization ◽

Host Cell Proteins

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Mammalian Cell Culture Clarification: A Case Study Using Chimeric Anti-CEA Monoclonal Antibodies

IIUM Engineering Journal ◽

10.31436/iiumej.v12i4.236 ◽

2011 ◽

Vol 12 (4) ◽

Author(s):

Mohamed Ali Abol Hassan ◽

Abdul Wahab Mohammad ◽

And Badarulhisam Abdul Rahman

Keyword(s):

Cell Culture ◽

Monoclonal Antibodies ◽

Host Cell ◽

Cell Lines ◽

Mammalian Cell ◽

Mammalian Cells ◽

Culture Media ◽

Mammalian Cell Culture ◽

Host Cell Proteins ◽

Depth Filtration

The extracellular expression of monoclonal antibodies (mAbs) in mammalian cell culture provides both opportunities and restrictions for the design of robust harvest and clarification operations. With advances in cell culture media and cell lines, it is now possible to achieve high titers of over 5 g/l for mAbs. However, Mammalian cells are sensitive to breakage due to shear stress that can result in release of proteases and other host cell proteins (HCPs) which eventually affects product stability and purity. There is larger number of mAbs undergoing clinical development and it has placed significant importance on platform technologies of process development. Generally, Centrifugation and microfiltration are the primary harvest techniques used in the industry and depth filtration is also used as a step operation on clarification. This study compares the unit operations; centrifugation, microfiltration and depth filtration for maximum recovery of monoclonal antibodies. The results have shown that the depth filtration as more suitable operation for mammalian cell culture clarification since it gives 96% recovery of mAbs in comparison to centrifugation and microfiltration. ABSTRAK: Pengungkapan luar sel dari antibodi monoklon (monoclonal antibodies ((mAbs) dalam kultur sel mamalia memberi ruang dan batasan terhadap reka bentuk penuaian yang cekap dan penerangan operasi. Dengan kemajuan dalam media sel kultur dan cell lines (produk yang berupa sel kekal yang digunakan untuk tujuan kajian biologi), kini adalah berkemungkinan untuk memperolehi titer tinggi melebihi 5g/l untuk mAbs [2]. Walaupun begitu, sel mamalia sensitif terhadap retakan disebabkan tegasan ricih yang menyebabkan pengeluaran protease dan hos sel protein yang lain, (host cell proteins (HCPs)) akhirnya mempengaruhi kestabilan dan keaslian produk. Terdapat mAbs dalam jumlah besar yang masih menjalani pembangunan klinikal dan sesungguhnya ini penting sebagai satu landasan teknologi dalam proses pembangunan. Umumnya pengemparan dan mikropenurasan merupakan teknik asas tuaian dalam industri dan penurasan dalam juga digunakan sebagai satu pengendalian langkah dalam penjelasannya. Kajian ini membandingkan operasi unit: pengemparan, mikropenurasan dan penurasan dalam untuk perolehan antibodi monoklon yang maksima. Keputusan menunjukkan penurasan dalam adalah operasi yang lebih sesuai untuk penjelasan kultur sel mamalia kerana ia memberikan perolehan 96 % mAbs berbandingkan dengan cara pengemparan dan mikropenurasan.

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Production and characterization of monoclonal antibodies to the subunits of human phosphofructokinase: new tools for the immunochemical and genetic analyses of isozymes

Blood ◽

10.1182/blood.v58.4.823.823 ◽

1981 ◽

Vol 58 (4) ◽

pp. 823-829 ◽

Cited By ~ 11

Author(s):

S Vora ◽

LA Wims ◽

S Durham ◽

SL Morrison

Keyword(s):

Monoclonal Antibodies ◽

Protein A ◽

Cross Reactivity ◽

Antigenic Determinants ◽

Vertebrate Species ◽

Muscle Type ◽

Immunoprecipitation Assay ◽

Specific Antibodies ◽

The One

Abstract Recently we have demonstrated that human phosphofructokinase (PFK; ATP: D-fructose-6-P, 1-phosphotransferase; EC.2.7.1.11) is under the control of three structural loci that code for M (muscle-type), L (liver-type), and P (platelet-type) subunits: random tetramerization of these subunits produces various isozymes. In this study, we have produced and characterized BALB/c hybridoma antibodies to the M- and L-type subunits of human PFK. The specific antibodies were detected by an enzyme- immunoprecipitation assay using Staphylococci-bearing protein A as an immunoadsorbent. Of the wells tested using red blood cell (RBC) PFK (M + L), 61% were positive. Only one M-specific hybridoma was identified. The one anti-M and 4 anti-L antibodies were characterized for their biochemical and immunochemical specificities. To define the combining specificities of these antibodies, we compared their reactivity and that of monospecific rabbit anti-M antiserum with muscle and liver PFKs from 15 different vertebrate species. The rabbit anti-M shows strong cross-reactivity with the muscle PFKs from all the species studied. In contrast, the monoclonal anti-M reacts exclusively with muscle PFKs from primates. Two of four anti-L antibodies react only with human L- PFK, whereas the other two react with that from a few other vertebrate species as well. Taken together, these data suggest that primate- specific antibodies recognize evolutionarily, recently acquired antigenic determinants, whereas the antibodies reactive with PFKs from distantly related species recognize conserved determinants. The differential immunoreactivities of muscle and liver PFKs strongly suggest the presence of distinct isozymes in all the vertebrate species studied. These studies demonstrate that it is feasible to produce and characterize monoclonal antibodies that distinguish among isozymes with structural and functional similarities. These antibodies provide sensitive tools in the analyses of isozyme structure, genetics, and related fields.

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