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Product Description

The CHK-166 monoclonal antibody reacts with the domain II of the E1 protein of the chikungunya virus, an enveloped positive-strand RNA alphavirus from the Togaviridae family. The genome of alphaviruses encodes six structural proteins, namely capsid, E1, E2, E3, 6K, and TF, and four non-structural proteins (NSPs). The capsid enclosed RNA genome is surrounded by a lipid envelope containing heterodimers of E2 and E1 proteins. Upon infection, receptor binding induces clathrin-mediated endocytosis of virus, and the endosomal acidic pH triggers E1-mediated membrane fusion. The released nucleocapsid drives the replication of the viral genome and translation of viral proteins in the cytoplasm. Structural proteins are synthesized as a polyprotein, with the capsid released via autoproteolysis, and the E2/E1 proteins are transported through the secretory pathway to the plasma membrane for viral assembly, budding, and release. These viruses produce high titers of infectious particles both in vitro and in vivo. Mosquitoes are the vectors for CHIKV, and they spread the virus to humans, causing an acute infection with high viremia, fever, rash, and severe muscle and joint pain. Chronic symptoms, such as debilitating arthritis, may endure for several months. CHIKV outbreaks affect all major continents, and no approved vaccines or therapeutics further warrant therapeutic and vaccine development. Neutralizing antibodies such as CHK166 and CHK-152 serve as excellent tools for researchers, particularly in understanding the immune response to CHIKV and developing experimental therapeutics or vaccines.

Specifications

Isotype Mouse IgG2c, κ
Recommended Isotype Control(s) InVivoMAb mouse IgG2c isotype control, anti-dengue virus
Recommended Dilution Buffer InVivoPure pH 7.0 Dilution Buffer
Immunogen The La Reunion 2006 OPY-1 strain of CHIKV (CHIKV-LR)
Reported Applications in vivo neutralization of CHIKV E1
in vitro neutralization of CHIKV E1
Antibody-dependent cellular phagocytosis (ADCP)
Antibody-dependent neutrophil phagocytosis (ADNP)
Immunohistochemistry (frozen)
Immunofluorescence
Flow cytometry
ELISA
Formulation PBS, pH 7.0
Contains no stabilizers or preservatives
Endotoxin ≤1EU/mg (≤0.001EU/μg)
Determined by LAL assay
Purity ≥95%
Determined by SDS-PAGE
Sterility 0.2 µm filtration
Production Purified from cell culture supernatant in an animal-free facility
Purification Protein G
Molecular Weight 150 kDa
Storage The antibody solution should be stored at the stock concentration at 4°C. Do not freeze.
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Application References

  • in vivo neutralization of CHIKV E1 in vitro neutralization of CHIKV E1 Flow Cytometry ELISA
    Pal P, Dowd KA, Brien JD, Edeling MA, Gorlatov S, Johnson S, Lee I, Akahata W, Nabel GJ, Richter MK, Smit JM, Fremont DH, Pierson TC, Heise MT, Diamond MS (2013). "Development of a highly protective combination monoclonal antibody therapy against Chi

    Chikungunya virus (CHIKV) is a mosquito-transmitted alphavirus that causes global epidemics of a debilitating polyarthritis in humans. As there is a pressing need for the development of therapeutic agents, we screened 230 new mouse anti-CHIKV monoclonal antibodies (MAbs) for their ability to inhibit infection of all three CHIKV genotypes. Four of 36 neutralizing MAbs (CHK-102, CHK-152, CHK-166, and CHK-263) provided complete protection against lethality as prophylaxis in highly susceptible immunocompromised mice lacking the type I IFN receptor (Ifnar(-/-) ) and mapped to distinct epitopes on the E1 and E2 structural proteins. CHK-152, the most protective MAb, was humanized, shown to block viral fusion, and require Fc effector function for optimal activity in vivo. In post-exposure therapeutic trials, administration of a single dose of a combination of two neutralizing MAbs (CHK-102+CHK-152 or CHK-166+CHK-152) limited the development of resistance and protected immunocompromised mice against disease when given 24 to 36 hours before CHIKV-induced death. Selected pairs of highly neutralizing MAbs may be a promising treatment option for CHIKV in humans.

  • in vivo neutralization of CHIKV E1
    Hawman DW, Stoermer KA, Montgomery SA, Pal P, Oko L, Diamond MS, Morrison TE (2013). "Chronic joint disease caused by persistent Chikungunya virus infection is controlled by the adaptive immune response" J Virol 87(24):13878-88.

    Chikungunya virus (CHIKV) is a reemerging mosquito-borne pathogen that causes incapacitating disease in humans characterized by intense joint pain that can persist for weeks, months, or even years. Although there is some evidence of persistent CHIKV infection in humans suffering from chronic rheumatologic disease symptoms, little is known about chronic disease pathogenesis, and no specific therapies exist for acute or chronic CHIKV disease. To investigate mechanisms of chronic CHIKV-induced disease, we utilized a mouse model and defined the duration of CHIKV infection in tissues and the associated histopathological changes. Although CHIKV RNA was readily detectable in a variety of tissues very early after infection, CHIKV RNA persisted specifically in joint-associated tissues for at least 16 weeks. Inoculation of Rag1(-/-) mice, which lack T and B cells, resulted in higher viral levels in a variety of tissues, suggesting that adaptive immunity controls the tissue specificity and persistence of CHIKV infection. The presence of CHIKV RNA in tissues of wild-type and Rag1(-/-) mice was associated with histopathological evidence of synovitis, arthritis, and tendonitis; thus, CHIKV-induced persistent arthritis is not mediated primarily by adaptive immune responses. Finally, we show that prophylactic administration of CHIKV-specific monoclonal antibodies prevented the establishment of CHIKV persistence, whereas therapeutic administration had tissue-specific efficacy. These findings suggest that chronic musculoskeletal tissue pathology is caused by persistent CHIKV infection and controlled by adaptive immune responses. Our results have significant implications for the development of strategies to mitigate the disease burden associated with CHIKV infection in humans.

  • in vivo neutralization of CHIKV E1
    Jin J, Liss NM, Chen DH, Liao M, Fox JM, Shimak RM, Fong RH, Chafets D, Bakkour S, Keating S, Fomin ME, Muench MO, Sherman MB, Doranz BJ, Diamond MS, Simmons G (2015). "Neutralizing Monoclonal Antibodies Block Chikungunya Virus Entry and Release by T

    We evaluated the mechanism by which neutralizing human monoclonal antibodies inhibit chikungunya virus (CHIKV) infection. Potently neutralizing antibodies (NAbs) blocked infection at multiple steps of the virus life cycle, including entry and release. Cryo-electron microscopy structures of Fab fragments of two human NAbs and chikungunya virus-like particles showed a binding footprint that spanned independent domains on neighboring E2 subunits within one viral spike, suggesting a mechanism for inhibiting low-pH-dependent membrane fusion. Detailed epitope mapping identified amino acid E2-W64 as a critical interaction residue. An escape mutation (E2-W64G) at this residue rendered CHIKV attenuated in mice. Consistent with these data, CHIKV-E2-W64G failed to emerge in vivo under the selection pressure of one of the NAbs, IM-CKV063. As our study suggests that antibodies engaging the residue E2-W64 can potently inhibit CHIKV at multiple stages of infection, antibody-based therapies or immunogens that target this region might have protective value.

  • in vitro neutralization of CHIKV E1
    Moore CM, Paul MJ, Pinneh E, Shanmugaraj B, Ashall J, Ramalingam S, Hewson R, Diamond MS, Fox JM, Ma JK (2025). "Characterisation of chikungunya virus neutralising monoclonal antibodies expressed in tobacco plants" J Biotechnol .

    Chikungunya virus (CHIKV) causes a debilitating musculoskeletal disease, characterised by flu-like symptoms, rash, and severe joint pain, which can last for months, even after the resolution of infection. Although the first CHIKV vaccine was approved in the USA in 2023 for use in adults, there is currently no specific antiviral therapy for infection. While neutralising antibody-based prophylactic and therapeutic agents have been considered, affordability and accessibility are major barriers to global regions where Chikungunya disease is epidemic. Here, we expressed five anti-CHIKV neutralising IgG monoclonal antibodies (mAbs) in N. benthamiana plants to investigate the potential use of this manufacturing platform. Plants produced IgG mAbs that compared favourably to mammalian cell-expressed antibodies, including for binding kinetics to CHIKV antigens and neutralisation activity. The yields of mAbs from plants were variable, as three of the antibodies' yields would need further expression optimisation to warrant future development. The successful expression of these antibodies in N. benthamiana plants supports the growing pipeline of Global Health product targets that could be developed using a highly transferable, low-cost, low-tech plant production platform in resource-poor countries.

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