BACKGROUND AND PURPOSE: In 2006, a life-threatening 'cytokine storm', not predicted by pre-clinical safety testing, rapidly occurred in all six healthy volunteers during the phase I clinical trial of the CD28 superagonist monoclonal antibody (mAb) TGN1412. To date, no unequivocal explanation for the failure of TGN1412 to stimulate profound cytokine release in vitro or in vivo in species used for pre-clinical safety testing has been established. Here, we have identified a species difference almost certainly responsible for this disparate immunopharmacology. EXPERIMENTAL APPROACH: Polychromatic flow cytometry and intracellular cytokine staining were employed to dissect the in vitro immunopharmacology of TGN1412 and other therapeutic mAbs at the cellular level to identify differences between humans and species used for pre-clinical safety testing. KEY RESULTS: In vitro IL-2 and IFN-γ release from CD4+ effector memory T-cells were key indicators of a TGN1412-type response. This mechanism of cytokine release differed from that of other therapeutic mAbs, which can cause adverse reactions, because these other mAbs stimulate cytokine release primarily from natural killer cells. In contrast to humans, CD28 is not expressed on the CD4+ effector memory T-cells of all species used for pre-clinical safety testing, so cannot be stimulated by TGN1412. CONCLUSIONS AND IMPLICATIONS: It is likely that activation of CD4+ effector memory T-cells by TGN1412 was responsible for the cytokine storm. Lack of CD28 expression on the CD4+ effector memory T-cells of species used for pre-clinical safety testing of TGN1412 offers an explanation for the failure to predict a 'cytokine storm' in humans.
BACKGROUND AND PURPOSE: In 2006, a life-threatening 'cytokine storm', not predicted by pre-clinical safety testing, rapidly occurred in all six healthy volunteers during the phase I clinical trial of the CD28 superagonist monoclonal antibody (mAb) TGN1412. To date, no unequivocal explanation for the failure of TGN1412 to stimulate profound cytokine release in vitro or in vivo in species used for pre-clinical safety testing has been established. Here, we have identified a species difference almost certainly responsible for this disparate immunopharmacology. EXPERIMENTAL APPROACH: Polychromatic flow cytometry and intracellular cytokine staining were employed to dissect the in vitro immunopharmacology of TGN1412 and other therapeutic mAbs at the cellular level to identify differences between humans and species used for pre-clinical safety testing. KEY RESULTS: In vitro IL-2 and IFN-γ release from CD4+ effector memory T-cells were key indicators of a TGN1412-type response. This mechanism of cytokine release differed from that of other therapeutic mAbs, which can cause adverse reactions, because these other mAbs stimulate cytokine release primarily from natural killer cells. In contrast to humans, CD28 is not expressed on the CD4+ effector memory T-cells of all species used for pre-clinical safety testing, so cannot be stimulated by TGN1412. CONCLUSIONS AND IMPLICATIONS: It is likely that activation of CD4+ effector memory T-cells by TGN1412 was responsible for the cytokine storm. Lack of CD28 expression on the CD4+ effector memory T-cells of species used for pre-clinical safety testing of TGN1412 offers an explanation for the failure to predict a 'cytokine storm' in humans.
Authors: Ganesh Suntharalingam; Meghan R Perry; Stephen Ward; Stephen J Brett; Andrew Castello-Cortes; Michael D Brunner; Nicki Panoskaltsis Journal: N Engl J Med Date: 2006-08-14 Impact factor: 91.245
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Authors: Richard Stebbings; Lucy Findlay; Cherry Edwards; David Eastwood; Chris Bird; David North; Yogesh Mistry; Paula Dilger; Emily Liefooghe; Isabelle Cludts; Bernard Fox; Gill Tarrant; Jane Robinson; Tony Meager; Carl Dolman; Susan J Thorpe; Adrian Bristow; Meenu Wadhwa; Robin Thorpe; Stephen Poole Journal: J Immunol Date: 2007-09-01 Impact factor: 5.422
Authors: Sandrine Vessillier; Madeline Fort; Lynn O'Donnell; Heather Hinton; Kimberly Nadwodny; Joseph Piccotti; Peter Rigsby; Karin Staflin; Richard Stebbings; Divya Mekala; Aarron Willingham; Babette Wolf Journal: Cytokine X Date: 2020-12
Authors: Sita S Withers; Peter F Moore; Hong Chang; Jin W Choi; Stephen J McSorley; Michael S Kent; Arta M Monjazeb; Robert J Canter; William J Murphy; Ellen E Sparger; Robert B Rebhun Journal: Dev Comp Immunol Date: 2018-05-31 Impact factor: 3.636