Review Article
Eryptosis: An Erythrocyte’s Suicidal Type of Cell Death
Table 2
Factors inhibiting eryptosis. Inhibition mechanism can be through the Ca2+ entry mechanism, ceramide formation, or ATP depletion.
| Inhibiting factors | Inhibition mechanism | References |
| Adenosine | Ca2+; ATP depletion | [58] | Amitriptyline | Ceramide; ATP depletion | [25] | Caffeine | Ca2+; ATP depletion | [25] | Catecholamine’s | Ca2+ | [25] | Chloride | Ca2+ | [59] | Ethylisopropylamiloride | Ca2+ | [60] | Erythropoietin | Ca2+ | [61] | Flufenamic acid | Ca2+ | [62] | Quinoxalinediones (NBQX/CNQX) | Ca2+ | [25] | Niflumic acid | ATP depletion | [25] | Nitric oxide (nitroprusside) | ATP depletion | [63] | Natriuretic peptide precursor B | ATP depletion | [25] | Resveratrol | Ca2+; ATP depletion | [25] | Staurosporine | ATP depletion | [64] | Urea | Ceramide; ATP depletion | [59] | Xanthohumol | Ca2+; ATP depletion | [25] | Zidovudine | Ca2+ | [65] |
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