Eryptosis: An Erythrocyte’s Suicidal Type of Cell Death

<table class="table-group" id="tab2"><tr><td><table class="table"><tr><td class="thead-hr" colspan="3"><hr/></td></tr><tr class="thead"><td class="align_left">Inhibiting factors</td><td class="align_center">Inhibition mechanism</td><td class="align_center">References</td></tr><tr><td class="thead-hr" colspan="3"><hr/></td></tr><tr><td class="align_left">Adenosine</td><td class="align_center">Ca2+; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B68" target="_blank">58</a>]</td></tr><tr><td class="align_left">Amitriptyline</td><td class="align_center">Ceramide; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Caffeine</td><td class="align_center">Ca2+; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Catecholamine’s</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Chloride</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B69" target="_blank">59</a>]</td></tr><tr><td class="align_left">Ethylisopropylamiloride</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B70" target="_blank">60</a>]</td></tr><tr><td class="align_left">Erythropoietin</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B71" target="_blank">61</a>]</td></tr><tr><td class="align_left">Flufenamic acid</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B72" target="_blank">62</a>]</td></tr><tr><td class="align_left">Quinoxalinediones (NBQX/CNQX)</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Niflumic acid</td><td class="align_center">ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Nitric oxide (nitroprusside)</td><td class="align_center">ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B73" target="_blank">63</a>]</td></tr><tr><td class="align_left">Natriuretic peptide precursor B</td><td class="align_center">ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Resveratrol</td><td class="align_center">Ca2+; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Staurosporine</td><td class="align_center">ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B74" target="_blank">64</a>]</td></tr><tr><td class="align_left">Urea</td><td class="align_center">Ceramide; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B69" target="_blank">59</a>]</td></tr><tr><td class="align_left">Xanthohumol</td><td class="align_center">Ca2+; ATP depletion</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B30" target="_blank">25</a>]</td></tr><tr><td class="align_left">Zidovudine</td><td class="align_center">Ca2+</td><td class="align_center">[<a href="/journals/bmri/2018/9405617/#B75" target="_blank">65</a>]</td></tr><tr class="table-tr"><td colspan="3"><hr class="tbody-hr"/></td></tr></table></td></tr></table>

Factors inhibiting eryptosis. Inhibition mechanism can be through the Ca2+ entry mechanism, ceramide formation, or ATP depletion.

BioMed Research International

Eryptosis: An Erythrocyte’s Suicidal Type of Cell Death

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