Stimulation of eryptosis by aluminium ions

“…Some of these diseases may cause eryptosis by stimulating the formation of hemin. Furthermore, several eryptosis-triggering xenobiotics and endogeneous substances have been identified, such as cordycepin [50], methylglyoxal [54], amyloid peptides [53], lipopetides [71] retinoic acid [55], paclitaxel [44], amantadine [23], chlorpromazine [1], ciglitazone [58], cyclosporine [56], Bay-5884 [65], curcumin [4], valinomycin [64], listeriolysin [25], aluminum [57], copper [46], bismuth [13], tin [52], cadmium [68], selenium [67], vanadate [27], gold [69], and arsenic [51]. At least in theory, some of those substances may be effective through stimulation of hemin formation.…”

Hemin-induced suicidal erythrocyte death

“…Some of these diseases may cause eryptosis by stimulating the formation of hemin. Furthermore, several eryptosis-triggering xenobiotics and endogeneous substances have been identified, such as cordycepin [50], methylglyoxal [54], amyloid peptides [53], lipopetides [71] retinoic acid [55], paclitaxel [44], amantadine [23], chlorpromazine [1], ciglitazone [58], cyclosporine [56], Bay-5884 [65], curcumin [4], valinomycin [64], listeriolysin [25], aluminum [57], copper [46], bismuth [13], tin [52], cadmium [68], selenium [67], vanadate [27], gold [69], and arsenic [51]. At least in theory, some of those substances may be effective through stimulation of hemin formation.…”

Hemin-induced suicidal erythrocyte death

“…Eryptosis has been observed in a wide variety of further anemic conditions, including sickle-cell anemia [59,60], beta-thalassemia [55], glucose-6-phosphate dehydrogenase (G6PD)-deficiency [55], phosphate depletion [59], iron deficiency [61], Hemolytic Uremic Syndrome [62], sepsis [63], malaria [64] and Wilson disease [35]. Moreover, enhanced eryptosis could contribute to the anemia following excessive formation, treatment or intoxication with hemolysin Kanagawa [65], listeriolysin [66], PGE 2 [67], lipoxygenase inhibitor Bay-5884 [68], platelet activating factor [69], paclitaxel [70], methylglyoxal [71], chlorpromazine [72], amantadine [73], cyclosporine [34], curcumin [74], amyloid peptides [75], aluminium [34], lead [32], mercury [33] and copper ions [35]. …”

“…Eryptosis has recently been shown to be triggered by lead [32], mercury [33], aluminium [34], copper [35], and gold ions [36]. Cd 2+ has previously been shown to accelerate age-related changes in erythrocytes [37], i.e.…”

Stimulation of Eryptosis by Cadmium Ions

“…Suicidal erythrocyte death could be triggered by ligation of specific surface antigens, such as glycophorin-C (41), the thrombospondin-1 receptor CD47 (42) and the death receptor CD95/Fas (43). Further stimulators of eryptosis include ceramide (acylsphingosine) (44), prostaglandin E 2 (45), platelet activating factor (46), anti A IgG antibodies (47), hemolysin from Vibrio parahaemolyticus (48), listeriolysin (49), paclitaxel (50), amantadine (51), azathioprine (52), retinoic acid (53), chlorpromazine (54), cyclosporine (55), methylglyoxal (56), amyloid peptides (57), anandamide (58), Bay-Y5884 (59), curcumin (60), valinomycin (61), aluminium (62), mercury (63), lead (64), gold (65), vanadium (66) and copper (67).…”

Erythrocyte programmed cell death