Macrophages Deficient in CTP:Phosphocholine Cytidylyltransferase-α Are Viable under Normal Culture Conditions but Are Highly Susceptible to Free Cholesterol-induced Death

Macrophages Deficient in CTP:Phosphocholine Cytidylyltransferase-α Are Viable under Normal Culture Conditions but Are Highly Susceptible to Free Cholesterol-induced Death

Macrophages in atherosclerotic lesions accumulate excess free cholesterol (FC) and phospholipid. Because excess FC is toxic to macrophages, these observations may have relevance to macrophage death and necrosis in atheromata. Previous work by us showed that at early stages of FC loading, when macrop...

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Veröffentlicht in:The Journal of biological chemistry 2000-11, Vol.275 (45), p.35368-35376
Hauptverfasser: Zhang, Dajun, Tang, Wei, Yao, Pin Mei, Yang, Chingwen, Xie, Boxun, Jackowski, Suzanne, Tabas, Ira
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container_end_page 35376
container_issue 45
container_start_page 35368
container_title The Journal of biological chemistry
container_volume 275
creator Zhang, Dajun
Tang, Wei
Yao, Pin Mei
Yang, Chingwen
Xie, Boxun
Jackowski, Suzanne
Tabas, Ira
description Macrophages in atherosclerotic lesions accumulate excess free cholesterol (FC) and phospholipid. Because excess FC is toxic to macrophages, these observations may have relevance to macrophage death and necrosis in atheromata. Previous work by us showed that at early stages of FC loading, when macrophages are still healthy, there is activation of the phosphatidylcholine (PC) biosynthetic enzyme, CTP:phosphocholine cytidylyltransferase (CT), and accumulation of PC mass. We hypothesized that this is an adaptive response, albeit transient, that prevents the FC:PC ratio from reaching a toxic level. To test this hypothesis directly, we created mice with macrophage-targeted disruption of the major CT gene,CTα, using the Cre-lox system. Surprisingly, the number of peritoneal macrophages harvested from CTα-deficient mice and their overall health under normal culture conditions appeared normal. Moreover, CT activity and PC biosynthesis and in vitro CT activity were decreased by 70–90% but were not absent. As a likely explanation of this residual activity, we showed that CTβ2, a form of CT that arises from another gene, is induced in CTα-deficient macrophages. To test our hypothesis that increased PC biosynthesis is an adaptive response to FC loading, the viability of wild-type versus CTα-deficient macrophages under control and FC-loading conditions was compared. After 5 h of FC loading, death increased from 0.7% to only 2.0% in wild-type macrophages but from 0.9% to 29.5% in CTα-deficient macrophages. These data offer the first molecular genetic evidence that activation of CTα and induction of PC biosynthesis in FC-loaded macrophages is an adaptive response. Furthermore, the data reveal that CTβ2 in macrophages is induced in the absence of CTα and that a low level of residual CT activity, presumably due to CTβ2, is enough to keep the cells viable in the peritoneum in vivo and under normal culture conditions.
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Because excess FC is toxic to macrophages, these observations may have relevance to macrophage death and necrosis in atheromata. Previous work by us showed that at early stages of FC loading, when macrophages are still healthy, there is activation of the phosphatidylcholine (PC) biosynthetic enzyme, CTP:phosphocholine cytidylyltransferase (CT), and accumulation of PC mass. We hypothesized that this is an adaptive response, albeit transient, that prevents the FC:PC ratio from reaching a toxic level. To test this hypothesis directly, we created mice with macrophage-targeted disruption of the major CT gene,CTα, using the Cre-lox system. Surprisingly, the number of peritoneal macrophages harvested from CTα-deficient mice and their overall health under normal culture conditions appeared normal. Moreover, CT activity and PC biosynthesis and in vitro CT activity were decreased by 70–90% but were not absent. As a likely explanation of this residual activity, we showed that CTβ2, a form of CT that arises from another gene, is induced in CTα-deficient macrophages. To test our hypothesis that increased PC biosynthesis is an adaptive response to FC loading, the viability of wild-type versus CTα-deficient macrophages under control and FC-loading conditions was compared. After 5 h of FC loading, death increased from 0.7% to only 2.0% in wild-type macrophages but from 0.9% to 29.5% in CTα-deficient macrophages. These data offer the first molecular genetic evidence that activation of CTα and induction of PC biosynthesis in FC-loaded macrophages is an adaptive response. 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title Macrophages Deficient in CTP:Phosphocholine Cytidylyltransferase-α Are Viable under Normal Culture Conditions but Are Highly Susceptible to Free Cholesterol-induced Death
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