Bauerly K A, Storms D H, Harris C B, Hajizadeh S, Sun M Y, Cheung C P, Satre M A, Fascetti A J, Tchaparian E, Rucker R B
Department of Nutrition, College of Agriculture and Environmental Sciences, 3135 Meyer Hall, One Shields Avenue, UC Davis, Davis CA 95616, USA.
Biochim Biophys Acta. 2006 Nov;1760(11):1741-8. doi: 10.1016/j.bbagen.2006.07.009. Epub 2006 Jul 25.
Pyrroloquinoline quinone (PQQ) added to purified diets devoid of PQQ improves indices of perinatal development in rats and mice. Herein, PQQ nutritional status and lysine metabolism are described, prompted by a report that PQQ functions as a vitamin-like enzymatic cofactor important in lysine metabolism (Nature 422 [2003] 832). Alternatively, we propose that PQQ influences lysine metabolism, but by mechanisms that more likely involve changes in mitochondrial content. PQQ deprivation in both rats and mice resulted in a decrease in mitochondrial content. In rats, alpha-aminoadipic acid (alphaAA), which is derived from alpha-aminoadipic semialdehyde (alphaAAS) and made from lysine in mitochondria, and the plasma levels of amino acids known to be oxidized in mitochondria (e.g., Thr, Ser, and Gly) were correlated with changes in the liver mitochondrial content of PQQ-deprived rats, but not PQQ-supplemented rats. In contrast, the levels of NAD dependent alpha-aminoadipate-delta-semialdehyde dehydrogenase (AASDH), a cytosolic enzyme important to alphaAA production from alphaAAS, was not influenced by PQQ dietary status. Moreover, the levels of U26 mRNA were not significantly changed even when diets differed markedly in PQQ and dietary lysine content. U26 mRNA levels were measured, because of U26's proposed, albeit questionable role as a PQQ-dependent enzyme involved in alphaAA formation.
添加到不含吡咯喹啉醌(PQQ)的纯化日粮中的PQQ可改善大鼠和小鼠围产期发育指标。在此,鉴于有报道称PQQ作为赖氨酸代谢中重要的类维生素酶辅因子发挥作用(《自然》422 [2003] 832),对PQQ营养状况和赖氨酸代谢进行了描述。另外,我们提出PQQ影响赖氨酸代谢,但更可能是通过涉及线粒体含量变化的机制。大鼠和小鼠体内PQQ缺乏均导致线粒体含量降低。在大鼠中,由α-氨基己二酸半醛(αAAS)衍生而来且在线粒体中由赖氨酸生成的α-氨基己二酸(αAA),以及已知在线粒体中被氧化的氨基酸(如苏氨酸、丝氨酸和甘氨酸)的血浆水平,与PQQ缺乏大鼠肝脏线粒体含量的变化相关,但与补充PQQ的大鼠无关。相比之下,NAD依赖的α-氨基己二酸-δ-半醛脱氢酶(AASDH)(一种对从αAAS生成αAA很重要的胞质酶)的水平不受PQQ饮食状态的影响。此外,即使日粮中PQQ和日粮赖氨酸含量差异显著,U26 mRNA水平也没有明显变化。之所以测量U26 mRNA水平,是因为尽管U26作为参与αAA形成的PQQ依赖酶的作用存在疑问,但仍有相关报道。
