Sterling Kenneth M, Mandal Prabir K, Roggenbeck Barbara A, Ahearn Sean E, Gerencser George A, Ahearn Gregory A
Department of Biology, University of North Florida, 4567 St Johns Bluff Road, S., Jacksonville, FL 32224, USA.
J Exp Biol. 2007 Oct;210(Pt 19):3484-93. doi: 10.1242/jeb.008300.
Crustacean hepatopancreatic lysosomes are organelles of heavy metal sequestration and detoxification. Previous studies have shown that zinc uptake by lysosomal membrane vesicles (LMV) occurred by a vanadate- and thapsigargin-sensitive ATPase that was stimulated by a transmembrane proton gradient established by a co-localized V-ATPase associated with this organelle. In the present study, hepatopancreatic LMV from the American lobster Homarus americanus were prepared by standard centrifugation methods and 65Zn2+, 36Cl-, 35SO(4)2- and 14C-oxalate2- were used to characterize the interactions between the metal and anions during vesicular detoxification events. Vesicles loaded with SO4(2-) or PO(4)3- led to a threefold greater steady-state accumulation of Zn2+ than similar vesicles loaded with mannitol, Cl- or oxalate2-. The stimulation of 65Zn2+ uptake by intravesicular sulfate was SO(4)2- concentration dependent with a maximal enhancement at 500 micromol l(-1). Zinc uptake in the presence of ATP was proton-gradient enhanced and electrogenic, exhibiting an apparent exchange stoichiometry of 1Zn+/3H+. 35SO4(2-) and 14C-oxalate2- uptakes were both enhanced in vesicles loaded with intravesicular Cl- compared to vesicles containing mannitol, suggesting the presence of anion countertransport. 35SO4(2-) influx was a sigmoidal function of external [SO(4)2-] with 25 mmol l(-1) internal [Cl-], or with several intravesicular pH values (e.g. 7.0, 8.0 and 9.0). In all instances Hill coefficients of approximately 2.0 were obtained, suggesting that 2 sulfate ions exchange with single Cl- or OH- ions. 36Cl- influx was a sigmoidal function of external [Cl-] with intravesicular pH of 7.0 and 9.0. A Hill coefficient of 2.0 was also obtained, suggesting the exchange of 2 Cl- for 1 OH-. 14C-oxalate influx was a hyperbolic function of external [oxalate2-] with 25 mmol l(-1) internal [Cl-], suggesting a 1:1 exchange of oxalate2- for Cl-. As a group, these experiments suggest the presence of an anion exchange mechanism exchanging monovalent for polyvalent anions. Polyvalent inorganic anions (SO4(2-) and PO4(3-)) are known to associate with metals inside vesicles and a detoxification model is presented that suggests how these anions may contribute to concretion formation through precipitation with metals at appropriate vesicular pH.
甲壳类动物的肝胰腺溶酶体是重金属螯合和解毒的细胞器。先前的研究表明,溶酶体膜囊泡(LMV)对锌的摄取是由一种对钒酸盐和毒胡萝卜素敏感的ATP酶介导的,该酶受到与该细胞器共定位的V-ATP酶建立的跨膜质子梯度的刺激。在本研究中,采用标准离心方法制备了美洲龙虾美洲螯龙虾的肝胰腺LMV,并使用65Zn2+、36Cl-、35SO(4)2-和14C-草酸盐2-来表征囊泡解毒过程中金属与阴离子之间的相互作用。装载有SO4(2-)或PO(4)3-的囊泡导致Zn2+的稳态积累比装载甘露醇、Cl-或草酸盐2-的类似囊泡高三倍。囊泡内硫酸盐对65Zn2+摄取的刺激作用呈SO(4)2-浓度依赖性,在500 μmol l(-1)时增强最大。在ATP存在下锌的摄取受质子梯度增强且具有电生性,表现出明显的交换化学计量比为1Zn+/3H+。与含有甘露醇的囊泡相比,装载有囊泡内Cl-的囊泡中35SO4(2-)和14C-草酸盐2-的摄取均增强,表明存在阴离子反向转运。35SO4(2-)内流是外部[SO(4)2-]的S形函数,内部[Cl-]为25 mmol l(-1),或在几个囊泡内pH值(如7.0、8.0和9.0)下。在所有情况下,均获得约为2.0的希尔系数,表明2个硫酸根离子与单个Cl-或OH-离子交换。36Cl-内流是外部[Cl-]的S形函数,囊泡内pH为7.0和9.0。也获得了2.0的希尔系数,表明2个Cl-与1个OH-交换。14C-草酸盐内流是外部[草酸盐2-]的双曲线函数,内部[Cl-]为25 mmol l(-1),表明草酸盐2-与Cl-以1:1的比例交换。总体而言,这些实验表明存在一种阴离子交换机制,可将单价阴离子与多价阴离子进行交换。已知多价无机阴离子(SO4(2-)和PO4(3-))在囊泡内与金属结合,并提出了一种解毒模型,该模型表明这些阴离子如何通过在适当的囊泡pH下与金属沉淀而有助于结石形成。
