Dearry A, Burnside B
J Gen Physiol. 1984 Apr;83(4):589-611. doi: 10.1085/jgp.83.4.589.
We have examined the effects of changes in extracellular ionic composition on cone and retinal pigment epithelium (RPE) retinomotor movements in cultured isolated teleost retinas. In vivo, the myoid portion of teleost cones contracts in the light and elongates in the dark; RPE pigment disperses in the light and aggregates in the dark. In vitro, cones of dark-adapted (DA) retinas cultured in constant darkness contracted spontaneously to their light-adapted (LA) positions if the culture medium contained greater than or equal to 10(-3)M Cao++. DA cones retained their long DA positions in a medium containing less than or equal to 10(-6)M Cao++. Low [Ca++]o (10(-5)-10(-7)M) also permitted darkness to induce cone elongation and RPE pigment aggregation. Light produced cone contraction even in the absence of Cao++, but the extent of contraction was reduced if [Ca++]o was less than 10(-3) M. Thus, full contraction appeared to require the presence of external Ca++. High [K+]o (greater than or equal to 27 mM) inhibited both light-induced and light-independent Ca++-induced cone contraction. However, low [Na+]o (3.5 mM) in the presence of less than or equal to 10(-6)M Cao++ did not mimic light onset by inducing cone contraction in the dark. High [K+]o also promoted dark-adaptive cone and RPE movements in LA retinas cultured in the light. All results obtained in high [K+]o were similar to those observed when DA or LA retinas were exposed to treatments that elevate cytoplasmic cyclic 3',5'-adenosine monophosphate (cAMP) content.
我们研究了细胞外离子组成变化对培养的离体硬骨鱼视网膜中视锥细胞和视网膜色素上皮(RPE)视网膜运动的影响。在体内,硬骨鱼视锥细胞的肌样部分在光照下收缩,在黑暗中伸长;RPE色素在光照下分散,在黑暗中聚集。在体外,如果培养基中Ca²⁺浓度大于或等于10⁻³M,在持续黑暗中培养的暗适应(DA)视网膜的视锥细胞会自发收缩至其光适应(LA)位置。DA视锥细胞在Ca²⁺浓度小于或等于10⁻⁶M的培养基中保持其长的DA位置。低[Ca²⁺]ₒ(10⁻⁵ - 10⁻⁷M)也能使黑暗诱导视锥细胞伸长和RPE色素聚集。即使没有Ca²⁺,光照也会引起视锥细胞收缩,但如果[Ca²⁺]ₒ小于10⁻³M,收缩程度会降低。因此,完全收缩似乎需要细胞外Ca²⁺的存在。高[K⁺]ₒ(大于或等于27 mM)抑制光诱导和非光依赖的Ca²⁺诱导的视锥细胞收缩。然而,在Ca²⁺浓度小于或等于10⁻⁶M的情况下,低[Na⁺]ₒ(3.5 mM)不会通过在黑暗中诱导视锥细胞收缩来模拟光照开始。高[K⁺]ₒ也促进了在光照下培养的LA视网膜中的暗适应视锥细胞和RPE运动。在高[K⁺]ₒ条件下获得的所有结果与DA或LA视网膜暴露于能提高细胞质环3',5'-腺苷单磷酸(cAMP)含量的处理时观察到的结果相似。