糖尿病Nyxnob小鼠视网膜的早期功能和形态学异常

Early Functional and Morphologic Abnormalities in the Diabetic Nyxnob Mouse Retina.

作者信息

Tarchick Matthew J, Bassiri Parastoo, Rohwer Rebecca M, Samuels Ivy S

机构信息

Louis Stokes Cleveland VA Medical Center, Cleveland, Ohio, United States 2Cole Eye Institute, Cleveland Clinic, Cleveland, Ohio, United States.

Cole Eye Institute, Cleveland Clinic, Cleveland, Ohio, United States.

出版信息

Invest Ophthalmol Vis Sci. 2016 Jun 1;57(7):3496-508. doi: 10.1167/iovs.15-18775.

DOI:10.1167/iovs.15-18775

PMID:27367517

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4961059/

Abstract

PURPOSE

The electroretinogram c-wave is generated by the summation of the positive polarity hyperpolarization of the apical RPE membrane and a negative polarity slow PIII response of Müller glia cells. Therefore, the c-wave reduction noted in prior studies of mouse models of diabetes could reflect a reduction in the RPE component or an increase in slow PIII. The present study used a genetic approach to distinguish between these two alternatives.

METHODS

Nyxnob mice lack the ERG b-wave, revealing the early phase of slow PIII. To visualize changes in slow PIII due to diabetes, Nyxnob mice were given streptozotocin (STZ) injections to induce diabetes or received vehicle as a control. After 1, 2, and 4 weeks of sustained hyperglycemia (>250 mg/dL), standard strobe flash ERG and dc-ERG testing were conducted. Histological analysis of the retina was performed.

RESULTS

A reduced c-wave was noted at the 1 week time point, and persisted at later time points. In comparison, slow PIII amplitudes were unaffected after 1 week of hyperglycemia, but were significantly reduced in STZ mice at the 2-week time point. The decrease in amplitude occurred before any identifiable decrease to the a-wave. At the later time point, the a-wave became involved, although the slow PIII reductions were more pronounced. Morphological abnormalities in the RPE, including increased thickness and altered melanosome distribution, were identified in diabetic animals.

CONCLUSIONS

Because the c-wave and slow PIII were both reduced, these results demonstrated that diabetes-induced reductions to the c-wave cannot be attributed to an early increase in the Müller glia-derived potassium conductance. Furthermore, because the a-wave, slow PIII and c-wave reductions were not equivalent, and varied in their onset, the reductions cannot reflect the same mechanism, such as a change in membrane resistance. The presence of small changes to RPE architecture indicate that the c-wave reductions present in diabetic mice likely represents a primary change in the RPE induced by hyperglycemia.

摘要

目的

视网膜电图c波由视网膜色素上皮（RPE）顶膜的正极性超极化与Müller胶质细胞的负极性慢PIII反应叠加产生。因此，先前糖尿病小鼠模型研究中观察到的c波降低可能反映RPE成分减少或慢PIII增加。本研究采用遗传学方法区分这两种可能性。

方法

Nyxnob小鼠缺乏视网膜电图b波，可显示慢PIII的早期阶段。为观察糖尿病引起的慢PIII变化，给Nyxnob小鼠注射链脲佐菌素（STZ）诱导糖尿病，或注射溶媒作为对照。在持续高血糖（>250mg/dL）1、2和4周后，进行标准频闪闪光视网膜电图和直流视网膜电图检测。对视网膜进行组织学分析。

结果

在1周时间点观察到c波降低，并在随后的时间点持续存在。相比之下，高血糖1周后慢PIII振幅未受影响，但在2周时间点STZ小鼠中显著降低。振幅降低发生在a波出现任何可识别的降低之前。在后期时间点，a波也受到影响，尽管慢PIII的降低更为明显。在糖尿病动物中发现RPE存在形态学异常，包括厚度增加和黑素体分布改变。

结论

由于c波和慢PIII均降低，这些结果表明糖尿病引起的c波降低不能归因于Müller胶质细胞衍生的钾电导早期增加。此外，由于a波、慢PIII和c波的降低并不等同，且起始时间不同，这些降低不能反映相同的机制，如膜电阻变化。RPE结构存在微小变化表明，糖尿病小鼠中出现的c波降低可能代表高血糖诱导的RPE原发性变化。

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糖尿病Nyxnob小鼠视网膜的早期功能和形态学异常

Early Functional and Morphologic Abnormalities in the Diabetic Nyxnob Mouse Retina.

作者信息

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出版信息

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METHODS

RESULTS

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目的

方法

结果

结论

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