A System for Culturing Iris Pigment Epithelial Cells to Study Lens Regeneration in Newt

Salamanders like newt and axolotl possess the ability to regenerate many of its lost body parts such as limbs, the tail with spinal cord, eye, brain, heart, the jaw ¹. Specifically, newts are unique for its lens regeneration capability. Upon lens removal, IPE cells of the dorsal iris transdifferentiate to lens cells and eventually form a new lens in about a month ^2,3. This property of regeneration is never exhibited by the ventral iris cells. The regeneration potential of the iris cells can be studied by making transplants of the in vitro cultured IPE cells. For the culture, the dorsal and ventral iris cells are first isolated from the eye and cultured separately for a time period of 2 weeks (Figure 1). These cultured cells are reaggregated and implanted back to the newt eye. Past studies have shown that the dorsal reaggregate maintains its lens forming capacity whereas the ventral aggregate does not form a lens, recapitulating, thus the in vivo process (Figure 2) ^4,5. This system of determining regeneration potential of dorsal and ventral iris cells is very useful in studying the role of genes and proteins involved in lens regeneration.     

Inhibition of Lens Regeneration by Nickel Subsulfide in the Japanese Common Newt, Cynops pyrrhogaster

To investigate the effects of nickel subsulfide (Ni₃S₂) on lens regeneration, Ni₃S₂ was administered to the lentectomized newt eye by a single injection into the eye chamber. Lens regeneration was inhibited in the early stage of regeneration with about 60% of the treated eyes after 25 days, while all control eyes had a regenerating lens. The size of the regenerating lens in the treated eyes was the same as in controls. Lens regeneration was inhibited in all treated eyes containing Ni₃S₂ particles within the eye chamber. Inhibition of lens regeneration in the treated eyes was about 80% at 3 months, when all control eyes had already completed lens regeneration. Although the tendency toward pupil disappearance was prominent in the eyes having no regenerating lens, there were also a few eyes which had no regenerating lens and no signs of pupil disappearance. The significance of these results was discussed in relation to the regeneration and carcinogenesis.     

miRNAs in Newt Lens Regeneration: Specific Control of Proliferation and Evidence for miRNA Networking

Background

Lens regeneration in adult newts occurs via transdifferentiation of the pigment epithelial cells (PECs) of the dorsal iris. The same source of cells from the ventral iris is not able to undergo this process. In an attempt to understand this restriction we have studied in the past expression patterns of miRNAs. Among several miRNAs we have found that mir-148 shows an up-regulation in the ventral iris, while members of the let-7 family showed down-regulation in dorsal iris during dedifferentiation.

Methodology/Principal Findings

We have performed gain- and loss-of–function experiments of mir-148 and let-7b in an attempt to delineate their function. We find that up-regulation of mir-148 caused significant decrease in the proliferation rates of ventral PECs only, while up-regulation of let-7b affected proliferation of both dorsal and ventral PECs. Neither miRNA was able to affect lens morphogenesis or induction. To further understand how this effect of miRNA up-regulation is mediated we examined global expression of miRNAs after up-regulation of mir148 and let-7b. Interestingly, we identified a novel level of mirRNA regulation, which might indicate that miRNAs are regulated as a network.

Conclusion/Significance

The major conclusion is that different miRNAs can control proliferation in the dorsal or ventral iris possibly by a different mechanism. Of interest is that down-regulation of the let-7 family members has also been documented in other systems undergoing reprogramming, such as in stem cells or oocytes. This might indicate that reprogramming during newt regeneration shares common molecular signatures with reprogramming in stem or germ cells. On the other hand that miRNAs can regulate the levels of other miRNAs is a novel level of regulation, which might provide new insights on their function.     

Dopamine Induces Optical Changes in the Cichlid Fish Lens

The crystalline lens in the cichlid fish Aequidens pulcher undergoes a transformation of its optical properties every dawn and dusk as the eye adapts to changes in light conditions. During dusk the transformation result in an increase of the refractive power in the lens cortex, the outermost 40 percent. The change is thought to match the optical properties of the lens to the requirements of the retina. Using a short term in vitro lens culturing system together with optical measurements we here present data that confirm that the optical properties of the lens can change within hours and that dopamine influences the optical properties of the lens. Dopamine yields dose-dependent decrease of the refractive power in the lens cortex. The D1-agonist SKF-38393 induces a similar decrease of the refractive power in the cortex, while the D2-agonist quinpirole has no effect. The effect of dopamine can be blocked by using the D1-antagonist SCH 23390. Our results suggest that dopamine alone could be responsible for the light/dark adaptive optical changes in the lens, but the involvement of other signaling substances cannot be ruled out.     

Mesoderm and Neural Inductions on Newt Ectoderm by Activin A

Mesoderm-inducing activity of human recombinant activin A was examined on presumptive ectoderm of the Japanese newt, Cynops pyrrhogaster , by using the animal cap assay, Activin A induced neural tissues and mesodermal tissues such as brain, neural tube, notochord, muscle, mesenchyme, coelomic epithelium and blood-like cells after 14 days cultivation. These tissues were induced by activin A at concentrations ranging from 0.5– 100 ng/ml. Dose-dependent inducing activity of activity A on newt ectoderm was slightly different from that on other animals, including Xenopus . Wide range of concentration of activin A (0.5– 100 ng/ml) could induce the neural tube, notochord, mesenchyme and coelomic epithelium on the newt ectoderm. Though the percentage of induced explants (two out of 23 explants, 8.7%) was low, the pulsating heart was induced. This paper showed first that activin could induce the mesodermal and neural tissues in newt presumptive ectoderm. Since activin homologues were present In Xenopus and chick embryos, it is likely that activin may be one of the natural inducers in a wide range of species.     

Electrical Properties of Structural Components of the Crystalline Lens

The electrical properties of the crystalline lens of the frog eye are measured with stochastic currents applied with a microelectrode near the center of the preparation and potential recorded just under the surface. The stochastic signals are decomposed by Fourier analysis into sinusoidal components, and the impedance is determined from the ratio of mean cross power to input power. The data are fit by an electrical model that includes two paths for current flow: one through the cytoplasm, gap junctions, and outer membrane; the other through inner membranes and the extracellular space between lens fibers. The electrical properties of the structures of the lens which appear as circuit components in the model are determined by the fit to the data. The resistivity of the extracellular space within the lens is comparable to the resistivity of Ringer. The outer membrane has a normal resistance of 5 kohm · cm² but large capacitance of 10 μF/cm², probably because it represents the properties of several layers of fibers. The inner membranes have properties reminiscent of artificial lipid bilayers: they have high membrane resistance, 2.2 megohm · cm², and low specific capacitance, 0.8 μF/cm². There is so much membrane within the lens, however, that the sum of the current flow across all the inner membranes is comparable to that across the outer surface.     

Intracellular Levels of Adenosine 3':5'-Cyclic Monophosphate in the Dorsal Iris of the Adult Newt, During Lens Regeneration

The intracellular levels of adenosine 3':5'-cyclic monophosphate (cAMP) were measured in the dorsal iris of the adult newt, during the first 20 days of lens regeneration. It was found that by day 2 after lens removal there is a significant drop in the levels of cAMP. After day 2 the levels of the nucleotide increase and by day 3 they are higher than those detected on day 0. The levels of cAMP remain high up to day 8. From day 8 to day 9 there is a second drop. From day 9 to day 20 the levels of cAMP did not differ significantly from the value obtained for day 0, except for days 10, 12, and 15. The period of high levels of cAMP coincides with the period of depigmentation of iris epithelial cells, the key event of lens regeneration.     

Transfllter Studies on Neural Induction in the Newt

In order to study the transmission mechanism of neuralising signals during primary embryonic induction, the interacting components (competent newt gastrula ectoderm and dorsal lip tissues) were separated by filter membranes of varying pore size. Nuclepore filters with nominal pore size from 0.1 to 8 μm were employed and the neuralising effect was shown to traverse all of these membranes. Electron microscopic examination did not reveal any cytoplasmic processes in the pores and the authors conclude that the morphogenetic signals are carried by transmissable compounds rather than through direct cytoplasmic contacts.     

The Effect of Static Magnetic Field on Electrical Properties of Lens

We investigated the effect of a static magnetic field (0.1 T) on various electrical parameters of goat eye lens using a computer-aided AC impedance system (EG&G 278) at 30°C. Results of measurements on voltage-current characteristics showed that the static magnetic field alters the current flow in the tissue. The complex impedance plane drawn between real (Z') and imaginary (Z) parts in the form of a Cole-Cole plot demonstrates that under magnetic field, the distribution factor a decreases from 0.3 ± 0.006 to 0.24 ± 0.005 and the extracellular resistance (Re) increases from 52 ± 1.3 to 60 ± 1.5 K ohms in the lens tissue. An attempt has been made to explain the interactive behavior of the magnetic field with the electrical changes in the lens.     

Optical Properties of Dense Plasmas

Plasma Physics Reports - The results of studies of optical properties of plasmas in the framework of the self-consistent method of moments, which are in satisfactory agreement with experimental...     

Review on the Optical Properties of Nanoparticle Aggregates Towards the Therapeutic Applications

Plasmonics - Nanoparticles are of potential use for therapeutic applications, and nowadays a variety of modalities involving optical characteristics of nanoparticles are in the clinical translation...     

潮汕蝾螈的求偶行为

潮汕蝾螈(Cynops orphicus)是我国特有的濒危有尾两栖类,繁殖季节始于5月中旬。对其求偶行为观察发现,该螈求偶模式表现出与东方蝾螈(C.orientalis)相似的特点,但雄性扇尾和潜行时间(25~37 s)较东方蝾螈(10~20 s)更长;雄性在一次求偶中多次排精,雌性亦可多次纳精,精子囊形态与东方蝾螈类同;雌性纳精后,雄性反转咬住其腹部,被咬雌性呈现植物态。纳精过后,雌性出现暂时的冷漠或恐惧,不再接受雄性求偶。该螈成功纳精在累次求偶行为中占比不高(2.7%),但较东方蝾螈(1.1%)成功率高。雄性之间存在求偶过程中的竞争和干扰行为。     

Optical and Nonlinear Optical Limiting Properties of AgNi Alloy Nanostructures

Silver-nickel alloy nanoparticles with varying size were synthesized by reducing the metal precursors chemically using a single-step solution-based synthesis route. The structural, optical, and nonlinear optical properties of the prepared samples were investigated. The synthesized samples having highly agglomerated, interconnected nature and found to exhibit dipole and multipole surface plasmon resonance related optical absorption bands. Nonlinear optical and optical limiting properties were investigated using a single beam open aperture z-scan technique with the use of 532 nm, 5-ns laser pulses. The nonlinearity observed was found to have contributions from saturable absorption (SA) and excited state absorption (ESA) related to free carriers. The effective nonlinear optical absorption was enhanced in AgNi alloy compared to pure Ag nanostructures.     

基于光学性质的纳米生物探针设计策略

纳米生物复合探针具有多功能复合、多检测路径、易于信号放大、制备简便等多种优越性。基于其优越的光学性质,人们可以利用常规光学设备实现生物检测,甚至可以实现目视检测。现就本实验室在光学纳米生物探针制备和应用的研究进展作一简要综述,所述纳米生物探针类型主要有:基于表面等离子体效应的纳米生物探针、基于量子效应的纳米生物探针和基于比表面效应的纳米生物探针,并介绍如何应用这些探针进行生物传感和生物芯片的构建。     

Tuning of the Optical Properties of Monolayer Blue Phosphorene

Plasmonics - Blue and black phosphorus are the most stable allotropes of phosphorus family. As a new potential semiconductor material, blue phosphorene shows the advantage of its wide indirect...