Mitsuki Kyakuno scite author profile

Urodele amphibian newts have an outstanding history as experimental animals in various research fields such as developmental biology and regeneration biology. We have reported a model experimental system using the Spanish newt, Pleurodeles waltl, and it enables reverse/ molecular genetics through gene manipulation. Microinjection is one of the core techniques in gene manipulation in newts. In the present study, we examined the conditions of the microinjection method, such as egg preparation, de-jelly solution, and formulation of injection medium. We have successfully optimized the injection protocol for P. waltl newts, and our improved protocol is more efficient and lower in cost than previous methods. This protocol can be used for the microinjection of plasmid DNA with I-SceI or mRNA, as well as genome editing using the CRISPR-Cas9 system. This protocol will facilitate research through gene manipulation in newts.

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Cryo‐injury procedure‐induced cardiac regeneration shows unique gene expression profiles in the newt Pleurodeles waltl

Uemasu

Ikuta

Igawa

et al. 2022

Developmental Dynamics

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Background Cardiac regeneration in the adult mouse is not substantial. Some vertebrates, such as newts and zebrafish, regenerate the heart throughout their lives. To understand how regenerative abilities differ among animal species, comparative research has been conducted in animals like mouse, zebrafish, and newt. For those purposes, cryo‐injury is suitable as an experimental model for the pathological condition of human myocardial infarction. In fact, cryo‐injury procedures are common in mouse and zebrafish. Results In the present study, we induced cryo‐damage on the ventricle in Iberian ribbed newts using a liquid nitrogen‐chilled probe. We observed that the injured area recovered within 8 weeks, with remodeling of scar tissue and proliferation of cardiomyocytes. We investigated the subsequent recovery of cryo‐injured and amputated tissues by comparative analysis of the gene expression profiles following these two procedures. Conclusions Notably, we established a cryo‐injury procedure for the newt and confirmed that regeneration of the cryo‐damaged myocardial tissue is achieved by changes in gene expression that are milder than those observed in the amputation model. Our results suggest that the cryo‐injury method is suitable for comparing the process of cardiac regeneration in the newt with that in other animal models.

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Photoperiod‐independent testicular development in the model newt Pleurodeles waltl

et al. 2021

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Urodele amphibian newts have unique biological properties in male gametogenesis, in addition to their extreme regenerative capacity. Male newts are able to regenerate new testes even after reaching sexual maturity and can possess multiple testes. Notably, these animals maintain primordial germ cell‐like cells in a tissue adjacent to the testis. Spermatogenesis proceeds while synchronizing in a region‐specific manner in the testis. However, the newt species that have been used most commonly require 2–3 years to achieve sexual maturity, and spermatogenesis in these species shows seasonality. These traits have restricted the use of newts for studies on testicular development and spermatogenesis, and testis development in newts remains poorly characterized. Recently, the Iberian ribbed newt Pleurodeles waltl has been established as an emerging model organism. P. waltl reaches sexual maturity more quick after birth than do other newts and is capable of breeding year‐round. Thus, P. waltl is expected to serve as an appealing experimental model for studying the mechanisms of male gametogenesis in the urodeles. In the present study, we use P. waltl to describe the entire developmental process of the newt testis from primordial gonad to maturity. Notably, the mature testes show synchronized progression of spermatogenesis along the anteroposterior axis. Additionally, we demonstrate that the process of spermatogenesis in P. waltl proceeds irrespective of day length. Our results show that P. waltl newts are a suitable model for investigating the process of testicular development. We also expect that these results will be useful for the maintenance of P. waltl bioresources.

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Step‐by‐step protocol for alternative injury models in newt cardiac regeneration

et al. 2023

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Although the heart is one of the most important organs for animal survival, its regenerative capacity varies among animal species. Notably, adult mammals cannot regenerate their hearts after damage such as acute myocardial infarction. In contrast, some vertebrate animals can regenerate the heart throughout their lives. Cross‐species comparative studies are important to understand the full picture of cardiac regeneration in vertebrates. Among the animal species able to regenerate the heart, some urodele amphibians, such as newts, possess a remarkable capacity for this process. Standardized methods of inducing cardiac regeneration in the newt are needed as a platform for studies comparing newts and other animal models. The procedures presented here describe amputation and cryo‐injury techniques for the induction of cardiac regeneration in Pleurodeles waltl, an emerging model newt species. Both procedures consist of simplified steps that require no special equipment. We additionally show some examples of the regenerative process obtained using these procedures. This protocol has been developed for P. waltl. However, these methods are also expected to be applicable to other newt and salamander species, facilitating comparative research with other model animals.

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Mitsuki Kyakuno

Advanced microinjection protocol for gene manipulation using the model newt Pleurodeles waltl

Cryo‐injury procedure‐induced cardiac regeneration shows unique gene expression profiles in the newt Pleurodeles waltl

Photoperiod‐independent testicular development in the model newt Pleurodeles waltl

Step‐by‐step protocol for alternative injury models in newt cardiac regeneration

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