A previously unreported population of foam cells (foamy macrophages) accumulates in the invasive fibrotic meninges during gap regeneration of transected adult Axolotl spinal cord (salamander Ambystoma mexicanum) and may act beneficially. Multinucleated giant cells (MNGCs) also occurred in the fibrotic meninges. Actin-label localization and transmission electron microscopy showed characteristic foam cell and MNGC podosome and ruffled border-containing sealing ring structures involved in substratum attachment, with characteristic intermediate filament accumulations surrounding nuclei. These cells co-localized with regenerating cord ependymal cell (ependymoglial) outgrowth. Phase contrast-bright droplets labeled with Oil Red O, DiI, and DyRect...
The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians varies ...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
The urodele amphibians such as the axolotl are capable of regenerating injured spinal cord throughou...
AbstractSalamanders, such as the Mexican axolotl, are some of the few vertebrates fortunate in their...
Axolotls are uniquely able to resolve spinal cord injuries, but little is known about the mechanisms...
Setting the precedent for regenerative biology, the axolotl (Ambystoma mexicanum) faithfully reconst...
AbstractRegeneration of the spinal cord occurs spontaneously in adult urodele amphibians. The key ce...
While regeneration in amphibians is a ubiquitous phenomenon, in mammals it is rare. Axolotls (Ambyst...
Retinoids play an important role in tissue patterning during development as well as in epithelial fo...
© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attributi...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
In order to further elucidate the mechanics of the retinoid pathway on Urodele spinal cord regenerat...
Regeneration in amphibians is a ubiquitous phenomenon, however, in mammals it is rare. Axolotls (Amb...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians varies ...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
The urodele amphibians such as the axolotl are capable of regenerating injured spinal cord throughou...
AbstractSalamanders, such as the Mexican axolotl, are some of the few vertebrates fortunate in their...
Axolotls are uniquely able to resolve spinal cord injuries, but little is known about the mechanisms...
Setting the precedent for regenerative biology, the axolotl (Ambystoma mexicanum) faithfully reconst...
AbstractRegeneration of the spinal cord occurs spontaneously in adult urodele amphibians. The key ce...
While regeneration in amphibians is a ubiquitous phenomenon, in mammals it is rare. Axolotls (Ambyst...
Retinoids play an important role in tissue patterning during development as well as in epithelial fo...
© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attributi...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
In order to further elucidate the mechanics of the retinoid pathway on Urodele spinal cord regenerat...
Regeneration in amphibians is a ubiquitous phenomenon, however, in mammals it is rare. Axolotls (Amb...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians varies ...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...
<p>The differentiated state of spinal cord ependymal cells in regeneration-competent amphibians vari...