Injury-induced purinergic signalling molecules upregulate pluripotency gene expression and mitotic activity of progenitor cells in the zebrafish retina

Medrano, Matías Pedro; Bejarano, Claudio Alejandro; Battista, Ariadna Gabriela; Venera, Graciela Delia; Bernabeu, Ramón; Faillace, María Paula

doi:10.1007/s11302-017-9572-5

Cited by 15 publications

(13 citation statements)

References 64 publications

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“…We observed that the injury following exposure to CoCl 2 , which targeted and killed virtually all photoreceptors, accelerated the induction and rate of progenitor proliferation activity, peaking between 72 and 96 hpl. In contrast, when the injury was caused with a single injection of ouabain (either at a low, medium or high dose), the Müller glia‐derived progenitor proliferative peak was observed at 5–7 dpl (Fimbel et al., ; Medrano et al., ; Sherpa et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…A single intravitreal injection of ouabain at low concentrations damages inner retina cells (Fimbel et al., ), whereas higher doses of ouabain provoke cell death across all retina layers, including RPE and choroid cells (Medrano et al., ; Sherpa et al., ). In contrast, injury with intense light causes photoreceptor death as the original and principal effect (Rajaram et al., ; Weber et al., ; Wu et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…Our results showed that TNFα transcriptional expression was increased by 72 hpl, supporting the idea of enhanced TNFα release and its involvement in the induction of multipotent cell proliferation, in addition to its known proinflammatory role. Nevertheless, the proliferative activity of retinal tissue might be activated by TNFα in specific zones, as well as by several other characterized extracellular signals provided by lytic photoreceptors (Battista et al., ; Lenkowski & Raymond, ; Medrano et al., ; Powell et al., ).…”

Section: Discussionmentioning

confidence: 99%

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Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

Medrano

Fuster

Sanchis

et al. 2018

Eur J of Neuroscience

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The adult zebrafish is considered a useful model for studying mechanisms involved in tissue growth and regeneration. We have characterized cytotoxic damage to the retina of adult zebrafish caused by the injection of cobalt chloride (CoCl ) into the vitreous cavity. The CoCl concentration we used primarily caused injury to photoreceptors. We observed the complete disappearance of cones, followed by rods, across the retina surface from 28 to 96 hr after CoCl injury. The loss of 30% of bipolar cells was also observed by 50 hr after lesion (hpl). CoCl injury provoked a strong induction of the proliferative activity of multipotent Müller glia and derived progenitors. The effect of CoCl on retina cells was significantly reduced by treatment with glutamate ionotropic receptor antagonists. Cone photoreceptor regeneration occurred 25 days after injury. Moreover, a single dose of CoCl induced vascular damage and regeneration, whereas three injections of CoCl administered weekly provoked neovascular-like changes 20 days after injury. CoCl injury also caused microglial reactivity in the optic disc, retina periphery and fibre layer. CoCl -induced damage enhanced pluripotency and proneural transcription factor gene expression in the mature retina 72 hpl. Tumour necrosis factor alpha, vascular endothelial growth factor (VEGF) and VEGF receptor mRNA levels were also significantly enhanced by 72 hpl. The injury paradigm we have described in this work may be useful for the discovery of signalling molecules and pathways that participate in the regenerative response and it may serve as a model to screen for compounds that could potentially treat aberrant angiogenesis.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

Medrano

Fuster

Sanchis

et al. 2018

Eur J of Neuroscience

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“…To date, there are various retinal neuronal injury paradigms used in zebrafish research. Undoubtedly, the most common of those paradigms is light-induced retinal degeneration [ 86 , 90 , 91 , 156 , 157 , 158 , 159 , 160 , 161 , 162 , 163 , 164 , 165 , 166 , 167 , 168 , 169 , 170 , 171 , 172 , 173 , 174 , 175 ], followed by chemically [ 95 , 103 , 155 , 176 , 177 , 178 , 179 , 180 , 181 , 182 , 183 , 184 , 185 , 186 ] or mechanically induced retinal damage [ 92 , 187 , 188 , 189 , 190 , 191 , 192 , 193 , 194 , 195 , 196 ]. The choice of paradigm depends on the desired outcome, for example, ouabain has a more global retinal degenerative effect (depending on concentration), while intense light exposure primarily affects the photoreceptors [ 156 , 169 ].…”

Section: Neuroprotection and Regeneration In Zebrafish Retinal Injmentioning

confidence: 99%

“…Interestingly, the extracellular nucleotide agonist, ADPβS, induced the expression of lin28a and ascl1a genes in mature regions of uninjured retinas. This gene expression was inhibited by blocking the early injury-induced activation of P2RY1, which also prevented progenitor cell proliferation [ 181 ]. Sonic hedgehog (shh) was also found to be upregulated after ouabain injury, and treating the retina with shh resulted in Müller cell hypertrophy followed by their conversion to retinal progenitor cells [ 169 ].…”

Section: Neuroprotection and Regeneration In Zebrafish Retinal Injmentioning

confidence: 99%

Neurodegeneration, Neuroprotection and Regeneration in the Zebrafish Retina

Stella

Geathers

Weber

et al. 2021

Cells

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Neurodegenerative retinal diseases, such as glaucoma and diabetic retinopathy, involve a gradual loss of neurons in the retina as the disease progresses. Central nervous system neurons are not able to regenerate in mammals, therefore, an often sought after course of treatment for neuronal loss follows a neuroprotective or regenerative strategy. Neuroprotection is the process of preserving the structure and function of the neurons that have survived a harmful insult; while regenerative approaches aim to replace or rewire the neurons and synaptic connections that were lost, or induce regrowth of damaged axons or dendrites. In order to test the neuroprotective effectiveness or the regenerative capacity of a particular agent, a robust experimental model of retinal neuronal damage is essential. Zebrafish are being used more often in this type of study because their eye structure and development is well-conserved between zebrafish and mammals. Zebrafish are robust genetic tools and are relatively inexpensive to maintain. The large array of functional and behavioral tests available in zebrafish makes them an attractive model for neuroprotection studies. Some common insults used to model retinal disease and study neuroprotection in zebrafish include intense light, chemical toxicity and mechanical damage. This review covers the existing retinal neuroprotection and regeneration literature in the zebrafish and highlights their potential for future studies.

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P2X7 and A_2A receptor endogenous activation protects against neuronal death caused by CoCl₂‐induced photoreceptor toxicity in the zebrafish retina

Medrano

Pisera‐Fuster

Bernabeu

et al. 2020

J of Comparative Neurology

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Injured retinas in mammals do not regenerate and heal with loss of function. The adult retina of zebrafish self-repairs after damage by activating cell-intrinsic mechanisms, which are regulated by extrinsic signal interactions. Among relevant regulatory extrinsic systems, purinergic signalling regulates progenitor proliferation during retinogenesis and regeneration and glia proliferation in proliferative retinopathies. ATP-activated P2X7 (P2RX7) and adenosine (P1R) receptors are involved in the progression of almost all retinopathies leading to blindness. Here, we examined P2RX7 and P1R participation in the retina regenerative response induced by photoreceptor damage caused by a specific dose of CoCl2. First, we found that treatment of uninjured retinas with a potent agonist of P2RX7 (BzATP) provoked photoreceptor damage and mitotic activation of multipotent progenitors. In CoCl2-injured retinas, blockade of endogenous extracellular ATP activity on P2RX7 caused further neurodegeneration, Müller cell gliosis, progenitor proliferation and microglia reactivity. P2RX7 inhibition in injured retinas also increased the expression of lin28a and tnfα genes, which are related to multipotent progenitor proliferation. Levels of hif1α, vegf3r and vegfaa mRNA were enhanced by blockade of P2RX7 immediately after injury, indicating hypoxic like damage and endothelial cell growth and proliferation. Complete depletion of extracellular nucleotides with an apyrase treatment strongly potentiated cell death and progenitor proliferation induced with CoCl2.Blockade of adenosine P1 and A2A receptors (A2AR) had deleterious effects and deregulated normal timing for progenitor and precursor cell proliferation following photoreceptor damage. ATP via

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Injury-induced purinergic signalling molecules upregulate pluripotency gene expression and mitotic activity of progenitor cells in the zebrafish retina

Cited by 15 publications

References 64 publications

Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

Neurodegeneration, Neuroprotection and Regeneration in the Zebrafish Retina

P2X7 and A_2A receptor endogenous activation protects against neuronal death caused by CoCl₂‐induced photoreceptor toxicity in the zebrafish retina

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Injury-induced purinergic signalling molecules upregulate pluripotency gene expression and mitotic activity of progenitor cells in the zebrafish retina

Cited by 15 publications

References 64 publications

Characterization of proliferative, glial and angiogenic responses after a CoCl2‐induced injury of photoreceptor cells in the adult zebrafish retina

Characterization of proliferative, glial and angiogenic responses after a CoCl2‐induced injury of photoreceptor cells in the adult zebrafish retina

Neurodegeneration, Neuroprotection and Regeneration in the Zebrafish Retina

P2X7 and A2A receptor endogenous activation protects against neuronal death caused by CoCl2‐induced photoreceptor toxicity in the zebrafish retina

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Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

Characterization of proliferative, glial and angiogenic responses after a CoCl₂‐induced injury of photoreceptor cells in the adult zebrafish retina

P2X7 and A_2A receptor endogenous activation protects against neuronal death caused by CoCl₂‐induced photoreceptor toxicity in the zebrafish retina