Brain Cleaning Cells Have Important Role in Epilepsy

MedicalResearch.com Interview with:
Amanda Sierra, PhD Research Professor and Group Leader Ramón y Cajal Fellow Achucarro Basque Center for Neuroscience Laida Bidea Bizkaia Science and Technology ParkAmanda Sierra, PhD
Research Professor and Group Leader
Ramón y Cajal Fellow
Achucarro Basque Center for Neuroscience
Laida Bidea
Bizkaia Science and Technology Park
Zamudio, Bizkaia, Spain

MedicalResearch.com: What is the background for this study? What are the main findings?

Dr. Sierra: Microglia phagocytosis of apoptotic cells is at the core of the brain regenerative response to recover the homeostasis of the brain parenchyma after damage because it prevents the spillover of toxic intracellular contents and is actively anti-inflammatory. However, while neuronal death is widespread in neurodegenerative diseases (Alzheimer´s, Parkinson´s, multiple sclerosis) and well as in ischemic and traumatic brain injuries, we have a complete lack of knowledge of the efficiency of microglial phagocytosis in the diseased brain.

In this paper we have discovered that microglia have a generalized response to apoptotic challenges: when confronted to a rise in the number of newborn cells, microglia display a combination of different strategies to boost their phagocytic output: increase the phagocytic capacity of each cell, recruit more cells to become phagocytic, or increase the total number of microglia (Abiega et al., PLoS Biol 2015). Thus, microglia have a very large potential for phagocytosis that could be summoned when needed.

To our surprise, however, in pathological conditions such as epilepsy (mouse and human), microglial phagocytosis was blocked. We have made use of the adult neurogenic cascade, where newborn cells undergo apoptosis naturally and are engulfed by “unchallenged microglia” (Sierra et al. Cell Stem Cell 2010), to establish the baseline of microglial phagocytosis efficiency. Whereas in physiological conditions microglia phagocytose over 90% of the apoptotic cells and remove them in under 1.5h, soon after the seizures it only engulfed 10% of the apoptotic cells and took up to 6h to digest them. This is the first quantification of microglial phagocytosis efficiency in the diseased mouse and human brain..

The block in phagocytosis was a rather complex phenomenon related to an impaired recognition (reduction of phagocytosis receptors) as well as impaired motility and targeting (reduced basal motility). We have also shown that the impairment is mediated at least partially by altered ATP microgradients: ATP is not only a neuro- and gliotransmitter widely released during seizures but is also a well-known “find-me” signal released by apoptotic cells. Thus, during seizures microglia became “blinded” by the neuronal hyperactivity and could not find the apoptotic cells.

In addition, we have shown that impairing phagocytosis releases the break on the inflammatory response. In fact, the impaired microglia were in a pro-inflammatory state and produced more cytokines such as tumor necrosis factor alfa (TNFa) or interleukin-1beta (IL-1b), which are well known neurotoxic and epileptogenic factors.

MedicalResearch.com: What should readers take away from your report?

Dr. Sierra: Neuronal apoptosis and microglial are tightly coupled. In physiological conditions, the high efficiency of microglial phagocytosis leads to a large underestimation of the total amount of apoptosis. In contrast, the impairment of microglial phagocytosis in epilepsy produced an increase in the number of apoptotic cells that was not due to de novo apoptosis, but to the accumulation of apoptotic cells that were already undergoing apoptosis and were not removed by microglia. Therefore, microglial phagocytosis efficiency determines the dynamics of neuronal apoptosis during development, in neurogenic niches, and in pathological conditions. We believe that the way changes in apoptosis are evaluated in brain pathological conditions should be reconsidered and that the efficiency of microglial phagocytosis should be routinely assessed.

MedicalResearch.com: What recommendations do you have for future research as a result of this study?

Dr. Sierra: Epilepsy is the fourth neurological disorder and affects 65 million people worldwide. Importantly, current treatments are merely palliative and do not cure the disease but only control seizures. Furthermore, a large percentage of patients is pharmacorresistant and many undergo surgery to remove the seizure focus (such as the hippocampus). While epilepsy is typically considered a “neuronal disease” our research shows that microglial basal functions are impaired: they are sick and need to be healed too. Thus, sick microglia must be healed. We hope our paper will push the field to a reappraisal of the role of microglia in the diseased brain and will turn around the current neurocentric approach to therapy. We believe our findings will help to develop novel therapeutical approaches based on harnessing microglial phagocytosis to accelerate tissue homeostasis and control inflammation for epilepsy patients.

MedicalResearch.com: Is there anything else you would like to add?

Dr. Sierra: I would like to stress the collaborative effort of my 3 PhD students, Oihane Abiega, Sol Beccari and Irune Diaz.

MedicalResearch.com: Thank you for your contribution to the MedicalResearch.com community.

Citation:
Neuronal Hyperactivity Disturbs ATP Microgradients, Impairs Microglial Motility, and Reduces Phagocytic Receptor Expression Triggering Apoptosis/Microglial Phagocytosis Uncoupling
Oihane Abiega ,Sol Beccari ,Irune Diaz-Aparicio ,Agnes Nadjar,
Sophie Layé,Quentin Leyrolle,Diego Gómez-Nicola,María Domercq,
Alberto Pérez-Samartín,Víctor Sánchez-Zafra,Iñaki Paris,
Jorge Valero,Julie C. Savage,

Published: May 26, 2016 http://dx.doi.org/10.1371/journal.pbio.1002466

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Last Updated on May 31, 2016 by Marie Benz MD FAAD

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