Analysis of microglial influence on motor neuron death in an in vitro model of amyotrophic lateral sclerosis using SOD1 transgenic mice

Amyotrophic Lateral Sclerosis (ALS) is a progressive degenerative disorder affecting motoneurons and leading the patient to death.The cause of motor neurons degeneration in ALS is uncertain and there is any treatment able to prolong the patient life. Recent studies show that microglia could participate of the process of ALS degeneration. Its activation is linked to the disbalance of neuroprotective and neurotoxic action. To investigate the microglia role in ALS, SOD1G93A transgenic mice that develop symptoms similar to the clinical disease were used. We evaluated the neuronal death and trophism in microglia/neuron co-cultures system and in microglial conditioned medium effect under the neurons. Neurons and microglia were extracted from transgenicor wild type mice spinal cord. Microglia was obtained from 1 day pos natal pups and adult onset of disease mice. Cells were stained with a specific marker to neuronal death. Neuronal extensions area and neuronal death was quantified by stereological method. The genic expression of candidate molecules related to degeneration in ALS was quantified by real time PCR and the release of some molecules were quantified by ELISA sandwich. Results showed that maybe transgenic neonatal microglia is not able to increase the neuronal death through releasing molecules in its conditionated medium, on the other hand when transgenic microglia was co-cultured with any kind of neuron, neuronal death was observed. Microglia from adult transgenic mice was not able to promote a neuroprotection compared to wild type in co-culture and conditionated medium experiments. In addition to this, was observed increased tumor necrosis factor alpha, interleukin 6 and nerve growth factor secretion by transgenic microglia. Neonatal transgenic microglia also exhibited reduced genic expression of AKAP13, HIPK3, UBE2I and NTF5. These findings at an early stage suggest a lost of migration potential, lost of apoptosis resistance, disbalance of proliferation and cell death and reduction of neuronal trophic support. So together, these data indicate the involvement of microglia in ALS mechanisms (AU)