Microglial control of neuronal death and synaptic properties

An understanding of the role of microglial cells in synaptic signaling is still elusive, but the neuronmicroglia relationship may have important ramifications for brain plasticity and injury. This review summarizes current knowledge and theories concerning microglial-neuronal signaling, both in term

## Abstract The primary function of neurons is to integrate synaptic inputs and to transmit the results to other cells. It was shown previously that separate excitatory inputs to hippocampal pyramidal neurons are summated nonlinearly. In the hippocampus, responses of pyramidal neurons are influence

## Abstract We have shown that prothrombin kringle‐2 (pKr‐2), a domain of human prothrombin distinct from thrombin could activate cultured rat brain microglia in vitro. However, little is known whether pKr‐2‐induced microglial activation could cause neurotoxicity on dopaminergic (DA) neurons in viv

A common theme of diverse neural systems is that circuits that are important for initial acquisition of learning do not necessarily serve as a substrate for the long-term storage of that memory. The neural basis of vocal learning in songbirds provides an example of this phenomenon, since a circuit t

## Abstract Microglia are the resident tissue macrophages of the central nervous system (CNS) parenchyma and are key players in the initiation of an inflammatory response. Microglia rapidly transform from a resting to an activated morphology in response to a variety of disease states. However, they

Our view of glial function has undergone dramatic changes in recent years. For much of the past century, glial cells were believed to have little influence on neuronal responses. Glia were thought to provide structural and metabolic support to neurons, but not to interact actively with them. Recent