%A Scharfman,Helen %A Myers,Catherine %D 2013 %J Frontiers in Neural Circuits %C %F %G English %K Dentate Gyrus,hilus,mossy fiber,interneuron,Hippocampus,area CA3,Vulnerability %Q %R 10.3389/fncir.2012.00106 %W %L %M %P %7 %8 2013-January-09 %9 Review %+ Dr Helen Scharfman,New York University Langone Medical Center,New York,NY,United States,hscharfman@nki.rfmh.org %+ Dr Helen Scharfman,The Nathan Kline Institute,Orangeburg,NY,United States,hscharfman@nki.rfmh.org %# %! Hilar Mossy Cells %* %< %T Hilar mossy cells of the dentate gyrus: a historical perspective %U https://www.frontiersin.org/articles/10.3389/fncir.2012.00106 %V 6 %0 JOURNAL ARTICLE %@ 1662-5110 %X The circuitry of the dentate gyrus (DG) of the hippocampus is unique compared to other hippocampal subfields because there are two glutamatergic principal cells instead of one: granule cells, which are the vast majority of the cells in the DG, and the so-called “mossy cells.” The distinctive appearance of mossy cells, the extensive divergence of their axons, and their vulnerability to excitotoxicity relative to granule cells has led to a great deal of interest in mossy cells. Nevertheless, there is no consensus about the normal functions of mossy cells and the implications of their vulnerability. There even seems to be some ambiguity about exactly what mossy cells are. Here we review initial studies of mossy cells, characteristics that define them, and suggest a practical definition to allow investigators to distinguish mossy cells from other hilar neurons even if all morphological and physiological information is unavailable due to technical limitations of their experiments. In addition, hypotheses are discussed about the role of mossy cells in the DG network, reasons for their vulnerability and their implications for disease.