For example, mutations in transporters that confer susceptibility to blockade by exogenous small molecules that have no effects on native

proteins could allow acute and reversible inhibition of transporters in astrocytes. It is worth considering some of the physical and chemical constraints screening assay for functional hyperemia. First and foremost, since neurovascular coupling is spatially confined, the molecular signals need to be generated and communicated locally. Therefore, it is important to determine the range of integration and range of influence of astrocytes, especially since astrocytes are extensively coupled through gap junctions (Haydon, 2001). Second, even if the vasoactive signals are generated locally, they may spread far if they diffuse rapidly and have a long lifetime—these LY2109761 research buy parameters need to be measured for molecules such as NO and ions such as potassium. Third, affecting blood vessels in one place may affect the perfusion nonlocally because of vascular connectivity and passive redistribution of blood (Boas et al., 2008). These considerations have been recognized for some time but are not

always attended to in molecular and cellular studies. Finally, the same messenger might have different or even opposing effects on blood flow (Attwell et al., 2010). Another open issue is related to the spatial “reach” of astrocytes. Cortical astrocytes are organized into nonoverlapping functional domains (Halassa et al., 2007) (Figure 2C). On the input side, a single

cortical astrocyte can, in principle, listen to tens of thousands of synapses by virtue of its extensive processes (Haydon, 2001), but it is unclear how many synapses are MycoClean Mycoplasma Removal Kit needed to activate an astrocyte. Recent in vivo experiments in visual cortex indicate that astrocytes respond to visual stimulation with calcium rises with exquisite selectivity, suggesting that their “input” field may be highly selective (Schummers et al., 2008). Selective astrocytic responses were also found in slice experiments in barrel cortex (Schipke et al., 2008). On the other hand, what is the spatial extent of a single astrocyte’s output? In theory, the organization of astrocytes into separate domains may contribute to the spatial distribution of the CBF response (Iadecola and Nedergaard, 2007). However, the input and output selectivity may not be limited by the spatial extent of a single astrocyte’s processes, since extensive gap junction coupling of astrocytes may extend the range substantially by allowing intercellular transfer of signaling molecules (Haydon, 2001 and Scemes and Giaume, 2006). The degree of astrocyte coupling may also be regulated to make network topology modifiable. The extent of astrocyte coupling in vivo is unclear. One signaling event that has been observed to propagate across astrocytes is a rise in calcium concentration. Calcium waves spreading across multiple astrocytes were imaged more than two decades ago in vitro (Cornell-Bell et al.