AI Article Synopsis
- Recent studies have focused on aquaporins and potassium channels in the central nervous system, particularly their roles in water and ion balance; however, AQP9 has been less studied compared to AQP4.
- This research marks the first examination of AQP9 in human brains and brain tumors, showing a weak presence in normal rat astrocytes and higher levels at the tumor borders in rats, but strong expression in human glioblastoma cells.
- The increase in AQP9 in glioma cells may help manage lactic acidosis by facilitating the clearance of substances like glycerol and lactate, and could play a role in the energy metabolism of gliomas and nearby neurons.
Article Abstract
Recently, many studies seen concerning the expression and distribution of aquaporins and K channels in the central nervous system, and their physiological and pathophysiologic roles in water and ion homeostasis. Whereas most data were collected on aquaporin-4 (AQP4) in astrocytes, only little attention was paid to AQP9 which is a water channel transporting glycerol, mannitol, and urea as well. This is the first study describing AQP9 in human brain and human brain tumors. For comparison, we also investigated the immunohistochemical distribution of AQP9 in the rat glioma RG2. Whereas in the normal rat brain AQP9 is only weakly expressed by astrocytes, the anti-AQP9 immunoreactivity was found to be increased at the tumor border, but not within the tumor. In contrast, in human glioblastoma, most glioma cells throughout the tumor revealed a strong anti-AQP9 immunoreactivity across the whole surface of the cell. In the discussion, the increase of the anti-AQP9 immunoreactivity in glioma cells is suggested to reflect an upregulation and to counteract the glioma-associated lactic acidosis by clearance of glycerol and lactate from the extracellular space. In addition, the increased level of AQP9 immunoreactivity could be involved in the energy metabolism of the glioma and/or surrounding neuronal cells.
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Article Synopsis
- Recent studies have focused on aquaporins and potassium channels in the central nervous system, particularly their roles in water and ion balance; however, AQP9 has been less studied compared to AQP4.
- This research marks the first examination of AQP9 in human brains and brain tumors, showing a weak presence in normal rat astrocytes and higher levels at the tumor borders in rats, but strong expression in human glioblastoma cells.
- The increase in AQP9 in glioma cells may help manage lactic acidosis by facilitating the clearance of substances like glycerol and lactate, and could play a role in the energy metabolism of gliomas and nearby neurons.
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