The effects of pressure on the water permeability of the descending limb of Henle's loops of rabbits

Abstract

Descending limbs of Henle's loops from rabbits were perfused in vitro. Using techniques where the collecting pipets permitted cannulation of the tubule, we were able to maintain reasonable flow rates at lower perfusion reservoir heights than are required with a conventional “Sylgard seal” pipet. The bath was either isosmotic to the perfusate, or was made 300 mOsm hyperosmotic using urea. Net water reabsorption did not occur in tubules perfused at low pressure (average reservoir height = 26 cm H₂O) even when the bath was hyperosmotic: ΔJ _v =−0.06 ±0.18 nl/min (n=7). Observed increases in sodium concentration and osmolality of collected fluid, when the bath was made hyperosmotic, were 16±8 mM (n=7) and 254±38 mOsm (n=7), respectively. Presumably the large increase in osmolality of the collected fluid was due to entrance of urea. When the “Sylgard seal” collecting end was utilized higher perfusion reservoir heights had to be used to maintain flow (mean height 66 cm H₂O). These tubules were highly permeable to water as reported by others for this tubule segment. In the presence of a hyperosmotic bath water extrusion resulted in a dramatic increase in the osmolality of the collected fluid (312 ±5 mOsm; 7 tubules) which was almost completely accounted for by an increase in sodium concentration (153±8 mmole/l; 6 tubules). The¹⁴C urea permeability (measured lumen to bath) of descending limbs in a 300 mOsm bath was 0.64 ×10⁻⁷ cm²·s⁻¹±0.23×10⁻⁷ (11 tubules). When the bath was made hyperosmotic using urea or raffinose the¹⁴C urea permeability increased significantly.