The neurotensin fragment AcNT(8-13) inhibits lowering of interstitial fluid pressure in rat trachea

Problems in physiological experimental animal models investigated with factorial design

In the present study we investigated four variables using factorial design to decide if any of these could explain the variations in the control measurements of interstitial fluid pressure (P_if) in rat trachea that were experienced. This approach requires only a fraction of the animals normally needed when studying each factor separately. P_if in tracheal tissue was measured with the servocontrolled counterpressure system using sharpened micropipettes. The measurements were performed over a period of 60 min and are presented as mean for every 15 min period. The factors investigated in the study were: three strains of female rats (Strain) two brands of diets (Food); two breeder companies (Source); and finally two batches of the same set of animals to repeat the experiment twice (Week), using a total of 48 animals. There was a highly significant effect within Strain the first week (p=0.007), but this response was not observed the second week. The interaction between Strain×Week was significant (p=0.007) while the main effects Strain or Week alone were not significant. The response pattern for Strain and Food was inconsistent for the two experimental weeks studied. These experiments made it possible for us to simultaneously test several factors and exclude these factors as the reason for the observed changes in our experiments since the experiments did not allow the conclusion that one or several of these factors could explain the variation in P_if.

Lowering of interstitial fluid pressure in rat trachea after substance P alone and in combination with calcitonin gene-related peptide

Neurogenic inflammation is mediated following a release of sensory neuropeptides including calcitonin gene-related peptide (CGRP) and substance P (SP). The release of peptides can be mediated chemically with capsaicin, or electrically by stimulation of the vagal nerve, both inducing vasodilation, plasma protein extravasation and lowering of interstitial fluid pressure (Pif) which will contribute to the enhancement of oedema formation.

AIM

Lowering of Pif has previously been demonstrated following intravenous (i.v.) treatment with CGRP, but it was not possible to demonstrate that SP had this effect under the same condition.

METHODS

Micropuncture measurements of Pif in the submucosa, without opening of the trachea, was conducted on rats anaesthetized with pentobarbital sodium (50 mg kg-1) and cardiac arrest was induced with i.v. KCl.

RESULTS

Pif in vehicle-treated animal averaged -1.7 +/- 0.4 (SD) mmHg (n = 9). Intravenous injection of SP induced significant lowering of Pif compared with control, both at low dose (0.47 nmol kg-1 body weight) with 1 min distribution time (P < 0.007, -4.2 +/- 2.3 mmHg) and at high dose with seconds of distribution time (P < 0.03, -4.2 +/- 1.6 mmHg). The same response was observed after treatment with SP co-injected with CGRP.

CONCLUSIONS

Substance P alone or in combination with CGRP is able to induce a rapid lowering of Pif showing that this peptide is a potent agent in increasing the hydrostatic driving pressure initially transporting fluid into the tissue during an acute inflammatory reaction.