Bhj. Pannen et al., ENDOTOXIN PRETREATMENT ENHANCES PORTAL VENOUS CONTRACTILE RESPONSE TOENDOTHELIN-1, American journal of physiology. Heart and circulatory physiology, 39(1), 1996, pp. 7-15
To test whether endotoxin pretreatment modulates the portal hemodynami
c response to endothelin (ET)-1 and phenylephrine (PE), two potent vas
oconstrictors in the portal circulation of the normal liver, rats rece
ived intraperitoneal injections of Escherichia coli lipopolysaccharide
(LPS; 1 mg/kg body wt) or saline. Livers were isolated after 6 or 24
h and perfused with Krebs buffer containing 5% autologous erythrocytes
. Analyses of portal pressure-flow (P-Q) relationships and epifluoresc
ence video microscopy were performed before and after ET-1 (10(-9) M)
or PE (10(-5) M) administration. LPS pretreatment increased total port
al resistances (R(t)), zero-flow pressures (P-Q=0), and linear regress
ion slopes of P-Q relationships, and decreased the sinusoidal diameter
s (D-s) and sinusoidal volumetric flow (Q(v)). The response to ET-1 wa
s enhanced 6 and 24 h after LPS administration, leading to greater inc
reases in R(t), P-Q=0, and slope and more pronounced decreases in D-s,
red blood cell velocity (V-RBC), and Q(v). In contrast, PE effects we
re similar (P-Q=C, slope, D-s) or even attenuated (R(t), V-RBC, Q(v))
in livers from LPS-treated compared with control animals. Thus endotox
in pretreatment increased the portal contractile response to ET-1 but
not to PE. This enhanced ET-1 response appeared to occur at sinusoidal
and presinusoidal levels and may contribute to endotoxin-induced hepa
tic microcirculatory failure.