Bj. Macneil et al., ACTIVATION AND SELECTIVITY OF SPLENIC SYMPATHETIC-NERVE ELECTRICAL-ACTIVITY RESPONSE TO BACTERIAL-ENDOTOXIN, American journal of physiology. Regulatory, integrative and comparative physiology, 39(1), 1996, pp. 264-270
Regulatory interactions and neuroanatomic pathways have been described
between the sympathetic nervous system and the immune system. It is n
ot clear whether these pathways are activated during immune responses
and if target specificity provides selective regulation of immune orga
ns. The present study examined whether systemic injection of endotoxin
[lipopolysaccharide (LPS)] induces sympathetic outflow to an immune o
rgan (spleen). Sympathetic nerve activity was recorded from either the
splenic or renal nerve of adult male rats after intravenous injection
s of LPS. Splenic nerve activity increased in a dose-dependent manner
up to 175% of control after injection of LPS, with an onset time of 17
.1-23.5 min. In contrast, renal nerve recordings showed a significantl
y slower onset time of 37.1-52.6 min at similar doses. In addition, sp
lenic nerve recordings of 8/8 rats responded to 10 mu g of LPS, wherea
s only 4/11 positive renal nerve responses were observed at this dose.
The magnitude of the responses of both splenic and renal nerves were
comparable. These data suggest that the splenic nerve responds to and
is more sensitive to LPS-stimulated sympathetic activation in terms of
latency and frequency of responses. Thus sympathetic outflow can be d
irected to an immune organ in response to a stimulus known to activate
the immune system.