FCAP (Feeding Circuit-Activating
Peptides) New Obesity Peptides
and Modulatory Neuropeptides
Identification and characterization of the feeding
circuit-activating peptides, a novel neuropeptide family of aplysia
We use a multidisciplinary approach to identify,
map, and characterize the bioactivity of modulatory neuropeptides
in the circuitry that generates feeding behavior in Aplysia. Matrix-assisted
laser desorption/ionization time-of-flight mass spectrometry of
the cerebral-buccal connective (CBC), a nerve containing axons
of many interneurons that control feeding behavior of Aplysia,
was used to identify neuropeptides that may participate in generation
and shaping of feeding motor programs. Using this functionally
oriented search, we identified a novel family of peptides that
we call the feeding circuit-activating peptides (FCAPs). Two peptides
with masses identical to those observed in the CBCs (molecular
weight 1387 and 1433) were purified from buccal ganglia and partially
sequenced using mass spectrometry. The amino acid sequence was
then used to clone the FCAP precursor, which encodes multiple
copies of eight different FCAPs. The two FCAPs present in highest
copy number correspond to those observed in the CBC. The distribution
of FCAP expression was mapped using Northern analysis, whole-mount
in situ hybridization, and immunocytochemistry. Consistent with
our initial findings, FCAP-immunopositive axons were observed
in the CBC. Furthermore, we found that FCAP was present in some
cerebral-buccal and buccal-cerebral interneurons. As their name
suggests, FCAPs are capable of initiating rhythmic feeding motor
programs and are the first neuropeptides with such activity in
this circuit. The actions of FCAPs suggest that these peptides
may contribute to the induction and maintenance of food-induced
arousal. FCAPs were also localized to several other neuronal systems,
suggesting that FCAPs may play a role in the regulation of multiple
behaviors.
Sweedler JV, et al. J Neurosci. 2002 Sep 1;22(17):7797-808
Two neuropeptides colocalized in a command-like
neuron use distinct mechanisms to enhance its fast synaptic connection
In many neurons more than one peptide is colocalized
with a classical neurotransmitter. The functional consequence
of such an arrangement has been rarely investigated. Here, within
the feeding circuit of Aplysia, we investigate at a single synapse
the actions of two modulatory neuropeptides that are present in
a cholinergic interneuron. In combination with previous work,
our study shows that the command-like neuron for feeding, CBI-2,
contains two neuropeptides, FCAP (feeding circuit activating peptide)
and CP2 (cerebral peptide 2). Previous studies showed that high-frequency
pre-stimulation or repeated stimulation of CBI-2 increases the
size of CBI-2 to B61/62 EPSPs and shortens the latency of firing
of neuron B61/62 in response to CBI-2 stimulation. We find that
both FCAP and CP2 mimic these two effects. The variance method
of quantal analysis indicates that FCAP increases the calculated
quantal size (q) and CP2 increases the calculated quantal content
(m) of EPSPs. Since the PSP amplitude represents the product of
q and m, the joint action of the two peptides is expected to be
cooperative. This observation suggests a possible functional implication
for multiple neuropeptides colocalized with a classical neurotransmitter
in one neuron.
Koh HY, et al. J Neurophysiol. 2003 Jul 2 [Epub ahead of print]