A Conserved CCAP-signaling Pathway Controlling Ecdysis in a hemimetabolous insect, Rhodnius prolixus

Lee, Do Hee

10 January 2014

In insects, ecdysis is an important feature of growth and development and is tightly controlled by a variety of neuropeptides. In holometabolous insects, crustacean cardioactive peptide (CCAP) is one of many factors that regulate ecdysis behaviours; however, not much is known about the control of ecdysis in hemimetabolous insects. In this thesis, the CCAP-signaling pathway is shown to be essential for successful ecdysis in the hemimetabolous insect, Rhodnius prolixus. The cDNA sequence of the CCAP gene has been cloned from the R. prolixus central nervous system (CNS) and the functional role of CCAP as a neuromodulator/neurotransmitter demonstrated. Specifically, the expression of RhoprCCAP in CNS neurons producing extensive CCAP-like immunoreactive processes within the neuropile indicates that CCAP plays central roles in coordination of other neurons. RhoprCCAP also acts as a neurohomone/neuromodulator released peripherally to coordinate many tissues. Thus, CCAP-like immunoreactive processes are found in neurohemal sites and also on peripheral tissues. The RhoprCCAP receptor (RhoprCCAPR) has been cloned and shown to be a G-protein coupled receptor (GPCR). RhoprCCAPR expression is observed in the CNS and certain peripheral tissues of R. prolixus. Also, CCAP stimulates hindgut contractions and increases the heartbeat rate in a dose-dependent manner. The involvement of CCAP in R. prolixus ecdysis has been investigated. Up-regulation of the RhoprCCAP transcript in the CNS and the RhoprCCAP receptor (RhoprCCAPR) transcript in the CNS and specific peripheral tissues was observed immediately prior to ecdysis. Also, decreasing staining intensity of CCAP-like immunoreactivity in neurons immediately following ecdysis indicates the release of CCAP during ecdysis. The critical importance of the CCAP-signalling pathway was further demonstrated by knockdown of the RhoprCCAP and RhoprCCAPR transcripts utilizing double stranded RNA interference. Insects with these transcripts knocked down have high mortality (up to 84%), typically at the expected time of ecdysis, or have ecdysis extremely delayed. Taken together, this thesis demonstrates that RhoprCCAP plays a crucial role in regulating ecdysis behaviours in R. prolixus, and clearly shows the conserved nature of the CCAP-signaling pathway in ecdysis for both holometabolous and hemimetabolous insects.

Rhodnius prolixus

Chagas disease

Crustacean cardioactive peptide

G-protein coupled receptor

Hemipteran

RNAi

CNS

0353

A Conserved CCAP-signaling Pathway Controlling Ecdysis in a hemimetabolous insect, Rhodnius prolixus

Lee, Do Hee

10 January 2014

In insects, ecdysis is an important feature of growth and development and is tightly controlled by a variety of neuropeptides. In holometabolous insects, crustacean cardioactive peptide (CCAP) is one of many factors that regulate ecdysis behaviours; however, not much is known about the control of ecdysis in hemimetabolous insects. In this thesis, the CCAP-signaling pathway is shown to be essential for successful ecdysis in the hemimetabolous insect, Rhodnius prolixus. The cDNA sequence of the CCAP gene has been cloned from the R. prolixus central nervous system (CNS) and the functional role of CCAP as a neuromodulator/neurotransmitter demonstrated. Specifically, the expression of RhoprCCAP in CNS neurons producing extensive CCAP-like immunoreactive processes within the neuropile indicates that CCAP plays central roles in coordination of other neurons. RhoprCCAP also acts as a neurohomone/neuromodulator released peripherally to coordinate many tissues. Thus, CCAP-like immunoreactive processes are found in neurohemal sites and also on peripheral tissues. The RhoprCCAP receptor (RhoprCCAPR) has been cloned and shown to be a G-protein coupled receptor (GPCR). RhoprCCAPR expression is observed in the CNS and certain peripheral tissues of R. prolixus. Also, CCAP stimulates hindgut contractions and increases the heartbeat rate in a dose-dependent manner. The involvement of CCAP in R. prolixus ecdysis has been investigated. Up-regulation of the RhoprCCAP transcript in the CNS and the RhoprCCAP receptor (RhoprCCAPR) transcript in the CNS and specific peripheral tissues was observed immediately prior to ecdysis. Also, decreasing staining intensity of CCAP-like immunoreactivity in neurons immediately following ecdysis indicates the release of CCAP during ecdysis. The critical importance of the CCAP-signalling pathway was further demonstrated by knockdown of the RhoprCCAP and RhoprCCAPR transcripts utilizing double stranded RNA interference. Insects with these transcripts knocked down have high mortality (up to 84%), typically at the expected time of ecdysis, or have ecdysis extremely delayed. Taken together, this thesis demonstrates that RhoprCCAP plays a crucial role in regulating ecdysis behaviours in R. prolixus, and clearly shows the conserved nature of the CCAP-signaling pathway in ecdysis for both holometabolous and hemimetabolous insects.

Rhodnius prolixus

Chagas disease

Crustacean cardioactive peptide

G-protein coupled receptor

Hemipteran

RNAi

CNS

0353