Andrea Johner scite author profile

Bioinformatic analyses have been used to identify potential downstream targets of the essential enzyme N-myristoyl transferase in the TriTryp species, Leishmania major, Trypanosoma brucei and Trypanosoma cruzi. These database searches predict ∼60 putative N-myristoylated proteins with high confidence, including both previously characterised and novel molecules. One of the latter is an N-myristoylated protein phosphatase which has high sequence similarity to the Protein Phosphatase with EF-Hand (PPEF) proteins identified in sensory cells of higher eukaryotes. In L. major and T. brucei, the PPEF-like phosphatases are encoded by single-copy genes and are constitutively expressed in all parasite life cycle stages. The N-terminus of LmPPEF is a substrate for N-myristoyl transferase and is also palmitoylated in vivo. The wild type protein has been localised to the endocytic system by immunofluorescence. The catalytic and fused C-terminal domains of the kinetoplastid and other eukaryotic PPEFs share high sequence similarity, but unlike their higher eukaryotic relatives, the C-terminal parasite EF-hand domains are degenerate and do not bind calcium.

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cAMP Signalling in the Kinetoplastid Protozoa

Seebeck¹,

Schaub

Johner

2004

CMM

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Several species of kinetoplastid protozoa cause major human infectious diseases. Trypanosoma cruzi is responsible for the fatal Chagas disease in large parts of South America, the various species of Leishmania cause a number of different human diseases with millions of patients world-wide, and the African trypanosome Trypanosoma brucei is the agent of human sleeping sickness, a disastrously re-emerging epidemic of fatal infections in Sub-Saharan Africa. Chemotherapy of all of these infections is in a very unsatisfactory state. cAMP signalling pathways in humans have provided interesting drug targets for a number of clinical conditions, from asthma to impotency. Similarly, cAMP signalling in kinetoplastids might offer useful targets for the development of novel antiparasitic drugs, which makes their exploration an urgent need. Current knowledge suggests that cAMP signalling proceeds along very similar pathways in all kinetoplastid pathogens (T. cruzi, the Leishmanias and T. brucei). Their adenylyl cyclases are structurally very different from the human enzymes and appear to function as enzyme-linked cell surface receptors. They might represent the major sensory apparatus of the kinetoplastids, guiding much of their environmental sensing and host/parasite interaction. The cAMP-specific phosphodiesterases of the kinetoplastids are rather similar to those of human cells and might function in similar ways. Essentially nothing is known on downstream effectors of cAMP in the kinetoplastids. Homologues of protein kinase A and its regulatory subunits have been identified, but their biochemical properties seem to be disctinct from that of mammalian protein kinase A.

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Cyclic nucleotide specific phosphodiesterases of the kinetoplastida: A unified nomenclature

Kunz

Beavo

D’Angelo

et al. 2006

Molecular and Biochemical Parasitology

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Characterization of two genes of the polydnavirus of Chelonus inanitus and their stage-specific expression in the host Spodoptera littoralis

Johner

Lanzrein

2002

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Presence of polydnavirus transcripts in an egg-larval parasitoid and its lepidopterous host.

Johner¹,

Stettler²,

Gruber³

et al. 1999

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The parasitoid Chelonus inanitus (Braconidae, Hymenoptera) oviposits into eggs of Spodoptera littoralis (Noctuidae, Lepidoptera) and, along with the egg, also injects polydnaviruses and venom, which are prerequisites for successful parasitoid development. The parasitoid larva develops within the embryonic and larval stages of the host, which enters metamorphosis precociously and arrests development in the prepupal stage. Polydnaviruses are responsible for the developmental arrest and interfere with the host's endocrine system in the last larval instar. Polydnaviruses have a segmented genome and are transmitted as a provirus integrated in the wasp's genome. Virions are only formed in female wasps and no virus replication is seen in the parasitized host. Here it is shown that very small amounts of viral transcripts were found in parasitized eggs and early larval instars of S. littoralis. Later on, transcript quantities increased and were highest in the late last larval instar for two of the three viral segments tested and in the penultimate to early last larval instar for the third segment. These are the first data on the occurrence of viral transcripts in the host of an egg-larval parasitoid and they are different from data reported for hosts of larval parasitoids, where transcript levels are already high shortly after parasitization. The analysis of three open reading frames by RT-PCR revealed viral transcripts in parasitized S. littoralis and in female pupae of C. inanitus, indicating the absence of host specificity. For one open reading frame, transcripts were also seen in male pupae, suggesting transcription from integrated viral DNA.

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Andrea Johner

Kinetoplastid PPEF phosphatases: Dual acylated proteins expressed in the endomembrane system of Leishmania

cAMP Signalling in the Kinetoplastid Protozoa

Cyclic nucleotide specific phosphodiesterases of the kinetoplastida: A unified nomenclature

Characterization of two genes of the polydnavirus of Chelonus inanitus and their stage-specific expression in the host Spodoptera littoralis

Presence of polydnavirus transcripts in an egg-larval parasitoid and its lepidopterous host.

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