Eerik Aunin scite author profile

The development and function of the vertebrate nervous system depend on specific interactions between different cell types. Two examples of such interactions are synaptic transmission and myelination. LGI1-4 (leucine-rich glioma inactivated proteins) play important roles in these processes. They are secreted proteins consisting of an LRR (leucine-rich repeat) domain and a so-called epilepsy-associated or EPTP (epitempin) domain. Both domains are thought to function in protein–protein interactions. The first LGI gene to be identified, LGI1, was found at a chromosomal translocation breakpoint in a glioma cell line. It was subsequently found mutated in ADLTE (autosomal dominant lateral temporal (lobe) epilepsy) also referred to as ADPEAF (autosomal dominant partial epilepsy with auditory features). LGI1 protein appears to act at synapses and antibodies against LGI1 may cause the autoimmune disorder limbic encephalitis. A similar function in synaptic remodelling has been suggested for LGI2, which is mutated in canine Benign Familial Juvenile Epilepsy. LGI4 is required for proliferation of glia in the peripheral nervous system and binds to a neuronal receptor, ADAM22, to foster ensheathment and myelination of axons by Schwann cells. Thus, LGI proteins play crucial roles in nervous system development and function and their study is highly important, both to understand their biological functions and for their therapeutic potential. Here, we review our current knowledge about this important family of proteins, and the progress made towards understanding their functions.

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Gene expression analysis of melanocortin system in vitiligo

Kingo

Aunin

Karelson

et al. 2007

Journal of Dermatological Science

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Controlled human malaria infection with a clone of Plasmodium vivax with high-quality genome assembly

Minassian

Themistocleous

Silk

et al. 2021

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Controlled human malaria infection (CHMI) provides a highly informative means to investigate hostpathogen interactions and enable in vivo proof-of-concept efficacy testing of new drugs and vaccines. However, unlike Plasmodium falciparum, well-characterized P. vivax parasites that are safe and suitable for use in modern CHMI models are limited. Here, two healthy malaria-naïve UK adults with universal donor blood group were safely infected with a clone of P. vivax from Thailand by mosquito-bite CHMI.Parasitemia developed in both volunteers and, prior to treatment, each volunteer donated blood to produce a cryopreserved stabilate of infected red blood cells. Following stringent safety screening, the parasite stabilate from one of these donors ("PvW1") was thawed and used to inoculate six healthy malaria-naïve UK adults by blood-stage CHMI, at three different dilutions. Parasitemia developed in all volunteers, who were then successfully drug treated. PvW1 parasite DNA was isolated and sequenced to produce a high quality genome assembly by using a hybrid assembly method. We analysed leading vaccine candidate antigens and multigene families, including the Vivax interspersed repeat (VIR) genes of which we identified 1145 in the PvW1 genome. Our genomic analysis will guide future assessment of candidate vaccines and drugs, as well as experimental medicine studies.

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Expressional changes in the intracellular melanogenesis pathways and their possible role the pathogenesis of vitiligo

Kingo

Aunin

Karelson

et al. 2008

Journal of Dermatological Science

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MYG1, novel melanocyte related gene, has elevated expression in vitiligo

Kingo¹,

Philips²,

Aunin³

et al. 2006

Journal of Dermatological Science

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Eerik Aunin

LGI Proteins in the Nervous System

Gene expression analysis of melanocortin system in vitiligo

Controlled human malaria infection with a clone of Plasmodium vivax with high-quality genome assembly

Expressional changes in the intracellular melanogenesis pathways and their possible role the pathogenesis of vitiligo

MYG1, novel melanocyte related gene, has elevated expression in vitiligo

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