Nicos A. Nicola scite author profile

Embryonic stem (ES) cells, the totipotent outgrowths of blastocysts, can be cultured and manipulated in vitro and then returned to the embryonic environment where they develop normally and can contribute to all cell lineages. Maintenance of the stem-cell phenotype in vitro requires the presence of a feeder layer of fibroblasts or of a soluble factor, differentiation inhibitory activity (DIA) produced by a number of sources; in the absence of DIA the ES cells differentiate into a wide variety of cell types. We recently noted several similarities between partially purified DIA and a haemopoietic regulator, myeloid leukaemia inhibitory factor (LIF), a molecule which induces differentiation in M1 myeloid leukaemic cells and which we have recently purified, cloned and characterized. We demonstrate here that purified, recombinant LIF can substitute for DIA in the maintenance of totipotent ES cell lines that retain the potential to form chimaeric mice.

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The molecular basis of JAK/STAT inhibition by SOCS1

Liau

et al. 2018

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The SOCS family of proteins are negative-feedback inhibitors of signalling induced by cytokines that act via the JAK/STAT pathway. SOCS proteins can act as ubiquitin ligases by recruiting Cullin5 to ubiquitinate signalling components; however, SOCS1, the most potent member of the family, can also inhibit JAK directly. Here we determine the structural basis of both these modes of inhibition. Due to alterations within the SOCS box domain, SOCS1 has a compromised ability to recruit Cullin5; however, it is a direct, potent and selective inhibitor of JAK catalytic activity. The kinase inhibitory region of SOCS1 targets the substrate binding groove of JAK with high specificity and thereby blocks any subsequent phosphorylation. SOCS1 is a potent inhibitor of the interferon gamma (IFNγ) pathway, however, it does not bind the IFNγ receptor, making its mode-of-action distinct from SOCS3. These findings reveal the mechanism used by SOCS1 to inhibit signalling by inflammatory cytokines.

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Expression cloning of a receptor for human granulocyte-macrophage colony-stimulating factor.

Gearing¹,

King²,

Gough³

et al. 1989

The EMBO Journal

682

326

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Two cDNA clones encoding a receptor for human granulocyte‐macrophage colony‐stimulating factor (hGM‐CSF‐R) were isolated by expression screening of a library made from human placental mRNA. Pools of recombinant plasmid DNA were electroporated into COS cells which were then screened for their capacity to bind radioiodinated hGM‐CSF using a sensitive microscopic autoradiographic approach. The cloned GM‐CSF‐R precursor is a 400 amino acid polypeptide (Mr 45,000) with a single transmembrane domain, a glycosylated extracellular domain and a short (54 amino acids) intracytoplasmic tail. It does not contain a tyrosine kinase domain nor show homology with members of the immunoglobulin super gene family, but does show some significant sequence homologies with receptors for several other haemopoietic growth factors, including those for interleukin‐6, erythropoietin and interleukin‐2 (beta‐chain) and also to the prolactin receptor. When transfected into COS cells the cloned cDNA directed the expression of a GM‐CSF‐R showing a single class of affinity (KD = 2(‐8) nM) and specificity for human GM‐CSF but not interleukin‐3. Messenger RNA coding for this receptor was detected in a variety of haemopoietic cells known to display hGM‐CSF binding, and cross‐linking experiments revealed a similar size for the glycosylated receptors in transfected COS and haemopoietic cells.

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Nicos A. Nicola

Myeloid leukaemia inhibitory factor maintains the developmental potential of embryonic stem cells

The molecular basis of JAK/STAT inhibition by SOCS1

Expression cloning of a receptor for human granulocyte-macrophage colony-stimulating factor.

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