Jeralyn Sue Platt scite author profile

The HLA-G message is alternatively spliced into multiple transcripts, two of which encode soluble isoforms. To initiate studies on the specific functions of the soluble isoforms, we produced soluble rHLA-G1 (rsG1) and rsG2 in human embryonic kidney 293 cells and characterized the proteins. Both isoforms were glycosylated and formed disulfide-bonded oligomers. Recombinant sG1 associated with β2-microglobulin, whereas rsG2 did not. Mouse mAb generated to rsG1 (1-2C3), which identified exclusively sG1, and mAb generated to rsG2 (26-2H11), which identified both soluble and membrane G2 (m/sG2), were used for immunohistochemical isoform mapping studies on placental tissue sections. Soluble G1 protein was abundant in many subpopulations of trophoblast cells, whereas m/sG2 protein was present exclusively in extravillous cytotrophoblast cells. Although both isolated placental villous cytotrophoblast cells and chorion membrane extravillous cytotrophoblast cells contained mRNAs encoding sG1 and sG2, protein expression was as predicted from the immunostains with m/sG2 present only in the invasive trophoblast subpopulation. Analysis of function by Northern and Western blotting demonstrated that both rsG1 and rsG2 inhibit CD8α expression on PBMC without changing CD3δ expression or causing apoptotic cell death. Collectively, the studies indicate that: 1) both sG1 and m/sG2 are produced in placentas; 2) transcription and translation are linked for sG1, but not G2; 3) expression of G2 is exclusively associated with the invasive phenotype; and 4) the two isoforms of sG may promote semiallogeneic pregnancy by reducing expression of CD8, a molecule required for functional activation of CTL.

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Synthesis of β₂‐microglobulin‐free, disulphide‐linked HLA‐G5 homodimers in human placental villous cytotrophoblast cells

Morales

Pace

Platt

et al. 2007

Immunology

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Summary Human leucocyte antigen‐G (HLA‐G) is a natural immunosuppressant produced in human placentas that binds differently to the inhibitory leucocyte immunoglobulin‐like receptors LILRB1 (ILT2) and LILRB2 (ILT4) according to its biochemical structure. To predict the binding functions of the HLA‐G5 soluble isoform synthesized in placental villous cytotrophoblast (vCTB) cells, we investigated structural features of this protein. Biochemical and immunological studies showed that vCTB cell HLA‐G5 heavy (H)‐chain proteins are disulphide‐bonded homodimers unassociated with β2‐microglobulin (β2m) light‐chain proteins. Although comparatively low levels of β2m messenger RNA (mRNA) were identified by real‐time reverse transcription–polymerase chain reaction, immunoprecipitation studies failed to detect β2m protein even when specific mRNA was doubled by transduction of a lentivirus‐β2m complementary DNA into vCTB cells. No abnormalities were identified in the translational start codon of vCTB cell β2m mRNA and differentiation into syncytium did not promote β2m synthesis. The failure of vCTB cells to exhibit β2m in vitro was paralleled by a lack of detectable β2m in vCTB cells in vivo. Lack of the β2m protein could be the result of low levels of β2m transcripts or of as yet unidentified translational defects. Experiments with recombinant ectodomains of LILRB indicate that β2m‐free HLA‐G binds strongly to LILRB2, a receptor that is expressed by macrophages. This potentially immunosuppressive cell type is abundant in the pregnant uterus. Thus, our findings are consistent with the postulate that the natural β2m‐free homodimeric form of HLA‐G5 synthesized in primary vCTB cells could comprise a particularly effective tolerogenic molecule at the maternal–fetal interface.

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Interferon-γ gene expression in cycling and pregnant mouse uterus: temporal aspects and cellular localization

Platt

Hunt

1998

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Female steroid hormones regulate production of pro-inflammatory molecules in uterine leukocytes

Hunt

Miller

Roby

et al. 1997

Journal of Reproductive Immunology

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Hormonal Regulation of Uterine Macrophages

Hunt

Miller

Platt

1998

Developmental Immunology

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Macrophages are major cellular inhabitants of cycling and pregnant mammalian uteri. Their densities and patterns of tissue distribution in this organ fluctuate in concert with levels of circulating female sex steroid hormones, estrogens and progesterone, and their production of various effector molecules also may be hormonally regulated. Hormonal control may be achieved by direct binding to receptors or by indirect pathways where hormones modulate production of various autocrine and paracrine cytokines and growth factors that then target to resident macrophages and influence their secretory profiles. In this paper, we marshall evidence supporting the concept that progesterone acts as a powerful negative regulator of these versatile cells, reducing their migration into the uterus and impairing their ability to produce potent effector molecules such as nitric oxide that could interfere with the success of pregnancy.

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Signaling Pathways for B Cell-Activating Factor (BAFF) and a Proliferation-Inducing Ligand (APRIL) in Human Placenta

Langat

Wheaton

Platt

et al. 2008

The American Journal of Pathology

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The tumor necrosis superfamily (TNFSF) contains two soluble ligands that are involved in B lymphocyte development, BAFF (B cell activating factor, BlyS, TALL-1, CD257, TNFSF13B) and APRIL (a proliferation inducing ligand, CD256, TNFSF13). These two ligands signal through three receptors: the exclusive BAFF receptor (BAFF-R, CD268, TNFRSF17) and two receptors that recognize both BAFF and APRIL, TACI (transmembraneactivator-1 and calcium-modulator-and cyclophilin ligand-interactor CD267, TNFRSF13B) and BCMA (B cell maturation antigen, CD269, TNFRSF13C). All but BAFF-R are known to be synthesized in term placentas. In this study, expression of the ligands and receptors were distinguished in two embryologically discrete subpopulations of placental cells, villous cytotrophoblast (vCTB) cells and mesenchymal cells (MCs). Real-Time PCR showed that vCTB cells contain low levels of BAFF and APRIL transcripts whereas MCs contain high levels. Both Real-Time PCR and immunohistochemistry identified BAFF-R and BCMA mRNA and proteins in vCTB cells but essentially no TACI. By contrast, MCs contained readily detectable levels of all three receptors. These results illustrating potential autocrine and paracrine pathways for BAFF and APRIL signaling in human placentas suggest that lineage-specific regulation of placental cell viability, differentiation and/or other activities may be novel functions of these proteins. (Am J Pathol

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A de novo interstitial deletion of 15(q21.2q22.1) in a moderately retarded adult male.

Martín¹,

Platt²,

Tawn³

et al. 1990

Journal of Medical Genetics

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By the age of 5 years a developmental age of 3 years had been attained and he attended a school for the educationally subnormal. Apart from strabismus, vision was normal, as was his hearing. He grew on the 10th centile for height and the 25th centile for weight with persistent mild truncal obesity. Head circumference was normal (90th centile). A disproportionate delay in emotional development was noted with frequent crying and occasional aggressive outbursts.

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Novel HLA-G-Binding Leukocyte Immunoglobulin-Like Receptor (LILR) Expression Patterns in Human Placentas and Umbilical Cords

et al. 2008

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Human placentas are sources of cytokines, hormones and other substances that program receptive cells. One of these substances is HLA-G, which influences the functioning of both leukocytes and endothelial cells. In this study we investigated the possibility that these and/or other types of cells in extraembryonic fetal tissues might respond to HLA-G by interacting with one or another of the leukocyte immunoglobulin-like receptors (LILR). LILRB1 is expressed by most leukocytes and LILRB2 is expressed primarily by monocytes, macrophages and dendritic cells. Analysis of term placentas by immunohistochemistry and Real Time PCR demonstrated that LILRB1 and LILRB2 protein and specific messages are produced in the mesenchyme of term villous placenta but are differently localized. LILRB1 was abundant in stromal cells and LILRB2 was prominent perivascularly. Neither receptor was identified in trophoblast. Further investigation using double label immunofluorescence indicated that placental vascular smooth muscle but not endothelia exhibit LILRB2. Term umbilical cord exhibited the same LILRB2 patterns as term placenta. Samples obtained by laser capture dissection of vascular smooth muscle in umbilical cords demonstrated LILRB2 mRNA, and double labeling immunofluorescence showed that cord vascular smooth muscle but not endothelium exhibited LILRB2 protein. The presence of LILRB1 in placental stromal cells and LILRB2 in vascular smooth muscle strongly suggest that HLA-G has novel functions in these tissues that could include regulation of placental immunity as well as development and function of the extraembryonic vasculature.

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