C. V. Harrison scite author profile

MRP14 (macrophage migration-inhibitory factor-related protein of molecular mass 14 kDa) is an S100 calcium binding protein constitutively expressed in human neutrophils which may be associated with cellular activation/inflammation. Murine MRP14 expression was up-regulated following concanavalin A activation of spleen cells, and the protein was isolated from conditioned medium in high yield (approx. 500 ng/ml). MRP14 had a mass of 12972 +/- 2 Da by electrospray ionization MS, whereas the theoretical mass derived from the cDNA sequence, after removal of the initiator Met, was 12918 Da, suggesting that the protein was post-translationally modified. We identified four post-translational modifications of MRP14: removal of the N-terminal Met, N-terminal acetylation, disulphide bond formation between Cys79 and Cys90, and 1-methylation of His106; the calculated mass was then 12971.8 Da. Methylation of His106 was further characterized after incubation of spleen cells with L-[methyl-3H]Met during concanavalin A stimulation. Sequential analysis of a peptide (obtained by digestion with Lys C) containing methylated His indicated that > 80% of the label in the cycle corresponded to His106, suggesting that the methyl residue was transferred from S-adenosyl-L-methionine. Comparison of the C18 reverse-phase HPLC retention times of phenylthiocarbamoyl derivatives of a hydrolysed digest peptide of MRP14 with those of standards confirmed methyl substitution on the 1-position of the imidazole ring. MRP14 bound more 85Zn2+ than the same amounts of the 10 kDa chemotactic protein (CP10) or S100 beta. Ca2+ decreased Zn2+ binding in S100 beta but it did not influence binding to MRP14, suggesting that the Zn2+ binding site was distinct from and independent of the two Ca2+ binding domains.

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A distinct cohort of the TGFβ superfamily members expressed in human endometrium regulate decidualization

Stoikos

Harrison

Salamonsen

et al. 2008

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BACKGROUNDSuccessful blastocyst implantation requires the differentiation of human endometrial stromal cells (HESC), a process known as decidualization. Activin A, a transforming growth factor β (TGFβ) superfamily member, enhances HESC decidualization and localizes to decidual cells in human endometrium. Other TGFβ superfamily members, including BMP2, BMP4, BMP7, GDF5, GDF8, GDF11, TGFβs and Nodal, may also play a role during decidualization. This study aimed to identify these TGFβ family members in human endometrium, and to determine whether they are involved in human decidualization.METHODSProtein localization of TGFβ family members was examined in secretory phase human endometrium and first trimester decidua by immunohistochemistry. mRNA expression was examined in HESC. Activin inhibitors (Activin-M108A/SB431542) with differing specificities for the other TGFβ members under consideration were applied during HESC decidualization in vitro. The secretion levels of potential TGFβ superfamily members were measured during decidualization, and recombinant proteins added to examine their effect.RESULTSThis study has identified BMP2, BMP4, BMP7, GDF5, GDF8 and GDF11 but not Nodal in secretory phase human endometrium, but only BMP2, GDF5 and TGFβ1 protein were detected in decidual cells. All ligands except Nodal were expressed by cultured HESC. Both inhibitors significantly reduced decidualization validating the role of activin, but potentially also other TGFβ members, during decidualization. BMP2 and TGFβ1 secretion increased during HESC decidualisation and exogenous administration of these proteins significantly enhanced decidualization in vitro.CONCLUSIONSLike activin, BMP2 and TGFβ1 are likely to be involved in HESC decidualization. This is the first study to identify and localize BMP4, BMP7, GDF5, GDF8 and GDF11 in secretory phase human endometrium. Understanding the factors critical for the implantation process is needed for improving fertility and pregnancy outcomes.

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Structure of AMH bound to AMHR2 provides insight into a unique signaling pair in the TGF-β family

Hart

Stocker

Nagykery

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Anti-Müllerian hormone (AMH), or Müllerian-inhibiting substance, is a protein hormone that promotes Müllerian duct regression during male fetal sexual differentiation and regulation of folliculogenesis in women. AMH is a member of the transforming growth factor beta (TGF-β) family, which has evolved to signal through its own dedicated type II receptor, AMH receptor type II (AMHR2). Structures of other TGF-β family members have revealed how ligands infer specificity for their cognate receptors; however, it is unknown how AMH binds AMHR2 at the molecular level. Therefore, in this study, we solved the X-ray crystal structure of AMH bound to the extracellular domain of AMHR2 to a resolution of 2.6Å. The structure reveals that while AMH binds AMHR2 in a similar location to Activin and BMP ligand binding to their type II receptors, differences in both AMH and AMHR2 account for a highly specific interaction. Furthermore, using an AMH responsive cell-based luciferase assay, we show that a conformation in finger 1 of AMHR2 and a salt bridge formed by K534 on AMH and D81/E84 of AMHR2 are key to the AMH/AMHR2 interaction. Overall, our study highlights how AMH engages AMHR2 using a modified paradigm of receptor binding facilitated by modifications to the three-finger toxin fold of AMHR2. Furthermore, understanding these elements contributing to the specificity of binding will help in the design of agonists or antagonists or the selection of antibody therapies.

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Growth Differentiation Factor 9 Is a Germ Cell Regulator of Sertoli Cell Function

Nicholls

Harrison

Gilchrist

et al. 2008

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Oocyte-secreted growth differentiation factor (GDF) 9 and bone morphogenetic protein (BMP) 15 are critical regulatory factors in female reproduction. Together, they promote granulosa cell proliferation and stimulate the maturation of preovulatory follicles. Despite their importance in female fertility, GDF9 and BMP15 expression patterns and function during spermatogenesis have not been investigated. In this study we show that the expression and stage-specific localization of both factors are limited to the germ cells of the rat seminiferous epithelium, with GDF9 being principally localized in round spermatids and BMP15 in gonocytes and pachytene spermatocytes. To identify potential cellular targets for GDF9 actions, cells of the seminiferous tubule were isolated and screened for the expression of signaling receptors [activin-like kinase (ALK) 5, ALK6, and BMP receptor, type II)]. Individual receptor types were expressed throughout the seminiferous epithelium, but coexpression of ALK5 and BMP receptor, type II was limited to Sertoli cells and round spermatids. Based on the reproductive actions of related TGFbeta ligands in the ovary and testis, GDF9 was assessed for its ability to regulate tight junction function and inhibin B production in rat Sertoli cell cultures. When recombinant mouse GDF9 was added to immature Sertoli cell cultures, it inhibited membrane localization of the junctional proteins claudin-11, occludin, and zonula occludens-1, thereby disrupting tight junction integrity. Concomitantly, GDF9 up-regulated inhibin subunit expression and significantly stimulated dimeric inhibin B protein production. Together, these results demonstrate that GDF9 and BMP15 are germ cell-specific factors in the rat testis, and that GDF9 can modulate key Sertoli cell functions.

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Active `juvenile' cirrhosis considered as part of a systemic disease and the effect of corticosteroid therapy

Read¹,

Sherlock²,

Harrison³

1963

Gut

202

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EDITORIAL SYNOPSIS This is a clinical study of 81 patients (32 male and 49 female), who are not alcoholics, with jaundice of hepato-cellular type lasting longer than three months. Forty-nine of these patients were under 21 years of age. The natural history of the condition and the response to corticosteroid therapy is described; good symptomatic relief can be achieved with corticosteroids but they do not seem to prolong life. The aetiology is discussed with special reference to the relationship to viral hepatitis, to systemic lupus erythematosus, and to other disturbances of immunity.

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C. V. Harrison

Isolation of the murine S100 protein MRP14 (14 kDa migration-inhibitory-factor-related protein) from activated spleen cells: characterization of post-translational modifications and zinc binding

A distinct cohort of the TGFβ superfamily members expressed in human endometrium regulate decidualization

Structure of AMH bound to AMHR2 provides insight into a unique signaling pair in the TGF-β family

Growth Differentiation Factor 9 Is a Germ Cell Regulator of Sertoli Cell Function

Active `juvenile' cirrhosis considered as part of a systemic disease and the effect of corticosteroid therapy

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