Andrew V. Muchmore scite author profile

The protein portion of the immunosuppressive glycoprotein uromodulin is identical to the Tamm-Horsfall urinary glycoprotein and is synthesized in the kidney. Evidence that the glycoproteins are the same is based on amino acid sequence identity, immunologic cross-reactivity, and tissue localization to the thick ascending limb of Henle's loop. Nucleic acid sequencing of clones for uromodulin isolated from a complementary DNA bank from human kidney predicts a protein 639 amino acids in length, including a 24--amino acid leader sequence and a cysteine-rich mature protein with eight potential glycosylation sites. Uromodulin and preparations of Tamm-Horsfall glycoprotein bind to recombinant murine interleukin-1 (rIL-1) and human rIL-1 alpha, rIL-1 beta, and recombinant tumor necrosis factor (rTNF). Uromodulin isolated from urine of pregnant women by lectin adherence is more immunosuppressive than material isolated by the original salt-precipitation protocol of Tamm and Horsfall. Immunohistologic studies demonstrate that rIL-1 and rTNF bind to the same area of the human kidney that binds to antiserum specific for uromodulin. Thus, uromodulin (Tamm-Horsfall glycoprotein) may function as a unique renal regulatory glycoprotein that specifically binds to and regulates the circulating activity of a number of potent cytokines, including IL-1 and TNF.

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Uromodulin: A Unique 85-Kilodalton Immunosuppressive Glycoprotein Isolated from Urine of Pregnant Women

Muchmore

Decker

1985

Science

188

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Crude fractions of urine from pregnant women are immunosuppressive in vitro. An 85-kilodalton immunosuppressive glycoprotein purified to homogeneity from such urine inhibited in vitro assays of human T-cell and monocyte activity at concentrations of 10(-9) to 10(-11) molar. This material was nontoxic and blocked early events required for normal T-cell proliferation in vitro. On the basis of its tissue source and its in vitro activity, the name "uromodulin" is proposed for this glycoprotein.

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Accessory cell function of human B cells. I. Production of both interleukin 1-like activity and an interleukin 1 inhibitory factor by an EBV-transformed human B cell line.

Scala¹,

Kuang²,

Hall³

et al. 1984

179

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In the present paper we report that the ROHA -9 cell line, an Epstein-Barr virus (EBV)-transformed human B cell line with accessory cell capabilities, constitutively secretes a soluble factor with the biochemical and biological characteristics of human monocyte-derived IL-1. The IL-1 derived from ROHA -9 augmented murine thymocyte proliferation and enhanced the proliferative response of human T lymphocytes to concanavalin A (Con A). The ROHA -9-derived IL-1 activity eluted from Sephacryl S-200 in two peaks, at 15- 18K and 32- 35K mol wt, eluted from DEAE-Sephacel at 50-80 and 110-130 mM NaCl, and showed charge heterogeneity with peaks at pI 7.3, 6.1, and 4.1 on isoelectrofocusing (IEF). These findings suggest that B cells may elaborate an IL-1-like activity. During the logarithmic growth of ROHA -9 cells, a inhibitory factor that inhibited the response of mouse thymocytes to IL-1 was also produced. This factor had a mol wt of 95K on Sephacryl S-200, eluted at 150 mM NaCl on DEAE-Sephacel and showed a peak of pI 4.7 on preparative IEF. The inhibitory factor appeared to be selective in its effects on IL-1 responses, since it did not inhibit the activity of IL-2 on mouse thymocytes or on the growth of the IL-2-dependent CT6 cell line. This "contra-IL-1" inhibited the response of murine thymocytes to suboptimal (1 microgram/ml) but not optimal (10 micrograms/ml) doses of Con A and the response of human peripheral blood lymphocytes to streptolysin O ( SLO ) or to alloantigens. Moreover, the factor could be absorbed by mouse thymocytes but not by CT6 cells, and such thymocytes pretreated with contra-IL-1 failed to response to IL-1. Although this inhibitor is the product of a transformed B cell line, it may be representative of regulatory substances that normally control IL-1 activities either at the extracellular or intracellular level.

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