SummaryA novel CC chemokine, HCC-1, was isolated from the hemoflhrate of patients with chronic renal failure. HCC-1 has a relative molecular mass of 8,673 and consists of 74 amino acids including four cysteines linked to disulfide bonds. HCC-1 cDNA was cloned from human bone marrow and shown to code for the mature protein plus a putative 19-residue leader sequence. Mature HCC-1 has sequence identity of 46% with macrophage inflammatory protein (MIP)-lc~ and MIP-][3, and 29-37% with the other human CC chemokines. Unlike MIP-I~x and the other CC chemokines, HCC-1 is expressed constitutively in several normal tissues (spleen, liver, skeletal and heart muscle, gut, and bone marrow), and is present at high concentrations (1-80 nM) in plasma. HCC-1 has weak activities on human monocytes and acts via receptors that also recognize MIP-lot. It induced intracellular Ca 2+ changes and enzyme release, but no chemotaxis, at concentrations of 100-1,000 nM, and was inactive on T lymphocytes, neutrophils, and eosinophil leukocytes. In addition, HCC-1 enhanced the proliferation of CD34 + myeloid progenitor ceils. It was as effective as MIP-lci, but about 100-fold less potent.H emofittration is a routine treatment for patients with chronic renal failure to remove substances that are normally cleared by the kidney. A filter membrane with a molecular mass cut-off of 20 kD is used, which virtually excludes plasma proteins (1, 2). Being available in large quantities, the hemoflltrate is an excellent source of biologically active human peptides that circulate in the blood. During the last 5 yr, a peptide bank was established from >200,000 liters of hemofiltrate, and several peptide hormones were purified (1). During the course of a systematic search for novel bioactive factors (3), we have identified a new member of the recently recognized family of chemotactic cytokines (chemokines). HCC-1 is structurally related to macrophage inflammatory protein (MIP)-loc Unlike MIP-lo~ and the other CC chemokines, HCC-1 is highly expressed in normal tissues and is present at high concentrations in human plasma.
Materials and MethodsPurification. Peptides were extracted from batches of 2,000 liters of hemofiltrate by precipitation with 660 g/liter ammonium sulfate as described previously (2). The precipitate ("250 g) was dissolved in water (125 mg/ml). The peptides were precipitated again by addition of 4.5 vol of2-propanol, redissolved in 10 mM phosphate buffer, pH 3.0, and fractionated by cation exchange chromatography (Fractogel TSK SP-650 M, 6 • 20 cm; Merck, Darmstadt, Germany) with a 0-1.0-M NaC1 gradient in the same buffer. Fractions eluting at high salt concentrations were collected and further purified by preparative reverse-phase (lkP) HPLC (Parcosil RP C4, 300 ft,, 20-45 b~m, 3 • 12.5 cm; Biotek, Oestringen, Germany) using a gradient generated from 0.01 M HCI and 50% 2-propanol/30% methanol in 0.01 M HCI. Analytical R.P HPLC (Parcosil RP C4, 300 A, 5 btm, 1 • 12.5 cm, Biotek, Oestringen, Germany) was then performed using an acetonitrile/T...
