Rs. Warlow et al., PURIFICATION OF HISTAMINE-RECEPTOR PROTEINS FROM DETERGENT-SOLUBILIZED HUMAN PERIPHERAL-BLOOD MONONUCLEAR-CELLS, Biochemistry, 33(16), 1994, pp. 4800-4811
Histamine is released from mast cells and basophils by either immunolo
gical or nonimmunological mechanisms. Histamine, which is the most pot
ent short acting mediator released from these cells, exerts its divers
e biological actions by binding to cell surface histamine receptors. W
e report the affinity purification of histamine receptor proteins from
Triton X-100 solubilized peripheral human blood mononuclear cells whi
ch include lymphocytes and monocytes. Three different designs of hista
mine affinity columns were constructed; all three resulted in the same
material being eluted. This consisted of bands which on SDS-PAGE afte
r boiling and reduction had the following molecular weights: 193K, 84K
, 58K, 48K, 37K, and 16K. The most abundant bands were of molecular we
ights 193K, 48K, and 16K, and these were disulfide bonded together to
form a high molecular weight complex. (The 58K band was present in low
er amounts than the others, and in only a few fractions. It had the sa
me molecular weight as the dimeric form of histamine methyltransferase
which is present in small amounts in mononuclear cells and may theref
ore have copurified.) The histamine binding proteins described in this
report were purified by conventional affinity chromatography, rather
than by an expression cloning approach which obviates the use of any p
rotein chemistry. Consequently, we had the advantage of being able to
verify the histamine binding specificity of our purified proteins dire
ctly and with several independent assays as follows. The histamine bin
ding specificity of all three columns was established by specific elut
ion with histamine, by preabsorption of crude cell extract with excess
free histamine prior to column application, and by comparison with co
ntrol columns. Independent determination of the binding specificity, u
sing a radioreceptor dot blot assay, of the eluate containing only the
193K, 48K, and 16K disulfide-linked subunits confirmed that the purif
ied material bound specifically to H-3 histamine and that a 300-500-
fold degree of purification from tissue extract had been obtained. Fol
lowing cell surface radioreceptor cross-linking of radiolabeled histam
ine to intact mononuclear cells, the 16K band was detected, indicating
it to be the ligand-binding subunit for histamine. These same three p
roteins were purified from T lymphocyte and monocytoid cell lines, ind
icating that both lymphocyte and monocyte subsets of mononuclear cells
express these proteins. The trimolecular structure, consisting of 193
K, 48K, and 16K subunits appears to be a novel histamine cell surface
receptor protein complex as the molecular weights of the 193K, 48K, an
d 16K bands bore no relation to the predicted molecular weights of the
recently expression cloned H1 receptor gene derived from bovine adren
al and H2 receptor gene derived from human parietal cells; this may re
flect receptor heterogeneity within a tissue, between tissues, and/or
between species.