Stromal derived growth factor-1alpha: another mediator in neural-emerging immune system through Tac1 expression in bone marrow stromal cells

Stromal cell-derived growth factor-1alpha (SDF-1alpha) is a member of the CXC chemokines and interacts with the G protein, seven-transmembrane CXCR4 receptor. SDF-1alpha acts as a chemoattractant for immune and hemopoietic cells. The Tac1 gene encodes peptides belonging to the tachykinin family with substance P being the predominant member. Both SDF-1alpha and Tac1 peptides are relevant hemopoietic regulators. This study investigated the effects of SDF-1alpha on Tac1 expression in the major hemopoietic supporting cells, the bone marrow stroma, and addresses the consequence to hemopoiesis. Reporter gene assays with the 5' flanking region of Tac1 showed a bell-shaped effect of SDF-1alpha on luciferase activity with 20 ng/ml SDF-1alpha acting as stimulator, whereas 50 and 100 ng/ml SDF-1alpha acted as inhibitors. Gel shift assays and transfection with wild-type and mutant IkappaB indicate NF-kappaB as a mediator in the repressive effects at 50 and 100 ng/ml SDF-1alpha. Northern analyses and ELISA showed correlations among reporter gene activities, mRNA (beta-preprotachykinin I), and protein levels for substance P. Of relevance is the novel finding by long-term culture-initiating cell assays that showed an indirect effect of SDF-1alpha on hemopoiesis through substance P production. The results also showed neurokinin 1 and not neurokinin 2 as the relevant receptor. Another crucial finding is that substance P does not regulate the production of SDF-1alpha in stroma. The studies indicate that SDF-1alpha levels above baseline production in bone marrow stroma induce the production of substance P to stimulate hemopoiesis. Substance P, however, does not act as autocrine stimulator to induce the production of SDF-1alpha. This study adds SDF-1alpha as a mediator within the neural-immune-hemopoietic axis.     

Proteolytic Inactivation of Substance P and Neurokinin A in the Longitudinal Muscle Layer of Guinea Pig Small Intestine

Membrane vesicles, showing a 21 +/- 2-fold enrichment in the activity of 5'-nucleotidase and a 11 +/- 4-fold enrichment in the activity of angiotensin-converting enzyme relative to homogenate, were prepared from the myenteric plexus-containing longitudinal muscle layer of guinea pig ileum. Incubation of the vesicles with substance P and neurokinin A led to degradation of the peptides, and metabolites were isolated by reverse-phase HPLC and identified by amino acid composition. Cleavages of substance P between Glu6-Phe7, Phe7-Phe8, and Gly9-Leu10 and of neurokinin A between Gly8-Leu9 were observed and could be inhibited in a dose-dependent manner by phosphoramidon, an inhibitor of neutral endopeptidase 24.11. Formation of these metabolites was not completely inhibited by this agent, indicating that a phosphoramidon-insensitive form of endopeptidase 24.11 was present in the gut. Substance P was resistant to degradation by aminopeptidases, but neurokinin A was a substrate for bestatin-sensitive aminopeptidase(s), so that the neurokinin A (3-10) fragment represented the predominant metabolite in the chromatograms. The rate of formation of all the metabolites was not inhibited by enalapril and not enhanced by an increased Cl- concentration, indicating that angiotensin-converting enzyme was unimportant in the degradation process. Degradation of neurokinin A by the vesicles (Km 30 microM; Vmax 7.2 +/- 0.8 nmol min-1 mg of protein-1) was more rapid than degradation of substance P (Km 25 microM; Vmax 4.4 +/- 0.4 nmol min-1 mg of protein-1).     

Biologic activity of the tachykinins on lamb and sheep gallbladder

In this study, we examined the activity of the tachykinins (TKs) on lamb and sheep isolated gallbladder and whether the TKs are involved in the capsaicin-induced activity in these tissues. Substance P (SP) and physalaemin (PHYS) contracted lamb gallbladder, PHYS-induced striking tachyphylaxis. This tissue was nearly insensitive to neurokinin A (NKA), neurokinin B (NKB), septide, and capsaicin. As in lamb tissues, SP and PHYS both contracted sheep gallbladder although PHYS induced no tachyphylaxis. At doses that had no effect on lamb tissue, NKA, NKB, septide, and capsaicin contracted sheep gallbladder. Our findings indicate that TK receptors differ in adult and young ovine gallbladder. The activity of PHYS on lamb gallbladder could depend on the existence of an unusual binding site, carrying one or more residues critical for the N-terminal sequence present in PHYS but not in SP.     

Peptide-containing nerve fibers in the respiratory tract of the ferret

Summary The ferret is widely used in functional and neuromorphological studies on the respiratory tract. We have examined the occurrence and distribution of peptide-containing and adrenergic nerve fibers (using dopamine--hydroxylase as a marker). Adrenergic nerve fibers and fibers storing vasoactive intestinal peptide have a widespread distribution along the entire respiratory tract. Adrenergic nerve fibers were found in the lamina propria, as well as around blood vessels and glands and in smooth muscle. Nerve fibers storing vasoactive intestinal peptide occurred in the epithelium, the lamina propria, around blood vessels and glands, and among muscle bundles. Substance P-, neurokinin A- and calcitonin gene-related peptide-containing nerve fibers predominated beneath and within the epithelium along the entire respiratory tract. Neuropeptide Y-containing nerve fibers were prominent among smooth muscle bundles and around glands. The blood vessels in the wall of the airways were richly supplied with peptidecontaining nerve fibers and adrenergic fibers. Ganglia located over the outer or dorsal surface of the tracheal wall harbored vasoactive intestinal peptide-containing nerve cell bodies. Substance P and neurokinin A invariably coexisted in the same nerve fibers. Further, coexistence of substance P/neurokinin A and calcitonin gene-related peptide was observed in the nerve fibers associated with the epithelium. Vasoactive intestinal peptide, neuropeptide Y and occasionally also substance P coexisted in the population of nerve fibers associated with blood vessels and smooth muscle. Many adrenergic nerve fibers contained neuropeptide Y.     

A biochemical analysis of topoisomerase II alpha and beta kinase activity found in HIV-1 infected cells and virus

Human topoisomerase II plays a crucial role in DNA replication and repair. It exists in two isoforms: topoisomerase II alpha (alpha) and topoisomerase II beta (beta). The alpha isoform is localized predominantly in the nucleus, while the beta isoform exhibits a reticular pattern of distribution both in the cytosol and in the nucleus. We show that both isoforms of topoisomerase II are phosphorylated in HIV infected cells and also by purified viral lysate. An analysis of the phosphorylation of topoisomerase II isoforms showed that extracts of HIV infected cells at 8 and 32 h. post-infection (p.i.) contain maximal phosphorylated topoisomerase II alpha, whereas infected cell extracts at 4 and 64 h p.i. contain maximum levels of phosphorylated topoisomerase II beta. In concurrent to phosphorylated topoisomerase II isoforms, we have also observed increased topoisomerase II alpha kinase activity after 8h p.i and topoisomerase beta kinase activity at 4 and 64 h p.i. These findings suggest that both topoisomerase II alpha and beta kinase activities play an important role in early as well as late stages of HIV-1 replication. Further analysis of purified virus showed that HIV-1 virion contained topoisomerase II isoform-specific kinase activities, which were partially isolated. One of the kinase activities of higher hydrophobicity can phosphorylate both topoisomerase II alpha and beta, while lower hydrophobic kinase could predominantly phosphorylate topoisomerase II alpha. The phosphorylation status was correlated with catalytic activity of the enzyme. Western blot analysis using phosphoamino-specific antibodies shows that both the kinase activities catalyze the phosphorylation at serine residues of topoisomerase II alpha and beta. The catalytic inhibitions by serine kinase inhibitors further suggest that the alpha and beta kinase activities associated with virus are distinctly different.     

Tachykinins Potentiate N-Methyl-D-Aspartate Responses in Acutely Isolated Neurons from the Dorsal Horn

Abstract: Substance P and neurokinin A both potentiated N -methyl- d -aspartate (NMDA)-induced currents recorded in acutely isolated neurons from the dorsal horn of the rat. To elucidate the mechanism underlying this phenomenon, we measured the effects of tachykinins and glutamate receptor agonists on [Ca²⁺]_i in these cells. Substance P, but not neurokinin A, increased [Ca²⁺]_i in a subpopulation of neurons. The increase in [Ca²⁺]_i was found to be due to Ca²⁺ influx through voltage-sensitive Ca²⁺ channels. Substance P and neurokinin A also potentiated the increase in [Ca²⁺]_i produced by NMDA, but not by α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid, kainate, or 50 m M K⁺. Phorbol esters enhanced the effects of NMDA and staurosporine inhibited the potentiation of NMDA effects by tachykinins. It is concluded that activation of protein kinase C may mediate the enhancement of NMDA effects by tachykinins in these cells. However, the effects of tachykinins on [Ca²⁺]_i can be dissociated from their effects on NMDA receptors.     

Synthesis and biological activity of substance P C-terminal hexapeptide analogues: structure-activity studies

The synthesis of six hexapeptide analogues of C-terminal Substance P fragment containing alpha, beta-dehydrophenylalanine (delta Phe) in the position 7 or 8 is described. The effect of the structural changes on the hypotensive activity and antigenic properties of analogues was compared. It was found that substitution of delta Phe in various analogues of C-terminal hexapeptide of Substance P resulted in different effects on the hypotensive activity. The analogues [Glp6, delta Phe7]SP6-11 and [Glp6, delta Phe8]SP6-11 retained 70% and 45% of hypotensive activity of the C-terminal hexapeptide of Substance P, respectively but they showed a completely destroyed antigenic determinant. The analogues containing additionally Sar or His in the position 9 showed a complete lack of both: hypotensive activity and expression of the antigenic determinant of Substance P.     

Tachykinin-stimulated small bowel myoelectric pattern: sensitization by NO inhibition, reversal by neurokinin receptor blockade

Tachykinins stimulate motility whereas NO inhibits motility in the gastrointestinal tract. AIM: To investigate if inhibition of NO production sensitizes myoelectric activity to subthreshold doses of tachykinins in the small intestine of awake rats. METHODS: Rats were supplied with a venous catheter and bipolar electrodes at 5, 15 and 25 cm distal to pylorus for electromyography of small intestine. The motor responses were evaluated using pattern recognition. Substance P and neurokinin A dose-dependently stimulated gut motility, with neurokinin A being more potent than substance P. Therefore, neurokinin A was chosen and administered under baseline conditions and 45-60 min after N(omega)-nitro-L-arginine (L-NNA) 1 mg kg(-1), with or without pretreatment with L-arginine 300 mg kg(-1). In addition, myoelectric activity effects of neurokinin A in conjunction with L-NNA were studied before and after administration of the tachykinin receptor antagonists, SR140333 (NK1), SR48968 (NK2) and SR142801 (NK3), each at 2.5 mg kg(-1). RESULTS: Dose-finding studies verified 10 pmol kg(-1) min(-1) to be the threshold dose at which NKA caused phase II-like activity in a low percentage of experiments (12%, n=41). This dose was therefore used in combination with L-NNA for sensitization experiments of gut myoelectric activity. In experiments where NKA-induced no response, pretreatment with L-NNA led to phase II-like activity in 9 of 18 (50%, p<0.05) experiments. Co-administration of SR140333 and SR48968 abolished this effect. CONCLUSION: NO counteracts the stimulatory effect of tachykinins on small bowel myoelectric activity in the rat. Inhibition of the L-arginine/NO pathway sensitizes the gut to tachykinin-stimulated motor activity.     

Autoradiographic analysis of binding sites for 125I-Bolton-Hunter-substance P in the human eye.

Substance P is known to exert potent effects in peripheral tissues, and is thought to be important for ocular function. The mechanism of action of substance P in the human eye is not known. As a basis for biochemical characterization specific binding of 125I-Bolton-Hunter-substance P was demonstrated in the human eye using autoradiographic methods. Biochemical characterization on slide-mounted tissue preparations showed that binding was saturable with a KD of 0.27 +/- 0.1 nmol/l. Specific binding occurred at comparable autoradiographic densities to both human retina and choroid. Substance P and its carboxyterminal fragment, substance P(3-11), were shown to be highly potent in binding competition experiments against 125I-Bolton-Hunter-substance P. Similar concentrations of substance P(1-9), neurokinin A and neurokinin B failed to significantly alter specific binding of 125I-Bolton-Hunter-substance P. The results indicate expression of high affinity substance P binding sites in human retina and choroid.     

Heterogeneity of dog-liver glutathione S-transferases. Evidence for a unique temperature dependence of the catalytic process

Dog liver glutathione S-transferase activities are associated with five cytosolic proteins and to approximately 1.5% with microsomal proteins determined on the basis of activity conjugating to 1-chloro-2,4-dinitrobenzene. The four major cytosolic enzymes were purified to apparent homogeneity by sequential use of ion-exchange, hydrophobic, hydroxyapatite and affinity chromatography. The isolated transferases are binary combinations of three classes of subunits: alpha (Mr = 26,000), beta (Mr = 27,000), gamma (Mr = 28,500). They were classified by roman numerals assigned in order of increasing isoelectric point as DI alpha gamma (pI 6.4), DII alpha alpha (pI 6.9), DIII beta gamma (pI 8.1), and DIV beta gamma (pI 8.7). Additionally, traces of conjugating activity may be attributed to a, beta monomeric or dimeric protein with cationic character. The differences in catalytic specificity, temperature and pH dependence of activity, and sensitivity and kinetic response to inhibitory ligands may reflect the intrinsic structural heterogeneity of the transferases. At physiological glutathione concentrations DI alpha gamma accounted for roughly 60% of the total 1-chloro-2,4-dinitrobenzene-conjugating activity, the rank order of activity being DI alpha gamma greater than DII alpha alpha greater than DIV beta gamma greater than DIII beta gamma. The glutathione-dependent denitration of organic nitrates seems to be restricted to the cationic enzymes, whereas 1,2-dichloro-4-nitrobenzene-conjugating activity is exclusively associated with the anionic transferases, DI alpha gamma much greater than DII alpha alpha. Arrhenius plots from initial rate experiments performed over a range of temperatures (15-40 degrees C) exhibit an upward bend for DI alpha gamma, an apparently constant slope for DII alpha alpha and DIII beta gamma, and a downward bend for DIV beta gamma.     

Tachykinin receptors and the airways.

The tachykinins, substance P, neurokinin A and neurokinin B, belong to a structural family of peptides. In mammalian airways, substance P and neurokinin A are colocalized to afferent C-fibres. Substance P-containing fibres are close to bronchial epithelium, smooth muscle, mucus glands and blood vessels. Sensory neuropeptides may be released locally, possibly as a result of a local reflex, and produce bronchial obstruction through activation of specific receptors on these various tissues. Three types of tachykinin receptors, namely NK-1, NK-2 and NK-3 receptors, have been characterized by preferential activation by substance P, neurokinin A and neurokinin B respectively. NK-1 and NK-2 receptors were recently cloned. The determination of receptor types involved in the effects of tachykinins in the airways has been done with synthetic agonists and antagonists binding specifically to NK-1, NK-2 and NK-3 receptors. Although the existence of species differences, the conclusion that bronchial smooth muscle contraction is mainly related to activation of NK-2 receptors on bronchial smooth muscle cell has been drawn. The hypothesis of a NK-2 receptor subclassification has been proposed with NK-2A receptor subtype in the guinea-pig airways. Other effects in the airways are related to stimulation of NK-1 receptors on mucus cells, vessels, epithelium and inflammatory cells. A non-receptor-mediated mechanism is also involved in the effect of substance P on inflammatory cells and mast cells.     

Changes of enzymes involved in DNA synthesis in the testes of cryptorchid rats

The activities of DNA polymerase alpha (EC 2.7.7.7) and topoisomerase I did not fluctuate up to 7 days after surgery to induce cryptorchidism and showed no significant difference from those in control testes (sham-operated). In contrast, the activity of DNA polymerase beta decreased by 43% at 5 days (P less than 0.01) and by 47% at 7 days (P less than 0.001). The activity of DNA polymerase gamma also decreased by 46% at 3 days (P less than 0.02) and by 78% at 7 days (P less than 0.01) after surgery. The amount of mRNA for DNA polymerase beta decreased in parallel with enzyme activity. Since the sensitivity to heat inactivation of testicular DNA polymerase beta was exactly the same as that from liver, the decrease in DNA polymerase beta activity may be, at least in part, due to reduced biosynthesis of enzyme protein. The morphological changes in cryptorchid testes suggested that the decrease in DNA polymerase beta and gamma activities might be related to the deleterious effects of elevated temperature on spermatogenesis.     

Insulin-dependent intermolecular subunit communication between isolated alpha beta heterodimeric insulin receptor complexes

The dissociation of the purified human placental alpha 2 beta 2 heterotetrameric insulin receptor complex into an alpha beta heterodimeric state was found to occur in a pH- and dithiothreitol (DTT)-dependent manner. Formation of the alpha beta heterodimeric complex, under conditions which preserved tracer insulin binding and protein kinase activities (pH 8.75 for 25 min followed by 2.0 mM DTT for 5 min) occurred with an approximate 50% efficiency. The resulting nondissociated alpha 2 beta 2 heterotetrameric complexes could then be separated effectively by Bio-Gel A-1.5m gel filtration chromatography at neutral pH. The isolated DTT-treated but nondissociated alpha 2 beta 2 heterotetrameric complex was resistant to any further dissociation by a second round of DTT and alkaline pH treatment, whereas the isolated alpha beta heterodimeric complex was stable to spontaneous reassociation for at least 72 h at pH 7.60. Kinetic analyses of the insulin receptor protein kinase activity demonstrated that the insulin stimulation of glutamic acid:tyrosine (4:1) synthetic polymer phosphorylation for both the alpha 2 beta 2 heterotetrameric and alpha beta heterodimeric complexes occurred via an increase in Vmax without any significant change in Km. Examination of beta subunit autophosphorylation of the alpha beta heterodimeric complex, in the presence but not in the absence of insulin, demonstrated the appearance of the covalent 32P-labeled alpha 2 beta 2 heterotetrameric complex. Further, the initial rate of insulin-stimulated beta subunit autophosphorylation in the isolated alpha beta heterodimeric complex occurred in a dilution-dependent (intermolecular) manner. These data demonstrate that the isolated alpha beta heterodimeric insulin receptor complex is fully capable of expressing insulin-dependent activation of the beta subunit protein kinase domain with the covalent reassociation of the alpha beta heterodimeric complex into an alpha 2 beta 2 heterotetrameric disulfide-linked state.     

DNA strand transfer protein beta from yeast mitotic cells differs from strand transfer protein alpha from meiotic cells

We have purified to homogeneity an activity from mitotic cell extracts of the yeast Saccharomyces cerevisiae, which promotes the transfer of a strand from a duplex linear DNA molecule to a complementary circular single strand. This activity does not require any nucleotide cofactor and is greatly stimulated by yeast single-stranded DNA-binding protein. It consists of a single polypeptide of an apparent molecular mass of 180 kDa as determined by SDS-polyacrylamide gel electrophoresis. This activity, which we call DNA strand transfer protein beta (STP beta), has reaction properties similar to those of DNA strand transfer protein alpha (STP alpha) purified from crude extracts of yeast meiotic cells (Sugino, A., Nitiss, J., and Resnick, M. A. (1988) Proc. Natl. Acad. Sci. U.S.A. 85, 3683-3687). However, STP beta differs from STP alpha in its molecular weight and column chromatographic behavior as well as by immunological comparison. Furthermore, the STP beta polypeptide remains in cells in which the STP alpha gene has been disrupted. Thus, we conclude the STP beta activity is encoded by a gene different from that for STP alpha. Although STP beta was isolated from mitotic cells, the amount of STP beta increases severalfold during meiosis. STP beta also appears to differ in molecular weight from similar activities described by other groups and may be an intact form of their activities.     

Tachykinin activation of muscarinic inhibition in canine small intestine is SPP in nature

Substance P when injected intraarterially into the small intestine of the anaesthetized dog during phasic activity produces three concentration dependent responses of the circular muscle. At lowest doses (approximately 10(-12) moles) inhibition occurs via release of acetylcholine to a muscarinic auto-receptor. At slightly higher doses (10(-10) moles) inhibition is preceeded by excitation via release of acetylcholine to muscarinic receptors on the smooth muscle. At still higher doses (10(-9) moles) substance P excites the smooth muscle directly. The present study demonstrates that other members of the tachykinin family also produce inhibition in vivo. The potency sequence was found to be physalaemin greater than or equal to substance P = neuromedin K greater than kassinin greater than alpha neurokinin = eledoisin. Such a sequence suggests that substance P is a natural stimulant of this pathway and that the receptor is SPP-like. The C-terminal fragment, substance P8-11, was a weak agonist at this receptor, while substance P1-9 was ineffective.     

Effects of supraspinal administration of PG-SPI and PG-KII, two amphibian tachykinin peptides, on nociception in the rat

We investigated and compared the effects of two amphibian tachykinins, the NK1 receptor agonist PG-SPI and the NK3 receptor agonist PG-KII, and the mammalian tachykinins substance P, neurokinin A and neurokinin B on the reaction time to a painful radiant heat stimulus (tail-flick test in rats) after intracerebroventricular injection. PG-SPI (1, 10 and 20 microg) and PG-KII (1, 5 and 10 microg) significantly increased the reaction time. Substance P (10 microg) injected intracerebroventricularly induced antinociception, whereas neurokinin A and neurokinin B did not. Like analgesia evoked by exogenous substance P, PG-SPI-evoked analgesia was blocked by pretreatment with naloxone. Naloxone left PG-KII antinociception unchanged, but the NK3 receptor selective antagonist markedly reduced it. These findings suggest NK1 and NK3 tachykinin receptor system involvement in supraspinal analgesia in rats.     

Characterization of laminin 5B and NH2-terminal proteolytic fragment of its alpha3B chain: promotion of cellular adhesion, migration, and proliferation

Various laminin isoforms have specific biological functions depending on their structures. Laminin 5A, which consists of the three truncated chains alpha3A, beta3, and gamma2, is known to have strong activity to promote cell adhesion and migration, whereas a laminin 5 variant consisting of a full-sized alpha3 chain (alpha3Beta) and the beta3 and gamma2 chains, laminin 5B, has not been characterized yet. In the present study, we for the first time cloned a full-length human laminin alpha3B cDNA and isolated the human laminin 5B protein. The molecular size of the mature alpha3B chain (335 kDa) was approximately twice as large as the mature alpha3A chain in laminin 5A. Laminin 5B had significantly higher cell adhesion and cell migration activities than laminin 5A. In addition, laminin 5B potently stimulated cell proliferation when added into the culture medium directly. Furthermore, we found that the alpha3B chain undergoes proteolytic cleavage releasing a 190-kDa NH(2)-terminal fragment. The 190-kDa fragment had activities to promote cellular adhesion, migration, and proliferation through its interaction with integrin alpha(3)beta(1). These activities of the NH(2)-terminal structure of the alpha3B chain seem to contribute to the prominent biological activities and the physiological functions of laminin 5B.     

RNA-dependent DNA polymerase of avian sarcoma virus B77. I. Isolation and partial characterization of the alpha, beta2, and alphabeta forms of the enzyme.

Three forms of the RNA-dependent DNA polymerase were isolated from highly purified avian sarcoma virus B77 grown in duck embryo fibroblasts, using sequential chromatography on DEAE-cellulose, phosphocellulose, and poly(U)-cellulose. One form, which sedimented with about 5.2 S, contained only one species of polypeptide, with a molecular weight of 63,000; a second sedimented with about 7.8 S and contained only one species of polypeptide with a molecular weight of 81,000; and a third form, which sedimented with about 7.3 S, contained two species of polypeptides with molecular weights of 63,000 and 81,000. The molecular constitution of the three enzyme forms were therefore alpha, beta2, and alphabeta. All three possessed almost the same specific activity with poly(rA)-oligo(dT) as the primer-template. Forms alpha and alphabeta of avian sarcoma virus DNA polymerase have already been described in the literature; form beta2 is a new form. All three forms possessed ribonuclease H activity, the relative specific activities of the alpha, beta2, and alphabeta forms being about 1:4:5. All three enzyme forms were inhibited by antiserum to the alphabeta form, but whereas the alpha and alphabeta forms could be inhibited about 95%, the maximum degree of inhibition of the beta2 form was about 80%. The three enzyme forms also differed with respect to heat stability at 46 degrees, the monomeric alpha form of the enzyme being only about one-half as stable as the two dimeric forms.     

Expression and characterization of calmodulin-dependent protein kinase II from cloned cDNAs in Chinese hamster ovary cells

cDNAs containing the entire coding regions of the alpha and beta subunits of calmodulin-dependent protein kinase II (CaM kinase II) were isolated from a rat cerebrum cDNA library, ligated into an expression vector under the control of SV40 early promoter and introduced into Chinese hamster ovary (CHO) cells. To investigate the role of the alpha and beta subunits and their functional domains in CaM kinase II activity, the properties of the kinases expressed in the transfected cells were studied. CaM kinase II activity was detected in the transfected cells when the alpha and beta cDNAs were introduced into CHO cells simultaneously. RNA transfer blot and protein immunoblot analyses demonstrated the expression of the mRNAs and proteins of both alpha and beta subunits in the cloned cells. When alpha or beta cDNA was introduced into CHO cells separately, a significant level of the enzyme activity was also expressed, indicating that the alpha and beta subunits exhibited enzyme activity individually. The apparent Km values for ATP and MAP 2 were almost the same for the alpha subunit, beta subunit, alpha beta complex, and brain CaM kinase II. However, there was a slight difference in the affinity for calmodulin between the expressed proteins. The alpha and beta subunits expressed in the same cells polymerized to form alpha beta complex of a size similar to that of brain CaM kinase II. The alpha subunit also polymerized to form an oligomer, which showed almost the same S value as that of alpha beta complex and brain CaM kinase II. In contrast, the beta subunit did not polymerize. The alpha subunit, beta subunit, alpha beta complex, and brain CaM kinase II were autophosphorylated with [gamma-32P]ATP in the presence of Ca2+ and calmodulin, which resulted in the appearance of Ca2+-independent activity. The Ca2+-independent activity was 60-75% of the total activity as measured in the presence of Ca2+ plus calmodulin. To examine the functional relationship of peptide domains of the subunits of CaM kinase II, deleted cDNAs were introduced into CHO cells and the properties of the expressed proteins were studied. In cells transfected with alpha or beta cDNA from which the association domain was deleted, a significant level of kinase activity was expressed. However, the expressed proteins showed hardly any autophosphorylation and the appearance of Ca2+-independent enzyme activity was very low, indicating that the association domain was essential for the autophosphorylation and for the appearance of the Ca2+-independent activity.