Tyrosine-hydroxylase, dopamine ß-hydroxylase and choline acetyltransferase-like immunoreactive fibres in the human major sublingual gland.

OBJECTIVE: To study the innervation of the major sublingual gland by means of immunohistochemistry. DESIGN: Bioptic and autoptic specimens of the major sublingual gland of humans were examined for the presence of immunoreactivity to tyrosine hydroxylase and dopamine-ß-hydroxylase, on one hand, and choline acetyltransferase, on the other, to indicate adrenergic and cholinergic nerves, respectively. RESULTS: Acini and ducts were supplied by both divisions of the autonomic nervous system. CONCLUSIONS: Mucous and seromucous cells of the human major sublingual glands may respond with secretion not only to parasympathetic activity but also to sympathetic activity. The major sublingual gland is therefore a potential contributor to the mucin secretion recently reported in the literature in response to high sympathetic activity during physical exercise.

Connexin 43 Is Necessary for Salivary Gland Branching Morphogenesis and FGF10-induced ERK1/2 Phosphorylation.

Cell-cell interaction via the gap junction regulates cell growth and differentiation, leading to formation of organs of appropriate size and quality. To determine the role of connexin43 in salivary gland development, we analyzed its expression in developing submandibular glands (SMGs). Connexin43 (Cx43) was found to be expressed in salivary gland epithelium. In ex vivo organ cultures of SMGs, addition of the gap junctional inhibitors 18α-glycyrrhetinic acid (18α-GA) and oleamide inhibited SMG branching morphogenesis, suggesting that gap junctional communication contributes to salivary gland development. In Cx43(-/-) salivary glands, submandibular and sublingual gland size was reduced as compared with those from heterozygotes. The expression of Pdgfa, Pdgfb, Fgf7, and Fgf10, which induced branching of SMGs in Cx43(-/-) samples, were not changed as compared with those from heterozygotes. Furthermore, the blocking peptide for the hemichannel and gap junction channel showed inhibition of terminal bud branching. FGF10 induced branching morphogenesis, while it did not rescue the Cx43(-/-) phenotype, thus Cx43 may regulate FGF10 signaling during salivary gland development. FGF10 is expressed in salivary gland mesenchyme and regulates epithelial proliferation, and was shown to induce ERK1/2 phosphorylation in salivary epithelial cells, while ERK1/2 phosphorylation in HSY cells was dramatically inhibited by 18α-GA, a Cx43 peptide or siRNA. On the other hand, PDGF-AA and PDGF-BB separately induced ERK1/2 phosphorylation in primary cultured salivary mesenchymal cells regardless of the presence of 18α-GA. Together, our results suggest that Cx43 regulates FGF10-induced ERK1/2 phosphorylation in salivary epithelium but not in mesenchyme during the process of SMG branching morphogenesis.

Morphological differences in innervation between mucous glands and serous glands: a quantitative histological study using the sublingual glands of elderly humans.

CONCLUSION: In the sublingual gland, the serous lobule usually carried a higher density of NSE-positive nerve elements than the mucous lobule, whereas the mucous acinus in the mucous lobule was larger than the serous acinus in the serous lobule. OBJECTIVES: To demonstrate quantitative differences in nerve elements between the mucous and serous lobules of sublingual glands. METHODS: This study investigated using specimens from 14 donated cadavers (mean age = 78 years). Since immunohistochemistry for neuron-specific enolase (NSE) stains all nerves in addition to other mesenchymal cells possibly of nerve origin, the present quantitative evaluation was based on NSE-positive areas per visual field under a ×20 objective lens (0.6 × 0.45 mm when printed). RESULTS: In mucous lobules, the areas occupied by NSE-positive nerve elements ranged from 5798-16,541 µm(2) (mean ± SD = 9280 ± 2584 µm(2)). In contrast, the corresponding areas in serous lobules ranged from 7853-23,540 µm(2) (mean ± SD = 13,520 ± 4351 µm(2)). The difference in NSE-positive areas was statistically significant (p = 0.0022). However, the mucous acinus in the mucous lobule was 2-times larger than the serous acinus in the serous lobule (2474 ± 1477 µm(2) vs 1119 ± 632 µm(2)).

CD38/ADP-ribosyl cyclase in the rat sublingual gland: subcellular localization under resting and saliva-secreting conditions.

CD38 is a 42-45 kDa transmembrane glycoprotein that exhibits ADP-ribosyl cyclase enzyme activity. In the rat, we have previously reported strong ADP-ribosyl cyclase activity in the sublingual salivary gland (Masuda W. and Noguchi T. Biochem. Biophys. Res. Commun. (2000) 270, 469-472). Here, we have examined the specific localization of CD38/ADP-ribosyl cyclase activity in this gland and whether that localization changes upon saliva-secretary stimulation. Under resting conditions, CD38/ADP-ribosyl cyclase activity in the post-nuclear fraction of SLG homogenates was separated into two major peaks by sucrose density gradient centrifugation. The first peak included the plasma membrane proteins Na+/K+ ATPase and aquaporin 5, while the second peak included mucous secretory protein mucin and vesicle-associated membrane protein 2. When rats were subjected to the muscarinic agonist pilocarpine, the CD38/ADP-ribosyl cyclase activity disappeared from the second peak, as did mucin and vesicle-associated membrane protein 2. Pre-treatment of rats with the muscarinic antagonist atropine before pilocarpine administration, or adrenergic stimulation with isoproterenol, the sucrose density gradient separation profiles were same as that seen under resting condition. Using an immunofluorescent strategy, we observed the preferential localization of CD38 in the basolateral plasma membrane and intracellular granule-like membrane in sublingual acinar cells under resting conditions.

Salivary flow and alpha-amylase: collection technique, duration, and oral fluid type.

There has been renewed interest in salivary alpha-amylase (sAA), a surrogate marker of autonomic/sympathetic activity, in biosocial research on stress vulnerability, reactivity, and recovery. This study explored the impact of saliva flow rate on sAA measurement by examining the influence of (1) the technique used to collect oral fluid-synthetic swab, cotton pledget, hydrocellulose microsponge, or passive drool; (2) collection point duration--the length of time the technique is employed (1-5min); and (3) oral fluid type--whole unstimulated saliva (not absorbed by any material) or oral fluid sampled from areas near the parotid, submandibular, or sublingual salivary glands. sAA activity (U/mL) was the highest in oral fluid collected from the parotid and submandibular gland areas. The volume (mL) of oral fluid collected increased, and the activity of sAA (U/mL) decreased, as collection point duration lengthened. The magnitude of these effects varied according to collection technique and oral fluid type. Across all conditions, there were positive correlations (range .70-.88) between sAA activity (U/mL) and sAA output (U/min). Management of these potential sources of measurement error will be essential to ensuring the success of future research on the correlates and concomitants of sAA activity, stress-related reactivity and recovery, and diurnal variation.

Cytochemical detection of endogenous peroxidase in the intralobular ducts of hamster major salivary glands.

Light and electron microscopic cytochemical investigation of endogenous peroxidase activity in the intralobular ducts of hamster major salivary glands was carried out using the diaminobenzidine-hydrogen peroxidase method. The peroxidase reaction product was localized in the nuclear envelope, the cisternae of the endoplasmic reticulum, the Golgi apparatus and secretory granules in both the intercalated duct cells and the striated duct light cells of all glands. These results suggest the ability of the intralobular duct cells to secrete peroxidase the same as that of acinar cells in hamster salivary glands.

Salivary phospholipid secretion in response to beta-adrenergic stimulation is mediated by Src kinase-dependent epidermal growth factor receptor transactivation.

Communication between receptor tyrosine kinase and G protein-coupled receptor (GPCR)-mediated signaling is recognized as a common integrator linking diverse aspects of intracellular signaling systems. Here, we report that G protein-coupled beta-adrenergic receptor activation leading to stimulation of salivary phospholipid release occurs with the involvement of epidermal growth factor receptor (EGFR). Using sublingual gland acinar cells, we show that prosecretory effect of isoproterenol on phospholipid release was subjected to suppression by EGFR kinase inhibitor, PD153035, and wortmannin, an inhibitor of PI3K, but not by PD98059, an inhibitor of extracellular signal regulated kinase (ERK). Furthermore, wortmannin, but not the ERK inhibitor, caused the reduction in the acinar cell secretory responses to beta-adrenergic agonist-generated cAMP as well as adenyl cyclase activator, forskolin. The acinar cell phospholipid secretory responses to isoproterenol, moreover, were inhibited by PP2, a selective inhibitor of tyrosine kinase Src responsible for ligand-independent EGFR phosphorylation. Taken together, our data are the first to demonstrate the requirement for Src kinase-dependent EGFR transactivation in regulation of salivary phospholipid secretion in response to beta-adrenergic GPCR activation.

Modificaçöes na atividade de fosfotirosina proteína fosfatase e fosfatase acída em glândula sublingual e fígado de ratos expostos à fumaça de cigarro / Effect of cigarette smoke on sublingual gland liver phosphotyrosine protein phosphatase and acid phosphatase activities

O fumo voluntário e involuntário influencia a saúde geral. Têm-se sugerido ligaçöes entre o hábito de fumar dos pais e a experiência de cáries em crianças. Estudos recentes demonstraram um aumento do estresse oxidativo em diversos tecidos de indivíduos expostos à fumaça do cigarro (FC). Neste trabalho analisamos o efeito da FC na atividade específica da fosfatase ácida total (FAT), fosfatase ácida inespecífica (FAI) e proteinas tirosina fosfatase (PTP) em diversos tecidos de ratos expostos à FC ambiental. Foram utilizados 49 ratos Wistar (Rattus novergicus) machos adultos (200g), divididos aleatoriamente em grupo controle (näo exposto à FC) e experimental. O grupo experimental foi exposto 3 vezes ao dia à fumaça produzida por 10 cigarros (1 cigarro: alcaträo=11mg; nicotina=0,9mg; monóxido de carbono=12mg), durante 10 minutos. Os animais foram sacrificados após 0, 25, 50 e 75 dias. A atividade fosfatásica (nmol/min mg) foi determinada no extrato solúvel dos tecidos analisados, utilizando 5 mM de pNPP como substrato no pH 5 e 37ºC. Na glândula sublingual ocorreu um aumento de cerca de 2x na FAT e FAI e 3,5 vezes na PTP após 25 dias; após 50 dias a atividade FAT e PTP foi menor que 50 por cento em relaçäo ao grupo controle, mantendo-se neste patamar após 75 dias. No fígado, após 25 dias, ocorreu um aumento de cerca de 500 por cento na FAT, PTP e FAI; após 50 dias houve marcante diminuiçäo (75 por cento) na atividade dessas enzimas. A sensibilidade das diferentes isoformas da fosfatase ácida à FC a coloca como potencial biomarcador das alteraçöes induzidas pela exposiçäo à fumaça de cigarro ambiental. Concluímos que a exposiçäo crônica à FC promove marcante diminuiçäo da atividade fosfatase ácida e PTP na glândula salivar sublingual e no fígado de ratos. A inibiçäo da PTP poderia ser o início de modificaçöes moleculares relacionadas a algumas doenças associadas ao cigarro uma vez que essa classe de enzimas desempenha papel fundamental no controle da proliferaçäo, crescimento e diferenciaçäo celular

Cloning and characterization of a ninth member of the UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase family, ppGaNTase-T9.

We have cloned, expressed and characterized the gene encoding a ninth member of the mammalian UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase (ppGaNTase) family, termed ppGaNTase-T9. This type II membrane protein consists of a 9-amino acid N-terminal cytoplasmic region, a 20-amino acid hydrophobic/transmembrane region, a 94-amino acid stem region, and a 480-amino acid conserved region. Northern blot analysis revealed that the gene encoding this enzyme is expressed in a broadly distributed manner across many adult tissues. Significant levels of 5- and 4.2-kilobase transcripts were found in rat sublingual gland, testis, small intestine, colon, and ovary, with lesser amounts in heart, brain, spleen, lung, stomach, cervix, and uterus. In situ hybridization to mouse embryos (embryonic day 14.5) revealed significant hybridization in the developing mandible, maxilla, intestine, and mesencephalic ventricle. Constructs expressing this gene transiently in COS7 cells resulted in no detectable transferase activity in vitro against a panel of unmodified peptides, including MUC5AC (GTTPSPVPTTSTTSAP) and EA2 (PTTDSTTPAPTTK). However, when incubated with MUC5AC and EA2 glycopeptides (obtained by the prior action of ppGaNTase-T1), additional incorporation of GalNAc was achieved, resulting in new hydroxyamino acid modification. The activity of this glycopeptide transferase is distinguished from that of ppGaNTase-T7 in that it forms a tetra-glycopeptide species from the MUC5AC tri-glycopeptide substrate, whereas ppGaNTase-T7 forms a hexa-glycopeptide species. This isoform thus represents the second example of a glycopeptide transferase and is distinct from the previously identified form in enzymatic activity as well as expression in embryonic and adult tissues. These findings lend further support to the existence of a hierarchical network of differential enzymatic activity within the diversely regulated ppGaNTase family, which may play a role in the various processes governing development.

Salivary alpha-amylase and lysozyme levels: a non-invasive technique for measuring parotid vs submandibular/sublingual gland activity.

Cannulation procedures have shown that alpha-amylase is produced primarily by the parotid gland, whereas lysozyme is produced mainly by the submandibular and sublingual glands. In this study, the ratio of lysozyme to alpha-amylase was determined in whole human saliva following challenge with various gustatory and mechanical stimuli. Comparison of this ratio with the immediately preceding "baseline" value, and knowledge of the salivary glandular origin of these enzymes, gives an indication of the level of activation of these differing glands. This methodology obviates the need for invasive cannulation techniques. The findings also show that strong taste stimuli, such as salt, activate the submandibular/sublingual glands more as compared to the parotid gland.

Cellular compartmentation of lysozyme and alpha-amylase in the mouse salivary glands. Immunogold approaches at light and electron microscopy level.

The research was planned to study the subcellular distribution of enzymatic secretory products within the secretory structures of the mouse major salivary glands at light and electron microscopy level by immunogold silver stain (IGSS) technique and double-sided post-embedding immunogold binding and silver amplification in order to speculate about their compartmentation. In particular, we experimented the above immunogold labeling approaches to localize the lysozyme and to verify its distribution patterns in relation to another secretion enzyme, alpha-amylase. Co-presence of lysozyme and alpha-amylase was observed in the convoluted granular tubule cells of the submandibular gland and in the demilunar cells of the sublingual gland as well as in the electron-dense regions of the mottled secretory granules in the parotid gland. Exclusive binding patterns of lysozyme were observed in the acinar cells of the submandibular and sublingual glands where alpha-amylase did not occur.

Immunohistochemical localization of carbonic anhydrases I, II, and VI in the developing rat sublingual and submandibular glands.

Carbonic anhydrase has been localized to the acini and ducts of mature rat salivary glands. This enzyme has been associated with ion transport, a prominent function of striated and excretory ducts in salivary glands, suggesting that it might be used as a marker of ductal differentiation. The purpose of this study was to immunohistochemically document developmental changes in carbonic anhydrase in the ducts of the rat sublingual and submandibular glands. Immunohistochemistry was performed with antibodies to human carbonic anhydrase isoenzymes I, II and VI on sections of sublingual and submandibular glands from rats at representative postnatal developmental ages. Reactions were weak in the ducts of both glands at 1 day, then progressively increased. By 42 days, reactions had the adult pattern of virtually none in the mucous or seromucous acini, moderate to strong in the striated and excretory ducts, and none to weak in the intercalated ducts. Weak to moderate reactions were observed in the granular convoluted tubules of the submandibular gland as they became recognizable at age 42 days. Reactions to carbonic anhydrase I and II antibodies also increased from none (1 day) to modest (42 days) in the demilunes of the sublingual gland. The order of reaction intensity of the antibodies was II > I > VI. When localized via these anti-human antibodies, carbonic anhydrase is a useful marker of the functional differentiation of the striated and excretory ducts of the developing rat sublingual and submandibular glands.

The serous demilune of rat sublingual gland is an artificial structure produced by conventional fixation.

The ultrastructure of the secretory end-piece of the rat sublingual gland was examined in samples prepared by rapid freezing and freeze-substitution method, and results were analyzed in combination with 3-D images reconstructed by computer graphics from light micrographs of serial sections. Fixation by rapid freezing followed by freeze-substitution preserved cellular ultrastructures, especially the membrane structure, in perfect condition, and demonstrated the terminal portion of the sublingual gland to be a compound branched tubulo-alveolar gland with serous cells distributed throughout the end-pieces. All the serous cells aligned with mucous cells to surround a common lumen, leaving no demilune structure. In contrast, samples fixed by the conventional immersion method showed distended mucous cells displacing the serous cells toward the basal portion of the acinus to form the demilune structure. The luminal space was also compressed and appeared disconnected from the serous cells. From these observations, the serous demilune that for more than 130 years has been believed to be an actual histological entity was proved to be an artificial structure produced through compression by the hydrated and expanded mucous cells during immersion fixation.

Chitinase in whole and glandular human salivas and in whole saliva of patients with periodontal inflammation.

In recent studies the existence of a chitinase in various mammals, like man, was described. The aim of the present study was to find out whether salivas of periodontally healthy and inflamed humans also contain chitinase activity. Chitinase activity, assayed with the substrate 4-methylumbelliferyl-beta-D-N,N',N"-triacetylchitotrioside, was shown to be present in human whole saliva, with an activity level and apparent molecular mass (35 kDa) that were comparable with those of the human serum enzyme. Both lysozyme and beta-N-acetylhexosaminidase could be separated from chitinase by means of Bio-Gel P-100 gel filtration chromatography. The enzyme was also present in glandular saliva of parotid, palatine, submandibular and sublingual glands. The chitinase activity was not of oral epithelial, bacterial or plaque bacterial origin and was not correlated with the activity of salivary amylase. A comparative study of whole salivas of periodontally healthy controls and gingivitis and periodontitis subjects showed that only in the case of periodontitis there was a significant increase of the specific chitinase activity. The latter enzyme showed a gel filtration pattern that was comparable with that of the enzyme from controls. The measured albumin levels in saliva and the absence of correlation between the chitinase activity levels in plasma and saliva from periodontitis patients indicated that the (increased) chitinase activities did not originate from blood leakage to the oral cavity.

Double-sided staining with a gold probe and silver enhancement to detect alpha-amylase and sugar moieties in the mouse salivary glands.

In the present study we report the development of an ultrastructural electron microscopic double-sided staining technique that, using gold probes of 10 nm and enhancement of the gold signal by silver amplification, allows the demonstration of two antigenic sites on the same section. The labeling was carried out in the following manner: one face of uncoated floating grids was incubated with an antibody directed to alpha-amylase, followed by a secondary gold-labeled antibody, amplification of gold particles, drying and carbon coating; subsequently, the reverse face of the same grid, was processed for lectin cytochemistry, with and without sialidase digestion, and it was incubated with HRP-conjugated lectins, anti-HRP antibody and protein-A gold. Also the reverse sequence of steps and amplification of gold signal after the first or second labeling were experimented. The resultant small and large particles revealed different distributional patterns of antigenic sites on the opposite faces of the same tissue section. The transparency of the resin-embedded ultrathin sections in the electron beam allowed the simultaneous visualization of the gold probes of different sizes present on the two faces. The analysis of immunolabeling revealed that the alpha-amylase is chiefly secreted by the parotid and submandibular glands. The application of this double-sided staining technique also indicated that, when present in glycosylated form, the alpha-amylase enzyme does not contain sialic acid in the submandibular and sublingual glands; conversely, its location on the electron-dense areas of target granules in the parotid acinar cells seems to suggest that a sialylated isoenzymatic form can occur within these granule regions where sialic, acid linked to beta-galactose, was found to be located.

Distribution of V-ATPase in rat salivary glands.

Using immunohistochemistry we have investigated the presence and cellular distribution of the 31-kDa subunit of vacuolar-type H+-ATPase (V-ATPase) in secretory endpieces and the duct system of rat major salivary glands. In all three salivary glands studied the 31-kDa subunit of V-ATPase was not expressed in secretory endpieces. In rat parotid gland V-ATPase was luminally located in main excretory and striated duct cells. In contrast, both rat submandibular and sublingual glands showed a diffuse intracellular V-ATPase distribution. The differences in V-ATPase immunolocalization in rat salivary glands probably reflect the structural heterogeneity of the different glands. The data also suggest that the duct systems of major salivary glands may modify the H+ and HCO3- concentration of the final saliva in different ways.

Cloning and expression of a novel, tissue specifically expressed member of the UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase family.

We report the cloning and expression of the fifth member of the mammalian UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase (ppGaNTase) family. Degenerate polymerase chain reaction amplification and hybridization screening of a rat sublingual gland (RSLG) cDNA library were used to identify a novel isoform termed ppGaNTase-T5. Conceptual translation of the cDNA reveals a uniquely long stem region not observed for other members of this enzyme family. Recombinant proteins expressed transiently in COS7 cells displayed transferase activity in vitro. Relative activity and substrate preferences of ppGaNTase-T5 were compared with previously identified isoforms (ppGaNTase-T1, -T3, and -T4); ppGaNTase-T5 and -T4 glycosylated a restricted subset of peptides whereas ppGaNTase-T1 and -T3 glycosylated a broader range of substrates. Northern blot analysis revealed that ppGaNTase-T5 is expressed in a highly tissue-specific manner; abundant expression was seen in the RSLG, with lesser amounts of message in the stomach, small intestine, and colon. Therefore, the pattern of expression of ppGaNTase-T5 is the most restricted of all isoforms examined thus far. The identification of this novel isoform underscores the diversity and complexity of the family of genes controlling O-linked glycosylation.

Nitric oxide synthase immunoreactive nerves in rat and ferret salivary glands, and effects of denervation.

Nitric oxide has been implicated in mechanisms mediating nerve-evoked vasodilatory and secretory responses in salivary glands. In the present study, the occurrence and distribution of nitric oxide synthase (NOS)-immunoreactive nerves in ferret and rat salivary glands were investigated using immunocytochemistry with rabbit and sheep NOS antisera, and using NADPH-diaphorase enzyme histochemistry. In the parotid, submandibular and sublingual glands of the rat and the ferret, NOS-immunoreactive varicose terminals encircled acini and arteries of various sizes. In the ferret, collecting ducts were also supplied with NOS-immunoreactive fibres. In the rat, only the granular ducts of the submandibular gland were supplied with such fibres. The NOS-immunoreactive innervation of acinar cells was more abundant in the rat than in the ferret, whereas the opposite was true for the innervation of blood vessels. No NOS immunoreactivity was observed in the vascular endothelium. In both species, NOS-positive ganglionic cell bodies were found in the hilar regions of the submandibular and sublingual glands, whereas none could be detected in the parotid glands. NADPH-diaphorase reactivity had the same neuronal distribution as NOS immunoreactivity and, in addition, NADPH-diaphorase reactivity was expressed in ductal epithelium. Neither sympathetic denervation (by removal of the superior cervical ganglion) nor treatment with the sensory neurotoxin capsaicin reduced the NOS-immunoreactive innervation of the parotid gland. However, parasympathetic denervation (by cutting the auriculo-temporal nerve) caused an almost total disappearance of the NOS-immunoreactive innervation. The present findings provide a morphological background to the suggested role of nitric oxide in parasympathetic secretory and vascular responses of salivary glands.

Characterization of human sublingual-gland protein kinase by phosphorylation of a peptide related to secreted proteins.

Phosphoproteins in human saliva include proline-rich proteins, statherins, histatin 1 and cystatin SA-III. The presence of phosphate in these proteins is necessary for various functions in the mouth including calcium binding, inhibition of precipitation of calcium phosphate, inhibition of growth of hydroxyapatite crystals and adherence to hydroxyapatite. To elucidate the process of phosphorylation of these proteins, the phosphorylation of a peptide (APRP8) with an amino acid sequence identical to one of the phosphorylated sites in acidic proline-rich proteins by a kinase from the human sublingual gland was investigated. The kinase, which was highly labile, was purified 58-fold by fractionation of sublingual gland homogenate and gel filtration, but the enzyme was inactivated when further purification by chromatographic techniques commonly used for protein kinases was attempted. To compare the enzyme with other kinases, and to obtain information that could be used in its further purification, a characterization was undertaken. The enzyme required 10 mM Mg2+ for optimum activity, it had a KM of 0.09 mM for ATP and the KM for the peptide substrate APRP8 was 0.42 mM. It was not activated by cAMP or calmodulin, characteristics that are shared with casein kinases and mammary gland kinase. The sublingual kinase as well as casein kinase 2 were inhibited by heparin, but in other respects the two kinases had different properties. While casein kinase 2 is activated by polylysine and has optimal activity in 150 mM KCl, sublingual kinase was inhibited by polylysine and the addition of KCl. Moreover, casein kinase 2 can utilize both ATP and GTP as phosphoryl donors, but GTP was not a substrate for sublingual kinase. The sublingual kinase shared a substrate recognition sequence with mammary gland kinase, but, unlike that kinase, it could not utilize Ca2+ instead of Mg2+. While the sublingual kinase thus shared some properties with both casein kinase 2 and mammary gland kinase, distinct differences were also seen and the relationship to these enzymes remains to be determined. The characterization of the sublingual kinase will be useful in its further purification.