Identification of tipifarnib sensitivity biomarkers in T-cell acute lymphoblastic leukemia and T-cell lymphoma.

Patients diagnosed with T-cell leukemias and T-cell lymphomas (TCLs) still have a poor prognosis and an inadequate response to current therapies, highlighting the need for targeted treatments. We have analyzed the potential therapeutic value of the farnesyltransferase inhibitor, tipifarnib, in 25 TCL cell lines through the identification of genomic and/or immunohistochemical markers of tipifarnib sensitivity. More than half of the cell lines (60%) were considered to be sensitive. Tipifarnib reduced cell viability in these T-cell leukemia and TCL cell lines, induced apoptosis and modified the cell cycle. A mutational study showed TP53, NOTCH1 and DNMT3 to be mutated in 84.6%, 69.2% and 30.0% of sensitive cell lines, and in 62.5%, 0% and 0% of resistant cell lines, respectively. An immunohistochemistry study showed that p-ERK and RelB were associated as potential biomarkers of tipifarnib sensitivity and resistance, respectively. Data from RNA-seq show that tipifarnib at IC50 after 72 h downregulated a great variety of pathways, including those controlling cell cycle, metabolism, and ribosomal and mitochondrial activity. This study establishes tipifarnib as a potential therapeutic option in T-cell leukemia and TCL. The mutational state of NOTCH1, p-ERK and RelB could serve as potential biomarkers of tipifarnib sensitivity and resistance.

A single nucleotide deletion resulting in a frameshift in exon 4 of TAB2 is associated with a polyvalular syndrome.

OBJECTIVE: Polyvalvularmyxomatous degeneration is a rare clinical condition. A 51-year-old male patient presented at our centre with all four heart valves with myxomatous degeneration and severe mitral and aortic regurgitation due to leaflet prolapse. The patient referred five further family members with valvular heart disease at different stages of presentation. The aim of this study was to investigate the genetic basis of this familial polyvalvularmyxomatous degeneration which was associated with mild dysmorphic facial anomalies and short stature. DESIGN: A detailed family history was recorded. Nine members of the family, affected or not by valvular heart disease, were studied clinically, echocardiographically and by detailed genetic analyses. RESULTS: Six of the nine family members had echocardiographic features of different degrees of degenerative heart valve disease. In addition, the affected subjects shared similar mild dysmorphic facial anomalies and short stature. Exome sequencing identified a rare heterozygous single nucleotide deletion in the TAB2 gene in all affected family members, which was absent in the unaffected members. CONCLUSIONS: A variant in the TAB2 gene is proposed as the cause of syndromic congenital heart disease, displaying congenital myxomatous degenerative heart valve disease, mild dysmorphic fascial anomalies and short stature in this family.

High-throughput sequence analysis of turbot (Scophthalmus maximus) transcriptome using 454-pyrosequencing for the discovery of antiviral immune genes.

BACKGROUND: Turbot (Scophthalmus maximus L.) is an important aquacultural resource both in Europe and Asia. However, there is little information on gene sequences available in public databases. Currently, one of the main problems affecting the culture of this flatfish is mortality due to several pathogens, especially viral diseases which are not treatable. In order to identify new genes involved in immune defense, we conducted 454-pyrosequencing of the turbot transcriptome after different immune stimulations. METHODOLOGY/PRINCIPAL FINDINGS: Turbot were injected with viral stimuli to increase the expression level of immune-related genes. High-throughput deep sequencing using 454-pyrosequencing technology yielded 915,256 high-quality reads. These sequences were assembled into 55,404 contigs that were subjected to annotation steps. Intriguingly, 55.16% of the deduced protein was not significantly similar to any sequences in the databases used for the annotation and only 0.85% of the BLASTx top-hits matched S. maximus protein sequences. This relatively low level of annotation is possibly due to the limited information for this specie and other flatfish in the database. These results suggest the identification of a large number of new genes in turbot and in fish in general. A more detailed analysis showed the presence of putative members of several innate and specific immune pathways. CONCLUSIONS/SIGNIFICANCE: To our knowledge, this study is the first transcriptome analysis using 454-pyrosequencing for turbot. Previously, there were only 12,471 EST and less of 1,500 nucleotide sequences for S. maximus in NCBI database. Our results provide a rich source of data (55,404 contigs and 181,845 singletons) for discovering and identifying new genes, which will serve as a basis for microarray construction, gene expression characterization and for identification of genetic markers to be used in several applications. Immune stimulation in turbot was very effective, obtaining an enormous variety of sequences belonging to genes involved in the defense mechanisms.

Transcriptomics of in vitro immune-stimulated hemocytes from the Manila clam Ruditapes philippinarum using high-throughput sequencing.

BACKGROUND: The Manila clam (Ruditapes philippinarum) is a worldwide cultured bivalve species with important commercial value. Diseases affecting this species can result in large economic losses. Because knowledge of the molecular mechanisms of the immune response in bivalves, especially clams, is scarce and fragmentary, we sequenced RNA from immune-stimulated R. philippinarum hemocytes by 454-pyrosequencing to identify genes involved in their immune defense against infectious diseases. METHODOLOGY AND PRINCIPAL FINDINGS: High-throughput deep sequencing of R. philippinarum using 454 pyrosequencing technology yielded 974,976 high-quality reads with an average read length of 250 bp. The reads were assembled into 51,265 contigs and the 44.7% of the translated nucleotide sequences into protein were annotated successfully. The 35 most frequently found contigs included a large number of immune-related genes, and a more detailed analysis showed the presence of putative members of several immune pathways and processes like the apoptosis, the toll like signaling pathway and the complement cascade. We have found sequences from molecules never described in bivalves before, especially in the complement pathway where almost all the components are present. CONCLUSIONS: This study represents the first transcriptome analysis using 454-pyrosequencing conducted on R. philippinarum focused on its immune system. Our results will provide a rich source of data to discover and identify new genes, which will serve as a basis for microarray construction and the study of gene expression as well as for the identification of genetic markers. The discovery of new immune sequences was very productive and resulted in a large variety of contigs that may play a role in the defense mechanisms of Ruditapes philippinarum.

Transcriptomic characterization of the larval stage in gilthead seabream (Sparus aurata) by 454 pyrosequencing.

Gilthead seabream (Sparus aurata) is a teleost belonging to the family Sparidae with a high economical relevance in the Mediterranean countries. Although genomic tools have been developed in this species in order to investigate its physiology at the molecular level and consequently its culture, genomic information on post-embryonic development is still scarce. In this study, we have investigated the transcriptome of a marine teleost during the larval stage (from hatching to 60 days after hatching) by the use of 454 pyrosequencing technology. We obtained a total of 68,289 assembled contigs, representing putative transcripts, belonging to 54,606 different clusters. Comparison against all S. aurata expressed sequenced tags (ESTs) from the NCBI database revealed that up to 34,722 contigs, belonging to about 61% of gene clusters, are sequences previously not described. Contigs were annotated through an iterative Blast pipeline by comparison against databases such as NCBI RefSeq from Danio rerio, SwissProt or NCBI teleost ESTs. Our results indicate that we have enriched the number of annotated sequences for this species by more than 50% compared with previously existing databases for the gilthead seabream. Gene Ontology analysis of these novel sequences revealed that there is a statistically significant number of transcripts with key roles in larval development, differentiation, morphology, and growth. Finally, all information has been made available online through user-friendly interfaces such as GBrowse and a Blast server with a graphical frontend.

Haemodialysis through a cellulose membrane induces dephosphorylation of CD11b and promotes leukocyte adhesion to endothelial cells.

PURPOSE: To explore modifications in signal mechanisms involving CD11b and leukocyte adhesion in patients under haemodialysis (HD). METHODS: Samples were obtained from uremic patients at baseline, 15 and 120 min of HD from both arterial and venous lines. CD11b expression was studied by flow cytometry. To study signalling mechanisms, CD11b was immunoprecipitated using a specific antibody. Immunoprecipitates were resolved by 8% SDS-PAGE to measure phosphorylation in immunoblots. Leukocyte adhesion was measured after blood perfusion using endothelial cells (EC) as adhesive substrate. Parallel studies were performed with blood from healthy donors. RESULTS: The percentage of CD11b+ cells increased during HD with a cellulose membrane in the venous line at 15 and 120 min (6.2+/-2.9% and 11.0+/-7.1%) and in the arterial line at 120 min (11.5+/-8.5 vs. 3.1+/-1.0% in control P < 0.05). After 120 min HD, CD11b phosphorylation decreased in leukocytes from both arterial (72.6+/-2.9) and venous lines (51.8+/-6.5) vs. basal samples (119.5+/-15.5 P < 0.005). Control leukocytes showed enhanced adhesion to uremic EC compared with control EC (3.0+/-0.3 vs. 2.3+/-1.0 leukocytes x100 EC(-1) P < 0.05). Uremic leukocyte adhesion was enhanced after HD compared with basal samples 4.2+/-0.2 leukocytes/100 EC in the arterial and 4.4+/-0.3 in the venous line; after 120 min vs 2.3+/-1.0 (P < 0.005). CONCLUSION: Leukocyte activation during HD through a cellulose membrane occurs with decreases in CD11b phosphorylation. Activation also induces increases in CD11b expression associated with enhanced leukocyte adhesion to uremic endothelial cells.

Differential expression of proteins from cultured endothelial cells exposed to uremic versus normal serum.

BACKGROUND: Deficient hemostasis and accelerated atherosclerosis coexist in patients with chronic kidney disease. Endothelial dysfunction may be involved in the high incidence of atherothrombotic events in these patients. We established an in vitro model of endothelial dysfunction by exposing endothelial cells to uremic media and applied a proteomic approach to characterize endothelial cell dysfunction in uremia. STUDY DESIGN: Cross-sectional study. SETTING AND PARTICIPANTS: Serum samples from 8 patients with chronic kidney disease on hemodialysis treatment were collected. PREDICTOR: Exposure of cultured endothelial cells to normal and uremic serum. OUTCOME AND MEASUREMENTS: Proteins from lysed cells were characterized by isoelectric point and molecular weight by using 2-dimensional gel electrophoresis. Spots were visualized by means of silver staining and identified by using mass spectrometry. RESULTS: Identification of the most prominent proteins showed molecules related to inflammation (high mobility group box 1, aldose reductase, and proteasome components) and oxidative stress (superoxide dismutase and glutathione peroxidase), both associated with chronic kidney disease. These changes may be caused by activation of the nuclear factor-kappaB transcription factor. Changes in expression of cytoskeletal proteins (destrin and vimentin) also were detected. LIMITATIONS: In vitro study. CONCLUSION: Proteomic techniques proved to be a powerful tool to investigate endothelial dysfunction in uremia. A more exhaustive analysis will provide answers and potential therapeutic targets in the near future.

Inhibition of tyrosine kinase activity prevents the adhesive and cohesive properties of platelets and the expression of procoagulant activity in response to collagen.

INTRODUCTION: Platelet activation leads to signal transduction mechanisms, in which phosphotyrosine proteins play a relevant role. MATERIAL AND METHODS: Platelet suspensions were independently activated by collagen and thrombin in the absence and in the presence of two tyrosine kinase inhibitors, tyrphostin 47 and genistein. Samples were processed to visualize morphological changes by electron microscopy, to evaluate changes in cytoskeletal assembly, to analyze modifications in the expression of activation dependent antigens, and the procoagulant activity at the surface level by flow cytometry. Additional experiments applying flow conditions were performed to assess the effect of inhibiting tyrosine phosphorylation on primary platelet adhesion and fibrin formation. RESULTS: Inhibition of tyrosine phosphorylation blocked shape change and cytoskeletal assembly induced by collagen, and inhibited, though partially, those effects due to thrombin. Both activating agents induced the expression of the intraplatelet antigens CD62P and CD63 at the surface, although only collagen promoted expression of anionic phospholipids. Both tyrphostin 47 and genistein prevented those effects. The extent of platelet adhesion on both collagen-coated and subendothelial surfaces was significantly diminished by the presence of the tyrosine kinase inhibitors assayed. Fibrin formation was also significantly reduced. CONCLUSIONS: Platelet shape change and secretion during platelet activation depends on tyrosine phosphorylation. In addition, primary adhesion of platelets induces signaling through tyrosine kinases to achieve full spreading, and results in the exposure of a procoagulant surface on platelets.

Effect of two different dialysis membranes on leukocyte adhesion and aggregation.

AIMS: We evaluated modifications in formation of heterotypic platelet-leukocyte aggregation induced by dialysis through cellulosic or synthetic membranes and evaluated the effects of such procedures promoting adhesive interactions between leukocytes and normal endothelial cells (ECs). METHODS: Samples were obtained from arterial and venous lines at baseline, after 15 and 120 min of hemodialysis. Heterotypic aggregation was assessed using flow-cytometric techniques. Experiments to determine leukocyte adhesion to ECs were performed in parallel plate perfusion chambers at 450 s(-1). RESULTS: Patients dialyzed with a cellulosic membrane showed a significantly higher baseline granulocyte heterotypic aggregation (median 22.5%, range 8.6-32%) versus healthy subjects (median 10%, range 3.2-14.6%; p < 0.05). Granulocyte heterotypic aggregation values remained increased throughout the hemodialysis session not only in the arterial line (median 18 and 24.5%, range 7-30 and 8.7-36% at 15 and 2 h, respectively) but also in the venous line (median 20 and 25%, range 8.6-32 and 11.5-35% at 15 min and 2 h, respectively). Basal lymphocytes heterotypic aggregation values observed in uremic patients were 6% (0.1-7.1%) versus 1.0% (0.5-2.8%) in the control group (p < 0.05). The increase remained during the hemodialysis session both in the arterial line (median 5 and 4%, range 0.2-14 and 0.5-7.1 % at 15 min and 2 h, respectively) and in the venous line (median 7 and 7%, range 1.4-14 and 0.5-10.6% at 15 min and 2 h). In contrast, patients dialyzed with a synthetic membrane showed a decreased basal granulocyte heterotypic aggregation compared to healthy subjects (median 3.5 vs. 10%, range 2.8-7 vs. 3.2-14.6%, respectively; p < 0.05). For lymphocytes, basal heterotypic aggregation values were 0.2% (range 0.1-0.5%) in dialyzed patients vs. 0.98% (range 0.5-2.8%) in healthy subjects (p < 0.05), without changes throughout the dialysis session. Changes in leukocyte adhesion during hemodialysis did not reach statistical significance with either hemodialysis membrane. Our studies confirm a differential activation of platelets and leukocytes depending on the nature of the dialysis membranes. However, activation of circulating cellular elements by hemodialysis procedures did not enhance cross-talk interactions between leukocytes and unaltered ECs.

Tissue factor-enriched vesicles are taken up by platelets and induce platelet aggregation in the presence of factor VIIa.

We investigated the interactions of vesicles containing human tissue factor (TF) with platelets and evaluated responses induced by rFVIIa using standard aggregometry, ultrastructural and flow-cytometry techniques. Washed platelets were exposed to a preparation of placental human TF (pTF) or to a relipidated formulation of recombinant human TF (rTF). Under stirring conditions, pTF induced reversible aggregation with platelets returning to their resting state after 5 minutes. This reversible response to pTF was partially inhibited by antibodies against CD62-P, but not by antithrombin agents, and was not observed with rTF. Sequential ultrastructural studies revealed uptake of both TF preparations by platelets involving traffic of vesicles through channels of the open canalicular system (OCS). Immunocytochemical studies on cryosections identified TF in the OCS, and occasionally in the alpha-granules of the platelets. These processes were faster with pTF than with rTF, but both TF preparations accumulated in platelets at the end of incubation periods. Flow cytometry studies revealed the presence of other cellular antigens (CD62-P, CD14 and CD45) associated to the pTF. Addition of rFVIIa to washed platelets exposed to pTF or rTF, caused a thrombin dependent irreversible platelet aggregation. Our studies demonstrate that platelets possess mechanisms to capture and incorporate TF-rich vesicles. These processes are accelerated by the presence of other cellular antigens in the vesicles. Our findings may explain the hemostatic action of rFVIIa in severely hemodiluted patients, but are also relevant for the understanding of potential implications of TF-associated to platelets in the propagation of thrombus.

Efficient tyrosine phosphorylation of proteins after activation of platelets with thrombin depends on intact glycoprotein Ib.

The role of platelet glycoprotein Ib as a thrombin receptor has been often a subject of controversy. We have investigated the role of the thrombin receptors, GPIb and protease-activated receptor (PAR)-1. Tyrosine phosphorylation in whole platelet lysates and in cytoskeletal extracts was evaluated after activation with thrombin and with the thrombin receptor-activating peptide (TRAP). Different experimental approaches were applied including: (i) congenital deficiency of platelet GPIb (Bernard Soulier syndrome, BSS), (ii) antibody to GPIb (AP1), (iii) selective protease cleavage (metalloprotease), and (iv) antibody to (PAR)-1. After activation of control platelets with thrombin or TRAP, multiple proteins became tyrosine phosphorylated in platelet lysates and some of them associated with the cytoskeletal fraction. These effects were absent in BSS platelets. Presence of AP1 or metalloprotease treatment showed an inhibitory effect when platelets were activated with a low concentration of thrombin or TRAP. Blockade of PAR-1 with a specific antibody, SPAN 12, inhibited platelet response to both agonists. This study reinforces the hypothesis that GPIb is the high-affinity receptor for thrombin. The signaling mechanisms occurring through tyrosine phosphorylation of proteins triggered by thrombin seem to be dependent on intact GPIb. Moreover, our results indicate that both receptors, GPIb and PAR-1, are necessary to achieve a full platelet response to thrombin.

G-CSF increases the expression of VCAM-1 on stromal cells promoting the adhesion of CD34+ hematopoietic cells: studies under flow conditions.

OBJECTIVE AND METHODS: The knowledge of the mechanisms underlying the adhesive processes that lead to homing and/or mobilization of hematopoietic progenitor cells, and the influence of blood rheology, is still limited. We analyzed the impact of flow conditions on the adhesion of CD34+ peripheral blood progenitor cell (PBPC) to the adhesive proteins fibronectin, laminin, and collagen, and to stromal cells. RESULTS: Under static conditions, all the adhesive substrata assayed promoted adhesion of CD34+ PBPC, being higher on the stromal cells. Under flow conditions, adhesion of CD34+ PBPC was remarkable on stromal cells while insignificant onto the purified proteins. Exposure of stromal cell monolayers to granulocyte colony-stimulating factor (G-CSF) further enhanced PBPC adhesion. This effect correlated with the activation of p38 MAPK and with an increase in the expression of VCAM-1 on stromal cells exposed to G-CSF. In inhibitory assays, both an antibody to the G-CSFR and a specific inhibitor of the p38 MAPK blocked the effects induced by the cytokine. CONCLUSION: Our results provide direct evidence that in stromal cells G-CSF activates the signaling protein p38 MAPK, inducing expression of the adhesion receptor VCAM-1. This mechanism seems to promote adhesion of CD34+ cells on stromal cells and could play a potential role in homing events.

Granulocyte colony-stimulating factor increases expression of adhesion receptors on endothelial cells through activation of p38 MAPK.

BACKGROUND AND OBJECTIVES: Granulocyte colony-stimulating factor (G-CSF) is specific for the granulocytic cell line, although receptors for this cytokine have been found in other cell types including endothelial cells. These observations prompted us to investigate the potential effect of G-CSF on the endothelium. DESIGN AN METHODS: Endothelial cell monolayers were exposed to G-CSF to evaluate: i) signal transduction mechanisms, ii) expression of adhesion receptors at the cell surface, and iii) leukocyte adhesion on EC monolayers. RESULTS: Exposure of human umbilical vein endothelial cells (EC) in culture to G-CSF resulted in the activation of the signal transduction pathways JAK/STAT (JAK-1, STAT-1 and STAT-3) and RAS/MAPK (MAPK p42/44 and p38 MAPK). We also observed significantly increased expression of the adhesion receptors, E-selectin (ELAM-1), vascular endothelial cell adhesion molecule-1 and intracelleular adhesion molecule-1 at the cell surface in response to G-CSF, increases that were followed by an augmented adhesion of leukocytes on the previously exposed EC monolayers. These effects were blocked by the presence of SB203580, a p38 MAPK inhibitor, by U0126, a MAPK p42/44 inhibitor, and by inhibiting the G-CSF receptor with a specific antibody. INTERPRETATION AND CONCLUSIONS: Our results demonstrate that G-CSF increases the expression of adhesion receptors on EC, promoting leukocyte adhesion. This effect seems to be triggered by the signaling events that follow receptor binding. Results from experiments using specific inhibitors suggest that activation of p38 MAPK is required to promote expression of adhesion receptors in endothelial cells and the recruitment of leukocytes in response to G-CSF.

Erythropoietin triggers a signaling pathway in endothelial cells and increases the thrombogenicity of their extracellular matrices in vitro.

We demonstrate that exposure of cultured human endothelial cells to rHuEPO resulted in a dose-dependent increase in the tyrosine kinase activity, with phosphorylation of JAK-2 followed by rapid phosphorylation of STAT-5. Simultaneously, rHuEPO induced long-lasting phosphorylation of MAPK p42/44. Activation of this signaling pathways was directly associated with an increase in the thrombogenic properties of the extracellular matrix generated by these cells, when they were exposed to flowing blood. The enhancement in the reactivity of the resulting extracellular matrix towards platelets was associated with a higher expression of tissue factor. All these effects were blocked by an antibody to the EPO receptor and by specific inhibitors of tyrosine phosphorylation. The observed action of rHuEPO on endothelial cells seemed to be specifically triggered by the subsequent events that follow receptor binding, and occurred even at pharmacological concentrations of the cytokine. Our results indicate that rHuEPO has a direct action on the endothelium, increasing the reactivity of the underlying extracellular matrix towards platelets, effect that may be attributed to an increase in the expression of TF.

Erythropoietin does not modify the prothrombotic effect induced by uremic media on endothelial cells.

Recombinant human erythropoietin (rHuEPO) administration has been associated with an increased risk of hypertension and thrombosis in uremic patients. rHuEPO and endothelial cells cultured in an uremic environment. Results indicate that rHuEPO does not exert an additional activating effect to that caused by the uremic media per se.

TRAP induces more intense tyrosine phosphorylation than thrombin with differential ultrastructural features.

We have analyzed modifications on platelet ultrastructural morphology, cytoskeletal assembly, and tyrosine phosphorylation developing in platelets activated by both thrombin and the thrombin receptor-activating peptide (TRAP). Washed platelets exposed to various concentrations of thrombin or TRAP, for different periods, were: fixed and examined by electron microscopy, or lysed and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Under similar activating conditions, thrombin and TRAP induced different sequences of activation causing distinctive morphological and biochemical changes. Platelets exposed to thrombin showed centralized organelles encircled by constricted microtubule coils and granules secreting their contents through narrow channels of the open canalicular system. In contrast, activation by TRAP induced swelling of the open canalicular system with organelles remaining randomly dispersed and microtubules peripherally distributed. Compared to thrombin activation, TRAP induced higher rates of actin polymerization; increased association of actin-binding protein, myosin, and alpha-actinin; and higher association of tyrosine-phosphorylated proteins with the insoluble cytoskeletal fraction. Secretion of intragranule substances, measured as expression of P-selectin and lysosomal integral membrane protein at the surface level, were similar for both agonists at equivalent concentrations. Our biochemical observations indicate that TRAP causes more intense changes in signaling through tyrosine phosphorylation of proteins associated with the cytoskeletal fraction than thrombin. However, as derived from ultrastructural observations, TRAP seems to be less efficient in triggering cytoskeletal assembly and internal contraction in an organized manner in contrast with the natural protease.

Platelet adhesion onto a polystyrene surface under static conditions: role of specific platelet receptors and effect of divalent cations.

An experimental model was used to elucidate the basic mechanisms involved in the interaction of platelets with an artificial surface. The role of divalent cations and the involvement of specific platelet membrane receptors were evaluated. Isolated platelets were allowed to interact with a polystyrene surface for 20 min in the presence of divalent cations (Ca2+, Mg2+ or Zn2+), a chelating agent (ethylenediaminetetraacetic, EDTA), and specific antibodies to the main platelet receptors, glycoproteins (GP) Ib and IIb-IIIa. The degree of platelet interaction was evaluated using light and electron microscopy. Morphometric analysis was performed to follow up the progression of platelet shape changes after surface activation. Neither Ca2+ nor Mg2+ influenced the number of adherent platelets or the degree of spreading on the polymer. Only Zn2+ induced a statistically significant increase in the rate of platelet adhesion (P<0.01) with higher proportion of fully spread platelets (P<0.01). Chelation of internal pools of divalent cations did not modify the rates of platelet adhesion but prevented platelet spreading. Presence of monoclonal antibodies to GPIb and GP IIb-IIIa did not result in significant differences in the studied parameters. These results suggest that platelet adhesion onto artificial surfaces, in the absence of flow and plasma proteins, is more dependent on cellular motility, where Zn2+ could play an important role, and less dependent on major receptorial mechanisms.