Potentiation of epidermal growth factor receptor-mediated oncogenesis by c-Src: implications for the etiology of multiple human cancers.

c-Src is a nontransforming tyrosine kinase that participates in signaling events mediated by a variety of polypeptide growth factor receptors, including the epidermal growth factor receptor (EGFR). Overexpression and continual ligand stimulation of the EGFR results in morphological transformation of cells in vitro and tumor development in vivo. Elevated levels of c-Src and the EGFR are found in a variety of human malignancies, raising the question of whether c-Src can functionally cooperate with the EGFR during tumorigenesis. To address this issue, we generated c-Src/EGFR double overexpressors and compared their proliferative and biochemical characteristics to those of single overexpressors and control cells. We found that in cells expressing high levels of receptor, c-Src potentiated DNA synthesis, growth in soft agar, and tumor formation in nude mice. Growth potentiation was associated with the formation of a heterocomplex between c-Src and activated EGFR, the appearance of a distinct tyrosyl phosphorylation on the receptor, and an enhancement of receptor substrate phosphorylation. These findings indicate that c-Src is capable of potentiating receptor-mediated tumorigenesis and suggest that synergism between c-Src and the EGFR may contribute to a more aggressive phenotype in multiple human tumors.

Overexpression of csk inhibits acid-induced activation of NHE-3.

Opossum kidney OKP cells express an apical membrane Na+/H+ antiporter that is encoded by NHE-3 (for Na+/H+ exchanger 3) and is similar in many respects to the renal proximal tubule apical membrane Na+/H+ antiporter. Chronic incubation of OKP cells in acid medium for 24 hr increases Na+/H(+)-antiporter activity and NHE-3 mRNA abundance. The increase in Na+/H(+)-antiporter activity was not prevented by H7, a protein kinase C/protein kinase A inhibitor, but was prevented by herbimycin A, a tyrosine kinase inhibitor. Incubation of cells in acid medium increased c-src activity, and this was inhibited by herbimycin A. To determine the role of the src family of nonreceptor protein-tyrosine kinases, Csk (for carboxyl-terminal src kinase), a physiologic inhibitor of these kinases, was overexpressed in OKP cells. In three clones overexpressing csk, acid-induced increases in Na+/H(+)-antiporter activity and NHE-3 mRNA abundance were inhibited. In these clones, inhibition of acid activation of Na+/H(+)-antiporter activity paralleled inhibition of acid activation of c-src. Neither herbimycin A nor overexpression of csk inhibited dexamethasone-induced increases in Na+/H(+)-antiporter activity. These studies show that decreases in pH activate c-src and that the src family nonreceptor protein-tyrosine kinases play a key role in acid activation of NHE-3.

Inhibition of selective signaling events in natural killer cells recognizing major histocompatibility complex class I.

Many studies have characterized the transmembrane signaling events initiated after T-cell antigen receptor recognition of major histocompatibility complex (MHC)-bound peptides. Yet, little is known about signal transduction from a set of MHC class I recognizing receptors on natural killer (NK) cells whose ligation dramatically inhibits NK cell-mediated killing. In this study we evaluated the influence of MHC recognition on the proximal signaling events in NK cells binding tumor targets. We utilized two experimental models where NK cell-mediated cytotoxicity was fully inhibited by the recognition of specific MHC class I molecules. NK cell binding to either class I-deficient or class I-transfected target cells initiated rapid protein tyrosine kinase activation. In contrast, whereas NK cell binding to class I-deficient targets led to inositol phosphate release and increased intracellular free calcium ([Ca2+]i), NK recognition of class I-bearing targets did not induce the activation of these phospholipase C-dependent signaling events. The recognition of class I by NK cells clearly had a negative regulatory effect since blocking this interaction using anti-class I F(ab')2 fragments increased inositol 1,4,5-trisphosphate release and [Ca2+]i and increased the lysis of the targets. These results suggest that one of the mechanisms by which NK cell recognition of specific MHC class I molecules can block the development of cell-mediated cytotoxicity is by inhibiting specific critical signaling events.

Capturing genes encoding membrane and secreted proteins important for mouse development.

A strategy based on the gene trap was developed to prescreen mouse embryonic stem cells for insertional mutations in genes encoding secreted and membrane-spanning proteins. The "secretory trap" relies on capturing the N-terminal signal sequence of an endogenous gene to generate an active beta-galactosidase fusion protein. Insertions were found in a cadherin gene, an unc6-related laminin (netrin) gene, the sek receptor tyrosine kinase gene, and genes encoding two receptor-linked protein-tyrosine phosphatases, LAR and PTP kappa. Analysis of homozygous mice carrying insertions in LAR and PTP kappa showed that both genes were effectively disrupted, but neither was essential for normal embryonic development.

Tumorigenic activity of the BCR-ABL oncogenes is mediated by BCL2.

BCR-ABL is a chimeric oncogene generated by translocation of sequences from the c-abl protein-tyrosine kinase gene on chromosome 9 into the BCR gene on chromosome 22. Alternative chimeric proteins, p210BCR-ABL and p190BCR-ABL, are produced that are characteristic of chronic myelogenous leukemia and acute lymphoblastic leukemia, respectively. Their role in the etiology of human leukemia remains to be defined. Transformed murine hematopoietic cells can be used as a model of BCR-ABL function since these cells can be made growth factor independent and tumorigenic by the action of the BCR-ABL oncogene. We show that the BCR-ABL oncogenes prevent apoptotic death in these cells by inducing a Bcl-2 expression pathway. Furthermore, BCR-ABL-expressing cells revert to factor dependence and nontumorigenicity after Bcl-2 expression is suppressed. These results help to explain the ability of BCR-ABL oncogenes to synergize with c-myc in cell transformation.

Distinct regions of c-Mpl cytoplasmic domain are coupled to the JAK-STAT signal transduction pathway and Shc phosphorylation.

c-Mpl, a member of the hematopoietic cytokine receptor family, is the receptor for thrombopoietin. To investigate signal transduction by c-Mpl, a chimeric receptor, composed of the extracellular domain of human growth hormone receptor and the intracellular domain of c-Mpl, was introduced into the interleukin 3-dependent cell line Ba/F3. In response to growth hormone, this chimeric receptor induced growth in the absence of interleukin 3. Deletion analysis of the 123-amino acid intracellular domain indicated that the elements responsible for this effect are present within the 63 amino acids proximal to the transmembrane domain. Mutation of the recently described box 1 motif abrogated the proliferative response. Tyrosine phosphorylation of the tyrosine kinase JAK-2 and activation of STAT proteins were dependent on box 1 and sequences within 63 amino acids of the plasma membrane. STAT proteins activated by thrombopoietin in a megakaryocytic cell line were purified and shown to be STAT1 and STAT3. A separate region located at the C terminus of the c-Mpl intracellular domain was found to be required for induction of Shc phosphorylation and c-fos mRNA accumulation, suggesting involvement of the Ras signal transduction pathway. Thus, at least two distinct regions are involved in signal transduction by the c-Mpl.

Fusion of the TEL gene on 12p13 to the AML1 gene on 21q22 in acute lymphoblastic leukemia.

Chromosomal rearrangements involving band 12p13 are found in a wide variety of human leukemias but are particularly common in childhood acute lymphoblastic leukemia. The genes involved in these rearrangements, however, have not been identified. We now report the cloning of a t(12;21) translocation breakpoint involving 12p13 and 21q22 in two cases of childhood pre-B acute lymphoblastic leukemia, in which t(12;21) rearrangements were not initially apparent. The consequence of the translocation is fusion of the helix-loop-helix domain of TEL, an ETS-like putative transcription factor, to the DNA-binding and transactivation domains of the transcription factor AML1. These data show that TEL, previously shown to be fused to the platelet-derived growth factor receptor beta in chronic myelomonocytic leukemia, can be implicated in the pathogenesis of leukemia through its fusion to either a receptor tyrosine kinase or a transcription factor. The TEL-AML1 fusion also indicates that translocations affecting the AML1 gene can be associated with lymphoid, as well as myeloid, malignancy.

Kinetic proofreading in T-cell receptor signal transduction.

Like other cell-surface receptors with intrinsic or associated protein-tyrosine kinase activity, the T-cell receptor complex undergoes a number of modifications, including tyrosine phosphorylation steps, after ligand binding but before transmitting a signal. The requirement for these modifications introduces a temporal lag between ligand binding and receptor signaling. A model for the T-cell receptor is proposed in which this feature greatly enhances the receptor's ability to discriminate between a foreign antigen and self-antigens with only moderately lower affinity. The proposed scheme is a form of kinetic proofreading, known to be essential for the fidelity of protein and DNA synthesis. A variant of this scheme is also described in which a requirement for formation of large aggregates may lead to a further enhancement of the specificity of T-cell activation. Through these mechanisms, ligands of different affinity potentially may elicit qualitatively different signals.

Ganglioside GM1 binds to the Trk protein and regulates receptor function.

Several lines of evidence have suggested that ganglioside GM1 stimulates neuronal sprouting and enhances the action of nerve growth factor (NGF), but its precise mechanism is yet to be elucidated. We report here that GM1 directly and tightly associates with Trk, the high-affinity tyrosine kinase-type receptor for NGF, and strongly enhances neurite outgrowth and neurofilament expression in rat PC12 cells elicited by a low dose of NGF that alone is insufficient to induce neuronal differentiation. The potentiation of NGF activity by GM1 appears to involve tyrosine-autophosphorylation of Trk, which contains intrinsic tyrosine kinase activity that has been localized to the cytoplasmic domain. In the presence of GM1 in culture medium, there is a > 3-fold increase in NGF-induced autophosphorylation of Trk as compared with NGF alone. We also found that GM1 could directly enhance NGF-activated autophosphorylation of immunoprecipitated Trk in vitro. Monosialoganglioside GM1, but not polysialogangliosides, is tightly associated with immunoprecipitated Trk. Furthermore, such tight association of GM1 with Trk appears to be specific, since a similar association was not observed with other growth factor receptors, such as low-affinity NGF receptor (p75NGR) and epidermal growth factor receptor (EGFR). Thus, these results strongly suggest that GM1 functions as a specific endogenous activator of NGF receptor function, and these enhanced effects appear to be due, at least in part, to tight association of GM1 with Trk.

Differential activation of proliferation and cytotoxicity in human T-cell lymphotropic virus type I Tax-specific CD8 T cells by an altered peptide ligand.

Human T-cell leukemia virus type I (HTLV-I) gives rise to a neurologic disease known as HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP). Although the pathogenesis of the disease is unknown, the presence of a remarkably high frequency of Tax-specific, cytotoxic CD8 T cells may suggest a role of these cells in the development of HAM/TSP. Antigen-mediated signaling in a CD8 T-cell clone specific for the Tax(11-19) peptide of HTLV-I was studied using analog peptides substituted in their T-cell receptor contact residues defined by x-ray crystallographic data of the Tax(11-19) peptide in the groove of HLA-A2. CD8 T-cell stimulation with the wild-type peptide antigen led to activation of p56lck kinase activity, interleukin 2 secretion, cytotoxicity, and clonal expansion. A Tax analog peptide with an alanine substitution of the T-cell receptor contact residue tyrosine-15 induced T-cell-mediated cytolysis without activation of interleukin 2 secretion or proliferation. Induction of p56lck kinase activity correlated with T-cell-mediated cytotoxicity, whereas interleukin 2 secretion correlated with [3H]thymidine incorporation and proliferation. Moreover, Tax peptide analogs that activated the tyrosine kinase activity of p56lck could induce unresponsiveness to secondary stimulation with the wild-type peptide. These observations show that a single amino acid substitution in a T-cell receptor contact residue of Tax can differentially signal CD8 T cells and further demonstrate that primary activation has functional consequences for the secondary response of at least some Tax-specific CD8 T cells to HTLV-I-infected target cells.

Identificazione di miRNA correlati ad EGFR: nuovi potenziali biomarcatori di risposta alla terapia di 2a-3a linea in pazienti con NSCLC metastatico

La diagnosi di neoplasia epiteliale maligna polmonare è legata tradizionalmente alla distinzione tra carcinoma a piccole cellule (small-cell lung cancer, SCLC) e carcinoma non-a piccole cellule del polmone (non-small-cell lung cancer, NSCLC). Nell’ambito del NSCLC attualmente è importante di-stinguere l’esatto istotipo (adenocarcinoma, carcinoma squamocellulare e carcinoma neuroendocrino) perchè l’approccio terapeutico cambia a seconda dell’istotipo del tumore e la chemioterapia si dimostra molto spesso inefficace. Attualmente alcuni nuovi farmaci a bersaglio molecolare per il gene EGFR, come Erlotinib e Gefitinib, sono utilizzati per i pazienti refrattari al trattamento chemioterapico tradizionale, che non hanno risposto a uno o più cicli di chemioterapia o che siano progrediti dopo questa. I test per la rilevazione di specifiche mutazioni nel gene EGFR permettono di utilizzare al meglio questi nuovi farmaci, applicandoli anche nella prima linea di trattamento sui pazienti che hanno una maggiore probabilità di risposta alla terapia. Sfortunatamente, non tutti i pazienti rispondono allo stesso modo quando trattati con farmaci anti-EGFR. Di conseguenza, l'individuazione di biomarcatori predittivi di risposta alla terapia sarebbe di notevole importanza per aumentare l'efficacia dei questi farmaci a target molecolare e trattare con farmaci diversi i pazienti che con elevata probabilità non risponderebbero ad essi. I miRNAs sono piccole molecole di RNA endogene, a singolo filamento di 20-22 nucleotidi che svolgono diverse funzioni, una delle più importanti è la regolazione dell’espressione genica. I miRNAs possono determinare una repressione dell'espressione genica in due modi: 1-legandosi a sequenze target di mRNA, causando così un silenziamento del gene (mancata traduzione in proteina), 2- causando la degradazione dello specifico mRNA. Lo scopo della ricerca era di individuare biomarcatori capaci di identificare precocemente i soggetti in grado di rispondere alla terapia con Erlotinib, aumentando così l'efficacia del farmaco ed evitan-do/riducendo possibili fenomeni di tossicità e il trattamento di pazienti che probabilmente non ri-sponderebbero alla terapia offrendo loro altre opzioni prima possibile. In particolare, il lavoro si è fo-calizzato sul determinare se esistesse una correlazione tra la risposta all'Erlotinib ed i livelli di espressione di miRNAs coinvolti nella via di segnalazione di EGFR in campioni di NSCLC prima dell’inizio della terapia. Sono stati identificati 7 microRNA coinvolti nel pathway di EGFR: miR-7, -21, 128b, 133a, -133b, 146a, 146b. Sono stati analizzati i livelli di espressione dei miRNA mediante Real-Time q-PCR in campioni di NSCLC in una coorte di pazienti con NSCLC metastatico trattati con Erlotinib dal 1° gennaio 2009 al 31 dicembre 2014 in 2°-3° linea dopo fallimento di almeno un ciclo di chemioterapia. I pazienti sottoposti a trattamento con erlotinib per almeno 6 mesi senza presentare progressione alla malattia sono stati definiti “responders” (n=8), gli altri “non-responders” (n=25). I risultati hanno mostrato che miR-7, -133b e -146a potrebbero essere coinvolti nella risposta al trat-tamento con Erlotinib. Le indagini funzionali sono state quindi concentrate su miR-133b, che ha mo-strato la maggiore espressione differenziale tra i due gruppi di pazienti. E 'stata quindi studiata la capacità di miR-133b di regolare l'espressione di EGFR in due linee di cellule del cancro del polmone (A549 e H1299). Sono stati determinati gli effetti di miR-133b sulla crescita cellulare. E’ stato anche analizzato il rapporto tra miR-133b e sensibilità a Erlotinib nelle cellule NSCLC. L'aumento di espressione di miR-133b ha portato ad una down-regolazione del recettore di EGF e del pathway di EGFR relativo alla linea cellulare A549. La linea cellulare H1299 era meno sensibili al miR-133b up-regulation, probabilmente a causa dell'esistenza di possibili meccanismi di resistenza e/o di com-pensazione. La combinazione di miR-133b ed Erlotinib ha aumentato l'efficacia del trattamento solo nella linea cellulare A549. Nel complesso, questi risultati indicano che miR-133b potrebbe aumentare / ripristinare la sensibilità di Erlotinib in una frazione di pazienti.

The activating role of phospho-(Tyr)-calmodulin on the epidermal growth factor receptor

The activity of calmodulin (CaM) is modulated not only by oscillations in the cytosolic concentration of free Ca2+, but also by its phosphorylation status. In the present study, the role of tyrosine-phosphorylated CaM [P-(Tyr)-CaM] on the regulation of the epidermal growth factor receptor (EGFR) has been examined using in vitro assay systems. We show that phosphorylation of CaM by rat liver solubilized EGFR leads to a dramatic increase in the subsequent phosphorylation of poly-L-(Glu:Tyr) (PGT) by the receptor in the presence of ligand, both in the absence and in the presence of Ca2+. This occurred in contrast with assays where P-(Tyr)-CaM accumulation was prevented by the presence of Ca2+, absence of a basic cofactor required for CaM phosphorylation and/or absence of CaM itself. Moreover, an antibody against CaM, which inhibits its phosphorylation, prevented the extra ligand-dependent EGFR activation. Addition of purified P-(Tyr)-CaM, phosphorylated by recombinant c-Src (cellular sarcoma kinase) and free of non-phosphorylated CaM, obtained by affinity-chromatography using an immobilized anti-phospho-(Tyr)-antibody, also increased the ligand-dependent tyrosine kinase activity of the isolated EGFR toward PGT. Also a CaM(Y99D/Y138D) mutant mimicked the effect of P-(Tyr)-CaM on ligand-dependent EGFR activation. Finally, we demonstrate that P-(Tyr)-CaM binds to the same site (645R-R-R-H-I-V-R-K-R-T-L-R-R-L-L-Q660) as non-phosphorylated CaM, located at the cytosolic juxtamembrane region of the EGFR. These results show that P-(Tyr)-CaM is an activator of the EGFR and suggest that it could contribute to the CaM-mediated ligand-dependent activation of the receptor that we previously reported in living cells.

Chronic myeloid leukemia gene therapy delivered by cell penetrating peptides : from bench to clinic

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Mécanismes moléculaires de l’hypertrophie vasculaire dans le modèle animal d’hypertension essentielle (SHR)

La voie de signalisation des phosphoinositides joue un rôle clé dans la régulation du tonus vasculaire. Plusieurs études rapportent une production endogène de l’angiotensin II (Ang II) et de l’endothéline-1 (ET-1) par les cellules musculaires lisses vasculaires (CMLVs) de rats spontanément hypertendus (spontaneously hypertensive rats : SHR). De plus, l’Ang II exogène induit son effet prohypertrophique sur les CMLVs selon un mécanisme dépendant de la protéine Gqα et de la PKCẟ. Cependant, le rôle de l’axe Gqα/PLCβ/PKCẟ dans l’hypertrophie des CMLVs provenant d’un modèle animal de l’hypertension artérielle n’est pas encore étudié. L’objectif principal de cette thèse est d’examiner le rôle de l’axe Gqα/PLCβ1 dans les mécanismes moléculaires de l’hypertrophie des CMLVs provenant d’un modèle animal d’hypertension artérielle essentielle (spontaneously hypertensive rats : SHR). Nos premiers résultats indiquent que contrairement aux CMLVs de SHR âgés de 12 semaines (absence d’hypertrophie cardiaque), les CMLVs de SHR âgés de 16 semaines (présence d’hypertrophie cardiaque) présentent une surexpression protéique endogène de Gqα et de PLCβ1 par rapport aux CMLVs de rats WKY appariés pour l’âge. L’inhibition du taux d’expression protéique de Gqα et de PLCβ1 par des siRNAs spécifiques diminue significativement le taux de synthèse protéique élevé dans les CMLVs de SHR. De plus, la surexpression endogène des Gqα et PLCβ1, l’hyperphosphorylation de la molécule ERK1/2 et le taux de synthèse protéique élevé dans les CMLVs de SHR de 16 semaines ont été atténués significativement par des antagonistes des récepteurs AT1 (losartan) et ETA (BQ123), mais pas par l’antagoniste du récepteur ETB (BQ788). L’inhibition pharmacologique des MAPKs par PD98059 diminue significativement la surexpression endogène de Gqα/PLCβ1 et le taux de synthèse protéique élevé dans les CMLVs de SHR. D’un côté, l’inhibition du stress oxydatif (par DPI, inhibiteur de la NAD(P)H oxidase, et NAC , molécule anti-oxydante), de la molécule c-Src (PP2) et des récepteurs de facteurs de croissance (AG1024 (inhibiteur de l’IGF1-R), AG1478 (inhibiteur de l’EGFR) et AG1295 (inhibiteur du PDGFR)) a permis d’atténuer significativement la surexpression endogène élevée de Gqα/PLCβ1 et l’hypertrophie des CMLVs de SHR. D’un autre côté, DPI, NAC et PP2 atténuent significativement l’hyperphosphorylation de la molécule c-Src, des RTKs (récepteurs à activité tyrosine kinase) et de la molécule ERK1/2. Dans une autre étude, nous avons aussi démontré que la PKCẟ montre une hyperphosphorylation en Tyr311 dans les CMLVs de SHR comparées aux CMLVs de WKY. La rottlerin, utilisée comme inhibiteur spécifique de la PKCẟ, inhibe significativement cette hyperphosphorylation en Tyr311 dépendamment de la concentration. L’inhibition de l’activité de la PKCẟ par la rottlerin a été aussi associée à une atténuation significative de la surexpression protéique endogène de Gqα/PLCβ1 et l’hypertrophie des CMLVs de SHR. De plus, l’inhibition pharmacologique de l’activité de la PKCẟ, en amont du stress oxydatif, a permis d’inhiber significativement l’activité de la NADPH, le taux de production élevée de l’ion superoxyde ainsi que l’hyperphosphorylation de la molécule ERK1/2, de la molécule c-Src et des RTKs. À notre surprise, nous avons aussi remarqué une surexpression protéique de l’EGFR et de l’IGF-1R dans les CMLVs de SHR à l’âge de 16 semaines. L’inhibition pharmacologique de l’activité de la PKCẟ, de la molécule c-Src et du stress oxydatif a permis d’inhiber significativement la surexpression protéique endogène de ces RTKs. De plus, l’inhibition de l’expression protéique de l’EGFR et de la molécule c-Src par des siRNA spécifiques atténue significativement le taux d’expression protéique élevé de Gqα et de PLCβ1 ainsi que le taux de synthèse protéique élevé dans les CMLVs de SHR. Des siRNAs spécifiques à la PKCẟ ont permis d’atténuer significativement le taux de synthèse protéique élevé dans les CMLVs de SHR et confirment le rôle important de la PKCẟ dans les mécanismes moléculaires de l’hypertrophie des CMLVs selon une voie dépendante du stress oxydatif. En conclusion, ces résultats suggèrent un rôle important de l’activation endogène de l’axe Gqα-PLCβ-PKCẟ dans le processus d’hypertrophie vasculaire selon un mécanisme impliquant une activation endogène des récepteurs AT1/ETa, de la molécule c-Src, du stress oxidatif, des RTKs et des MAPKs.

Donor pretreatment with progenipoietin-1 is superior to granulocyte colony-stimulating factor in preventing graft-versus-host disease after allogeneic stem cell transplantation

The granulocyte colony-stimulating factor (G-CSF) and Fit-3 receptor agonist progenipoietin-1 (ProGP-1) has potent effects on dendritic cell (DC) expansion and may be an alternative to G-CSF for the mobilization of stem cells for allogeneic stem cell transplantation (SCT). We studied the ability of stem cell grafts mobilized with this agent to induce graft-versus-host disease (GVHD) to minor and major histocompatibility antigens in the well-described B6 --> B6D2F1 SCT model. ProGP-1, G-CSIF, or control diluent was administered to donor B6 mice. ProGP-1 expanded all cell lineages in the spleen, and unseparated splenocytes from these animals produced large amounts of interleukin 10 (IL-10) and transforming growth factor beta (TGFbeta) whereas the expression of T-cell adhesion molecules was diminished. Transplantation survival was 0%, 50%, and 90% in recipients of control-, G-CSF-, and ProGP-1-treated allogeneic donor splenocytes, respectively (P < .0001). Donor pretreatment with ProGP-1 allowed a 4-fold escalation in T-cell dose over that possible with G-CSF. Donor CD4 T cells from allogeneic SCT recipients of ProGP-1 splenocytes demonstrated an anergic response to host antigen, and cytokine production (interferon gamma [IFNγ], IL-4, and IL-10) was also reduced while CD8 T-cell cytotoxicity to host antigens remained intact. Neither CD11c(hi) DCs nor CD11c(dim)/B220(hi) DCs from ProGP-1-treated animals conferred protection from GVHD when added to control spleen. Conversely, when equal numbers of purified T cells from control-, G-CSF-, or ProGP-1-treated allogeneic donors were added to allogeneic T-cell-depleted control spleen, survival at day 60 was 0%, 15%, and 90%, respectively (P < .0001). The improved survival in recipients of ProGP-1 T cells was associated with reductions in systemic tumor necrosis factor alpha generation and GVHD of the gastrointestinal tract. We conclude that donor pretreatment with ProGP-1 is superior to G-CSIF for the prevention of GVHD after allogeneic SCT, primarily due to incremental affects on T-cell phenotype and function