Clinical features of a human Rac2 mutation: a complex neutrophil dysfunction disease.

The case of an infant with multiple, rapidly progressive, soft-tissue infections is presented. Despite features suggesting a neutrophil disorder, results of screening tests of phagocyte function were normal. A novel, multifaceted leukocyte disorder-distinguished by defects in shape change, chemotaxis, ingestion, degranulation, superoxide anion production, and bactericidal activity-was established secondary to a defect in Rac2.

Human neutrophil immunodeficiency syndrome is associated with an inhibitory Rac2 mutation.

A 5-week-old male infant presented with severe bacterial infections and poor wound healing, suggesting a neutrophil defect. Neutrophils from this patient exhibited decreased chemotaxis, polarization, azurophilic granule secretion, and superoxide anion (O(2)(-)) production but had normal expression and up-regulation of CD11b. Rac2, which constitutes >96% of the Rac in neutrophils, is a member of the Rho family of GTPases that regulates the actin cytoskeleton and O(2)(-) production. Western blot analysis of lysates from patient neutrophils demonstrated decreased levels of Rac2 protein. Addition of recombinant Rac to extracts of the patient neutrophils reconstituted O(2)(-) production in an in vitro assay system. Molecular analysis identified a point mutation in one allele of the Rac2 gene resulting in the substitution of Asp57 by an Asn (Rac2(D57N)). Asp57 is invariant in all defined GTP-binding proteins. Rac2(D57N) binds GDP but not GTP and inhibits oxidase activation and O(2)(-) production in vitro. These data represent the description of an inhibitory mutation in a member of the Rho family of GTPases associated with a human immunodeficiency syndrome.

Functional characteristics of neutrophils collected and stored after administration of G-CSF.

BACKGROUND: Granulocyte transfusion may be used in neutropenic patients with severe bacterial or fungal infections that are unresponsive to antibiotic therapy. However, the inability to store granulocyte concentrates limits their clinical usefulness. STUDY DESIGN AND METHODS: Neutrophil chemotaxis and NADPH oxidase activity and the integrity of the neutrophil NADPH oxidase system were examined after apheresis collection and during storage to 48 hours. Neutrophils were mobilized in vivo by G-CSF, collected by apheresis techniques, and stored in apheresis bags in the presence and absence of additional G-CSF. For all experiments, cells were further purified by standard techniques of dextran sedimentation and hypotonic RBC lysis. RESULTS: Neutrophil chemotaxis was preserved to 24 hours of storage but was not affected by the G-CSF added to storage units. The NADPH oxidase system was also preserved as a functioning complex, and both cytosolic proteins and membrane-associated proteins were normal to 48 hours. However, there were divergent responses by intact cells to activating stimuli and reduced oxidase activity in the cell-free system. G-CSF did not appear to significantly affect NADPH oxidase activity or NADPH oxidase system integrity during storage. CONCLUSION: Neutrophils collected after the administration of G-CSF retained functional and biochemical characteristics for at least 24 hours of storage, which suggests additional effects of G-CSF mobilization beyond enhancing PMN yields and the possibility of storage of these components after collection.

Quantified color Doppler sonography of tumor vascularity in an animal model.

This study was designed to evaluate the accuracy of a system to quantitate tumor vascularity with amplitude (power) color Doppler sonography two- and three-dimensionally. The vascularity of 20 transplanted murine tumors was determined with quantitated amplitude color Doppler sonography both two- and three-dimensionally and compared to tumor vascularity estimated by histologic examination. Serial examinations were performed 15, 30, 45, and 60 min after the injection of the exotoxin CM-101 and saline solution to assess changes in tumor vascularity. Three-dimensional amplitude color Doppler sonography best depicted the overall vascularity of tumor when compared to histologic estimation of vessel density. However, neither two- nor three-dimensional amplitude color power angiography correlated well to the microvessel count, probably a reflection of the difference in the method for vessel quantification using sonographic versus histologic techniques. Three-dimensional amplitude Doppler sonography correlated better with counts of large vessels (> 100 microm) as opposed to small vessels (> 15 microm). Time-activity curves showed no difference in tumor flow at the times measured in the experimental group injected with CM-101 or when compared to saline solutions in either the peripheral or central portions of the tumor. This three-dimensional amplitude color Doppler sonographic system affords global quantification of tumor vascularity and flow that may, in turn, be useful in determining the probability of malignancy (by determination of branching patterns and vessel regularity) or tumor response or both to treatment.

In vivo treatment with granulocyte colony-stimulating factor results in divergent effects on neutrophil functions measured in vitro.

We have studied the effects of granulocyte colony-stimulating factor (G-CSF) administration to normal individuals on a variety of functional and biochemical neutrophil characteristics that relate to host defense. G-CSF adversely affected neutrophil (polymorphonuclear leukocyte [PMN]) chemotaxis. While this could be partially explained by reduced assembly of neutrophil F-actin, we also recognized an elevated cytosolic calcium mobilization and a normal upregulation of neutrophil CD11b. G-CSF resulted in reduced PMN killing of Staphylococcus aureus with a 10:1 (bacteria:neutrophil) ratio and normal killing with a 1:1 ratio. In association with this, we demonstrated divergent effects on the respiratory burst of intact cells and divergent effects on the content of marker proteins for neutrophil granules. While G-CSF may have resulted in increased content of cytochrome b558 in the cell membrane, it did not alter the amounts of cytosolic oxidase components. After therapy, there was normal content of the azurophilic granule marker, myeloperoxidase, decreased content of the specific granule marker, lactoferrin, and normal content of lysozyme (found in both granules classes). Finally, G-CSF therapy markedly reduced the apoptotic rate of the isolated neutrophil. Therefore, considering disparate functional and biochemical activities, the real benefit of G-CSF therapy may lie in enhanced number and survival of neutrophils.

Does age of the host affect growth rates of skeletal malignancies?

Statistical analysis of bone tumor growth rates as a function of age at initiation of radiation-induced skeletal malignancies in our animal colony indicated that the p value for an association between these parameters was <0.05, suggesting a correlation in beagle dogs. The youngest animals appeared to exhibit the most slowly growing tumors, and the trend was toward more rapidly growing tumors with increasing age. Less effective immune systems in older animals were invoked as a possible explanation of this relationship.

The effects of stem cell factor and granulocyte colony stimulating factor therapy on the activity of the neutrophil NADPH oxidase enzyme system.

BACKGROUND: To explore the effect of cytokine therapy on the NADPH oxidase in mature myeloid cells, we isolated neutrophils from patients receiving recombinant human granulocyte colony stimulating factor (G-CSF) and recombinant human stem cell factor (SCF) and evaluated oxidase activity. All patients had relapsed neoplastic disease and were at least 3 three weeks since the last course of chemotherapy or cytokine therapy. METHODS: Stimulus induced superoxide anion (O2-) production in response to PMA (200 ng/mL), fMLP (1 mumol/L), platelet activating factor (PAF, 2 mumol/L) priming of the fMLP induced response, and opsonized zymosan OZ (1 mg/mL) was measured. Polymorphonuclear leukocyte (PMN) subcellular components were prepared, after nitrogen cavitation, by separation on discontinuous sucrose gradients and NADPH oxidase activity was assessed in a SDS cell-free system. RESULTS: SCF had no effect on the activity of the neutrophil oxidase. Neutrophils isolated from patients treated with G-CSF and stimulated with PMA produced less (superoxide anion) O2- after therapy. PAF priming of the fMLP induced respiratory burst was also reduced after therapy with G-CSF. Subcellular NADPH oxidase activity was reduced before cytokine therapy commenced. This activity did not improve with cytokine treatment. CONCLUSIONS: It appears likely from this study that G-CSF therapy, with or without SCF, does not cause significant enhancement of neutrophil NADPH oxidase activity.

Functional studies on the anti-pathoangiogenic properties of CM101.

Group B streptococcus (GBS) isolated from human neonates diagnosed with sepsis and respiratory distress produces a polysaccharide exotoxin (CM101) which has been previously described as GBS toxin. CM101 infused i.v. into tumor-bearing mice causes rapid tumor neovascularitis, infiltration of inflammatory cells, inhibition of tumor growth and tumor apoptosis. CM101 has successfully completed phase I studies in refractory cancer patients with very encouraging results. We have now demonstrated a mechanism of action for CM101. Using a normal mouse tumor model, we have examined tumor and normal tissues which were harvested at 0, 5, 15, 30 and 60min post-infusion of either CM101 or dextran. We present evidence that CM101 is rapidly (within the first 5min) bound to the tumor neovasculature. Complement is activated by the alternative pathway (C3) and leukocytes start to infiltrate the tumor within the first 5min. Through RT-PCR and immunohistochemical techniques, we demonstrate that proinflammatory cytokines, interleukin-6 and tumor necrosis factor (TNF)-alpha, are up-regulated in infiltrating leukocytes and TNF receptor 2 is up- regulated in the targeted tumor neovasculature. Combined, these events constitute possible explanations for the observed pathophysiology of tumor ablation.

Mammal toxicity assessment of the plant molluscicide, Apodytes dimidiata (Icacinaceae), in South Africa.

Apodytes dimidiata has recently come to the fore as a potential plant molluscicide for schistosomiasis control in rural communities in South Africa. Prior to field applications of its leaves and extract to waterbodies, selected acute and sub-acute mammal toxicity tests were conducted in accordance with the Organisation of Economic Cooperation and Development (OECD) Guidelines to identify any potential hazards that might arise form the plant's use. Acute and sub-acute mammal toxicity test results classified A. dimidiata as non-toxic and non-irritating. Based on this toxicity evaluation, the dried leaf material and aqueous extracts of this plant are considered safe for use in preliminary field trials.

Phase I study of the antineovascularization drug CM101.

CM101 is a bacterial polysaccharide that induces neovascular inflammation in malignant tumors. Fifteen patients with refractory malignancies received CM101 i.v. by a 15-min infusion every other day, three times in 1 week, at doses ranging from 1 unit (7.5 microgram)/kg to 5 units/kg. Serum was analyzed for anti-CM101 IgG and IgM weekly. Plasma levels of inflammatory cytokines, including tumor necrosis factor alpha, interleukin 8, interleukin 10, MIP-1alpha, and soluble E-selectin, were analyzed from -15 min to 12 h during each treatment. Dose-limiting toxicities, including grade IV dyspnea and arrhythmia, were encountered at the 5-unit/kg level. Toxicities occurred primarily within the first 12 h after therapy and included mild-to-moderate fever and chills, nausea, cough, headache, facial flushing, dyspnea, myalgias, and acute tumor-related pain. No patient developed detectable antibodies to CM101. All patients experienced marked time- and dose-dependent elevations in all cytokines studied. Three patients experienced tumor shrinkage. The results show that CM101 can be safely administered at doses that produce evidence for severe, and possibly tumor-specific, inflammation. Further study is necessary to better characterize the mechanism of action and determine the optimal dose and schedule of this new agent.

Soluble E-selectin in cancer patients as a marker of the therapeutic efficacy of CM101, a tumor-inhibiting anti-neovascularization agent, evaluated in phase I clinical trail.

A polysaccharide toxin, GBS toxin, is produced by group B Streptococcus (GBS) isolates from neonates who died of "early-onset disease". GBS toxin, named CM101 in the clinic, was hypothesized, on the basis of our previous in vivo studies, to induce inflammation in pulmonary neovasculature in neonates by cross-linking of embryonic receptors still expressed after birth and in tumor neovasculature in adults. Immunohisto chemical in vitro analysis of human biopsies showed that tumor neovasculature is indeed a binding site for CM101. In vivo studies in mice have demonstrated that CM101 induced inflammatory responses in neoplastic tumor neovasculature causing inhibition of tumor growth and tumor cell necrosis. These experimental observations warranted a phase I clinical trial for CM101 as an anti-neovascularization agent in human cancer therapy. Cancer patients received one cycle of therapy consisting of three treatments during 1 week. CM101 was administered over 15 min by i.v. infusion. Dosages of 7.5 micrograms/kg (1 U/kg), n = 3; 15 micrograms/kg (2 U/kg), n = 6; 24.75 micrograms/kg (3.3 U/kg), n = 3; and 37.5 micrograms/kg (5 U/kg), n = 3 were used. Enzyme-linked immunosorbent sandwich assays (ELISA) of the patients sera showed a marked elevation of soluble E-selectin with a peak concentration observed at 8-12 h after each CM101 infusion. The average baseline value for soluble E-selectin prior to the first treatment was 97.3 +/- 23.4 ng/ml (mean +/- SEM, n = 15) and the average peak level at 8 h was 441.6 +/- 62.4 (mean +/- SEM, n = 15; P < 0.001). Subsequent treatments gave average maximum soluble E-selectin levels again at 8 h of 466.9 +/- 87.6 and 412.0 +/- 67.8 ng/ml, for treatments 2 and 3 respectively. Baseline values for treatments 2 and 3 were 192.3 +/- 26.4 and 226.4 +/- 26.1 ng/ml respectively (p < 0.01 versus treatment 1). Out of 15 patients, 5 showed tumor reduction or stabilization and were given additional cycles of therapy. CM101 induced an increase in soluble E-selectin levels, which remained elevated over baseline at the start of the following treatment cycles. The baseline remained elevated for several weeks after the final treatment, i.e., P < 0.01 for levels before treatment 1 compared to those at week 4 after treatment. Elevated soluble E-selectin is considered proof of endothelial engagement in an inflammatory process. Our data support the contention that the inflammatory response observed in these cancer patients is targeting the tumor neovasculature and that measurement of soluble E-selectin levels in patients treated with CM101 can provide important information on the magnitude of CM101-mediated neovascular endothelial activation and tumor cell damage in cancer of endothelial origin, or cancer with a major neo-angiogenic component.

Neutrophils from patients after burn injury express a deficiency of the oxidase components p47-phox and p67-phox.

Infection is a major cause of morbidity and mortality in patients after thermal injury. This predisposition to infections is related, in part, to abnormal polymorphonuclear leukocyte (PMN) function and a diminished respiratory burst. To evaluate the biochemical basis for the defective respiratory burst after major burns, the status of the oxidase enzyme system and its components was investigated. PMNs were isolated from 24 patients with 12% to 62% burns. Oxidase activity of intact PMNs, measured as superoxide anion (O2-) generation or oxygen consumption, was decreased in burn compared with healthy controls. Subcellular fractions from patient PMNs generated less O2- in the sodium dodecyl sulfate cell-free system, and this was related to a diminished contribution by cytosol but not by plasma membrane. Subsequently, cytosol was separated with CM-Sepharose, yielding two fractions; one contained the p47-phox and p67-phox (47/67 mix) and the other contained the remaining cytosolic components (run through [RT]). Although the contribution to oxidase activity made by RT from patient cytosol was similar to that of control, the activity of p47/67 mix from PMNs of burn patients was deficient. Quantitative assays using an immunoautoradiographic technique showed a consistent, but significant decrease in both p47-phox and p67-phox. The addition of purified or human recombinant p47-phox but not p67-phox corrected the diminished oxidase activity of cytosol from burn patients. Thus, decreased respiratory burst activity found in PMNs from individuals with thermal injury was associated with a specific, quantitative deficiency of p47-phox.

Quantification of tumor vascularity and flow with amplitude color Doppler sonography in an experimental model: preliminary results.

This study was designed to evaluate a system to quantitate vascularity and tumor blood flow with amplitude (power) color Doppler sonography. The vascularity of nine transplanted murine tumors was determined with quantitated amplitude color Doppler sonography and compared to tumor vascularity estimated by histologic examination. The system used seemed to provide an accurate depiction of the vascularity of tumor vis-àa-vis histologic estimation of vessel density (r = 0.80). Time-activity curves showed greater flow in the experimental group injected with an exotoxin than in the group injected with saline solution. Vascular density quantification with amplitude color Doppler sonography also was more accurate when an intravascular agent (such as an exotoxin) was used than when saline infusions were given. This quantification scheme may allow the development of a system to assess the probability of malignancy and to monitor tumor response to treatment on the basis of the vascularity of the mass.

Analysis of the priming activity of lipids generated during routine storage of platelet concentrates.

BACKGROUND: Compounds generated during the routine storage of platelet concentrates may have deleterious effects on the transfusion recipient. STUDY DESIGN AND METHODS: Daily plasma samples from platelet concentrates, both apheresis platelets and those separated from whole blood, were obtained serially during routine storage. These plasma samples were assayed for their ability to prime the NADPH oxidase in isolated human neutrophils. Quantitative and qualitative analysis of the priming agents was completed by lipid extraction, high-pressure liquid chromatography separation, and gas chromatography/mass spectroscopy. RESULTS: Compounds were generated in both apheresis and whole-blood platelets that significantly primed the NADPH oxidase after 24 and 48 hours of storage, respectively. The priming activity was maximal by component outdate: 2.6-fold that of the buffer-treated control neutrophils (apheresis) and 3.9-fold that of the buffer-treated control neutrophils (whole blood). These agents were generated by cellular constituents, as stored plasma did not demonstrate such priming activity. Inhibition of this priming activity by WEB 2170, a specific platelet-activating factor receptor antagonist, suggested that the observed priming involved the platelet-activating factor receptor. A portion of the priming activity from platelet concentrates was organically extractable: 69 percent of that from apheresis platelets and 46 percent of that from whole-blood platelets. Further purification of the lipid's priming activity by normal-phase high-pressure liquid chromatography demonstrated a single peak of priming activity at the retention time of lysophosphatidylcholines. Because 46 percent of the priming activity from whole-blood platelets was chloroform insoluble and because it has been reported that interleukin 8 is generated during routine storage of whole-blood platelets, the effects of interleukin 8 on the NADPH oxidase were examined. Recombinant monocyte interleukin 8 rapidly primed the oxidase but was not inhibited by WEB 2170. CONCLUSION: Lipids were generated during the routine storage of platelet concentrates that prime the NADPH oxidase, and they may play a role in the severe complications of transfusion therapy. Other non-lipid compounds, such as interleukin 8, that are generated in whole-blood platelets may also contribute to the observed priming activity of plasma.

Acute inflammatory changes in subcutaneous microtumors in the ears of mice induced by intravenous CM101 (GBS toxin).

CM101, a bacterial polysaccharide derived from group B streptococcus, induces pronounced inflammatory changes in and around tumor blood vessels 60 min after i.v. injection. A technique has been developed for implanting small numbers of tumor cells in the ear skin of mice. This allows macroscopic examination of the tumor and its supporting blood vessels as it reaches the 10000 cell size and greater. Treatments can be monitored in this model for effects on small "metastatic-like" tumor nodules by direct observation and by histological examination. Inflammatory changes were indicated by increased numbers of polymorphonuclear leukocytes (PMN) adjacent to and marginating within thin-walled blood vessels and within the tumor tissue. PMN were seen in the process of migrating through venules and enlarged capillaries, each with prominent endothelial cells. Tumor morphology was variable with evidence of occasional single necrotic cells. This contrasted with tumors in ears of dextran-treated or untreated mice, which had uniform tumor morphology, and acute inflammatory cells were rarely present.

CM101, a polysaccharide antitumor agent, does not inhibit wound healing in murine models.

CM101 (previously called GBS toxin), a new anticancer polysaccharide that induces inflammatory reactions in neovasculature of tumors, does not cause similar reactions in neovasculature of healing wounds. It appears that treatment with CM101 will not interfere with normal wound healing in cancer patients.

Partial characterization of lipids that develop during the routine storage of blood and prime the neutrophil NADPH oxidase.

Factors developed during the routine storage of whole blood and packed red blood cells that primed the neutrophil (PMN) reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase significantly by 2 weeks of storage, with maximal priming activity by product outdate (2.5 to 3.7 fold). These agents appeared to be generated by cellular constituents because stored, acellular plasma did not demonstrate PMN priming. The priming activity was soluble in chloroform. Priming of the oxidase by plasma and plasma extracts was inhibited by WEB 2170, a platelet-activating factor (PAF) receptor antagonist. Separation of the chloroform-soluble compounds from plasma by normal phase high-performance liquid chromatography demonstrated two peaks of priming activity at the retention times of neutral lipids and lysophosphatidylcholines (lyso-PCs) for both whole blood and packed red blood cells. Analysis of the latter peak of PMN priming by fast atom bombardment mass spectroscopy identified several specific lyso-PC species including C16 and C18 lyso-PAF. Further evaluation by gas chromatography/mass spectroscopy demonstrated that three of these species increased dramatically over product storage time, while the other two species increased modestly, and paralleled the increase in priming activity. Commercially available, purified mixtures of these lyso-PCs primed the PMN oxidase by twofold. When PMNs were incubated with this mixture of lyso-PCs, acetylated analogs of these compounds rapidly accumulated. Thus lipids, including specific lyso-PC species, develop during routine storage of cellular blood components, prime PMNs, and possibly play a role in the severe complications of transfusion therapy.

Occurrence of metastases in beagles with skeletal malignancies induced by internal irradiation.

Metastases from malignant bone tumors often are responsible for the fatal effects of these cancers. Characteristics of primary skeletal malignancies in beagles injected with bone-seeking radionuclides were studied by Thurman (1971) and summarized by Thurman et al. (1971). There were 212 tumors in 186 of these dogs for which we subsequently received information on bone tumor metastases. Evaluation of bone and soft tissue slides from these animals allowed us to compare parameters reported previously with the occurrence of grossly apparent bone tumor metastases. Data included growth-rate of the primary tumor, volume of the primary tumor at death, sex of the animal, growth period of the primary tumor, degree of calcification of the primary tumor, skeletal location of the primary tumor, cumulative radiation dose to the skeleton, dose equivalent to the skeleton, and year of death. For most of the comparisons, no significant differences could be established between dogs with and without metastases. However, tumor volume at death appeared to be correlated with probability of metastasis (p < 0.05), with the larger tumors being associated with higher rates of metastasis. Comparisons of dogs with and without metastases as a function of tumor growth-rate did not, for the most part, yield significantly different results between groups. Exceptions were when only one tumor per dog was considered for animals with multiple primary tumors and when only the tumor with the longest doubling time was included for all dogs with multiple primary tumors (p < 0.02). This effect was a result of only two tumors with doubling times > 45 d. Both had been characterized by Thurman (1971) as among the tumors with the least uncertainty in calculated doubling times. Rates of metastasis in dogs with primary tumors in paired bones were significantly higher than corresponding values of dogs with primary tumors in unpaired bones. Metastases in dogs with primary tumors in the ribs appeared to be more pronounced and those in the thoracic vertebrae appeared to be less pronounced than for animals with primary tumors in other bones as compared with the average for the whole skeleton.

Effects of group B Streptococcus toxin on long-term survival of mice bearing transplanted Madison lung tumors.

GBS toxin is a polysaccharide exotoxin produced by group B Streptococcus. This organism causes sepsis and respiratory distress in human neonates (so-called early onset disease). This disease is marked by a strong inflammatory response only in the lung, with pulmonary sequestration of granulocytes and extensive capillary endothelial damage, and occurs only during the first few days after birth. We have found that a similar inflammatory response can be induced by i.v. infusion of picomole quantities of GBS toxin in the developing vasculature of transplanted tumors in mice and can significantly retard the tumor growth. When optimum treatment with GBS toxin was started shortly after tumor implantation, a majority of tumors in the mice regressed and the mice remained tumor-free for over 5 months. Some tumors regressed in mice receiving short-term treatment with GBS toxin, but recurred after the treatment was stopped. Median survival times were extended by all regimens and all doses of GBS toxin tested. No evidence of toxicity to the vasculature of other tissues was observed. GBS toxin is being tested for cancer therapy in humans.

Compounds biologically similar to platelet activating factor are present in stored blood components.

Agents which prime the neutrophil NADPH oxidase develop during routine storage of whole blood and packed red blood cells. This plasma priming activity can be inhibited by bepafant (WEB 2170), a specific platelet activating factor (PAF) receptor antagonist. Quantitation of the priming agent(s), by a commercially available radioimmunoassay for PAF, reproducibly demonstrated high levels of PAF activity. However, analysis of these plasma samples from stored blood components by gas chromatography/mass spectroscopy did not reveal any 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine. We conclude that the polyclonal antibody to PAF used in these studies may have recognized different epitopes of a family of heterogeneous, biologically active lipids that manifest their effects through the PAF receptor.