Clonal hematopoiesis related TET2 loss-of-function impedes IL1ß-mediated epigenetic reprogramming in hematopoietic stem and progenitor cells.

Clonal hematopoiesis (CH) is defined as a single hematopoietic stem/progenitor cell (HSPC) gaining selective advantage over a broader range of HSPCs. When linked to somatic mutations in myeloid malignancy-associated genes, such as TET2-mediated clonal hematopoiesis of indeterminate potential or CHIP, it represents increased risk for hematological malignancies and cardiovascular disease. IL1ß is elevated in patients with CHIP, however, its effect is not well understood. Here we show that IL1ß promotes expansion of pro-inflammatory monocytes/macrophages, coinciding with a failure in the demethylation of lymphoid and erythroid lineage associated enhancers and transcription factor binding sites, in a mouse model of CHIP with hematopoietic-cell-specific deletion of Tet2. DNA-methylation is significantly lost in wild type HSPCs upon IL1ß administration, which is resisted by Tet2-deficient HSPCs, and thus IL1ß enhances the self-renewing ability of Tet2-deficient HSPCs by upregulating genes associated with self-renewal and by resisting demethylation of transcription factor binding sites related to terminal differentiation. Using aged mouse models and human progenitors, we demonstrate that targeting IL1 signaling could represent an early intervention strategy in preleukemic disorders. In summary, our results show that Tet2 is an important mediator of an IL1ß-promoted epigenetic program to maintain the fine balance between self-renewal and lineage differentiation during hematopoiesis.

Toxic megacolon: a life-threatening complication of high-dose therapy and autologous stem cell transplantation among patients with AL amyloidosis.

AL amyloidosis is a plasma cell disorder in which tissue deposition of immunoglobulin light chains leads to organ dysfunction. Recent reports of high-dose therapy with autologous stem cell transplantation for amyloidosis suggest higher response rates and extended survival compared to those seen with conventional chemotherapy. However, substantial treatment-related toxicity has been observed. This case series describes our institutional experience with autologous transplantation in four patients with amyloidosis with an emphasis on unique gastrointestinal toxicities, including toxic megacolon.

Progenipoietin-1: a multifunctional agonist of the granulocyte colony-stimulating factor receptor and fetal liver tyrosine kinase-3 is a potent mobilizer of hematopoietic stem cells.

OBJECTIVE: Progenipoietin-1 is an agonist of both the granulocyte colony-stimulating factor and fetal liver tyrosine kinase-3 receptors capable of inducing the proliferation of multiple hematopoietic cell lineages. The potential of progenipoietin-1 to mobilize transplantable hematopoietic stem cells into the peripheral blood was evaluated. METHODS: Cohorts of donor mice were treated with either progenipoietin-1, fetal liver tyrosine kinase-3 ligand, granulocyte colony-stimulating factor, or a vehicle control. Hematopoietic progenitor/stem-cell activity in donor blood was assayed by radioprotection, multilineage reconstitution, secondary transplantation, and competitive repopulation. RESULTS: Only 1 microL of peripheral blood from progenipoietin-1-treated donors was required to protect 80% of lethally irradiated mice, while in contrast 1 microL of peripheral blood from granulocyte colony-stimulating factor-treated donors failed to protect any recipients. The radioprotected recipients of progenipoietin-1-treated donor cells showed donor-derived (Ly5.2) multilineage hematopoietic reconstitution for up to 6 months. Serial transplantation studies using bone marrow from radioprotected, chimeric recipients demonstrated long-term donor-derived hematopoiesis, indicating the successful transplantation of multipotent hematopoietic stem cells. The engraftment potential of progenipoietin-1 donor-derived cells was directly compared with donors treated with granulocyte colony-stimulating factor or fetal liver tyrosine kinase-3 ligand alone or in combination. Both spleen colony-forming activity and competitive repopulating activity was highest in the blood from progenipoietin-1-treated donors. CONCLUSIONS: These studies demonstrate that progenipoietin-1 is a potent mobilizer of transplantable hematopoietic stem cells and indicate that this dual-receptor agonist has greater biologic activity than its constituent molecules.

In vivo selection of wild-type hematopoietic stem cells in a murine model of Fanconi anemia.

Fanconi anemia (FA) is an autosomal recessive disorder characterized by birth defects, increased incidence of malignancy, and progressive bone marrow failure. Bone marrow transplantation is therapeutic and, therefore, FA is a candidate disease for hematopoietic gene therapy. The frequent finding of somatic mosaicism in blood of FA patients has raised the question of whether wild-type bone marrow may have a selective growth advantage. To test this hypothesis, a cohort radio-ablated wild-type mice were transplanted with a 1:1 mixture of FA group C knockout (FACKO) and wild-type bone marrow. Analysis of peripheral blood at 1 month posttransplantation showed only a moderate advantage for wild-type cells, but upon serial transplantation, clear selection was observed. Next, a cohort of FACKO mice received a transplant of wild-type marrow cells without prior radio-ablation. No wild-type cells were detected in peripheral blood after transplantation, but a single injection of mitomycin C (MMC) resulted in an increase to greater than 25% of wild-type DNA. Serial transplantation showed that the selection occurred at the level of hematopoietic stem cells. No systemic side effects were observed. Our results show that in vivo selection for wild-type hematopoietic stem cells occurs in FA and that it is enhanced by MMC administration.

Administration of daniplestim and granulocyte colony-stimulating factor for the mobilization of hematopoietic progenitor cells in nonhuman primates.

We investigated the effects of administering a high-affinity interleukin-3 receptor agonist (daniplestim) and granulocyte colony-stimulating factor (G-CSF) on the mobilization of primitive hematopoietic progenitor cells into peripheral blood (PB). Groups of five rhesus monkeys were treated with 100 mg/kg of daniplestim for 5 days followed by 10 microg/kg of G-CSF for 5 days (D/G), daniplestim and G-CSF administered concurrently for 10 days (D+G), or G-CSF alone for 10 days. Phenotypic PB analysis indicated that the number of CD34+ cells in the G-CSF group had increased to 28 x 10(6)/L by Day 3 and then declined. In contrast, CD34+ cell counts of up to 68 x 10(6)/L were maintained until Day 10 in both the D/G and D+G groups. On Day 5, the total number of colony-forming cells in the PB had increased 15-fold in the D+G group and eightfold in both the D/G group and the G-CSF groups. By Day 7, the numbers of colony-forming units granulocyte/macrophage were comparable in all three groups, and 45-fold increases in the numbers of burst-forming units-erythroid and 12-fold increases in the numbers of multipotent colony-forming units were seen in both the D+G and the D/G groups. The frequency of circulating primitive progenitor cells in long-term stromal cultures was highest with D+G and lowest with G-CSF alone. These results indicate that the combination of daniplestim and G-CSF produces higher and more sustained levels of circulating stem cells than does G-CSF alone. D+G may offer advantages over D/G because it generates more long- and short-term clonogenic cells.

In utero transplantation of human fetal haemopoietic cells in NOD/SCID mice.

We have previously demonstrated that high levels of allogeneic, donor-derived mouse haemopoietic progenitor cells engraft following in utero transplantation in NOD/SCID mice. To evaluate whether the fetal NOD/SCID haemopoietic microenvironment supports the growth and development of human fetal haemopoietic progenitor cells, we injected fetal liver mononuclear cells (FL) or fetal bone marrow (FBM) derived CD34+ cells into NOD/SCID mice on day 13/14 of gestation. At 8 weeks of age 12% of FBM recipients and 10% of FL recipients were found to have been successfully engrafted with CD45+ human cells. CD45+ cells were present in the BM of all chimaeric animals; 5/6 recipients showed engraftment of the spleen, and 4/6 recipients had circulating human cells in the peripheral blood (PB). The highest levels of donor cells were found in the BM, with up to 15% of the nucleated cells expressing human specific antigens. Multilineage human haemopoietic engraftment, including B cells (CD19), myelomonocytic cells (CD13/33) and haemopoietic progenitor cells (CD34), was detected in the BM of chimaeric mice. In contrast, no human CD3+ cells were detected in any of the tissues evaluated. When the absolute number of engrafted human cells in the PB, BM and spleens of chimaeric mice was determined, a mean 16-fold expansion of human donor cells was observed. Although multilineage engraftment occurs in these fetal recipients, both the frequency and the levels of engraftment are lower than those previously reported when human cells are transplanted into adult NOD/SCID recipients.

Lymphoid reconstitution after autologous PBSC transplantation with FACS-sorted CD34+ hematopoietic progenitors.

T-cell and B-cell reconstitution was studied in nine patients who received fluorescence activated cell sorter (FACS)-sorted autologous CD34+ hematopoietic progenitor cells (HPC). The mean numbers of T cells (CD3+), B cells (CD19+) and CD34+ HPC administered to each patient were .004, .002, and 1.8 x 10(6) cells/kg, respectively. After high-dose myeloablative chemotherapy (busulfan, cyclophosphamide, etoposide) CD34+) HPC were infused and lymphoid reconstitution was monitored using flow cytometry and reverse transcriptase-polymerase chain reaction (RT-PCR) amplification of VDJ T-cell receptor (TcR) sequences. Restoration of normal numbers of peripheral blood T cells and B cells among recipients of FACS-sorted CD34+ HPC was delayed compared to recipients of non-T-cell-depleted PBSC autografts. In both patient groups, the circulating T cells were primarily CD4-, CD8+, alphabeta TcR+, and CD45RO+, CD45RA- during the first 2 months after transplant. Subsequent increases in the frequency of CD45RA+ CD45RO- T cells occurred at 2 to 3 months after transplant, suggesting maturation of CD34+ hematopoietic progenitors to "naive" T cells. Analysis of the TcR repertoire after hematopoietic reconstitution demonstrated decreased diversity of Vbeta TcR expression associated with global decreases in the absolute number of total peripheral blood T cells and most Vbeta TcR+ subsets. Three of nine recipients of FACS-sorted CD34+ HPC demonstrated significant increases in the percentage of gammadelta+ peripheral T cells and CD5+ B cells at 3 to 9 weeks after transplantation, and all patients had transient oligoclonal expansions of T cells expressing specific Vbeta TcR. Transplantation with highly purified CD34+ HPC results in reduced diversity of the peripheral T-cell repertoire during the early post-transplant period compared with patients receiving unmanipulated or MoAb-depleted transplants.

MHC class II gene silencing in trophoblast cells is caused by inhibition of CIITA expression.

PROBLEM: Major histocompatibility complex (MHC) class II molecule expression is specifically suppressed on fetal trophoblasts, even in response to interferon (IFN)-gamma, a potent inducer of MHC class II genes. The suppression of class II induction has been suggested to play a role in preventing rejection of the fetal allograft. The mechanism of this suppression is unknown. METHOD OF STUDY: Human trophoblast cell lines were examined for expression of MHC class II transcription factors and for activity of the IFN-gamma signaling pathway. Additionally, trophoblast cells were transfected with a vector expressing the class II transactivator, CIITA, and assayed for class II expression. RESULTS: The MHC class II transcription factors RFX and X2BP and the IFN-gamma signaling pathway components are expressed constitutively and are functional in trophoblasts. However, CIITA expression was absent in trophoblasts and could not be induced by IFN-gamma. Transfection of CIITA into trophoblast cells resulted in derepression of class II gene expression. CONCLUSIONS: The lack of induction of MHC class II genes in response to IFN-gamma in trophoblast cells is caused neither by the absence of factors that bind class II promoters, nor by a lesion in the IFN-gamma signaling pathway, but results from a specific inhibition of the CIITA gene.

Sustained multilineage engraftment of allogeneic hematopoietic stem cells in NOD/SCID mice after in utero transplantation.

Substantial barriers exist to the engraftment of hematopoietic cells in mice after in utero transplantation. Although high levels of donor-derived hematopoiesis have been reported in SCID mice, the majority of chimeric recipients exhibit decreasing levels of donor cells over time. To directly test whether the natural killer cell and macrophage activity of the recipients represents a barrier to sustained engraftment, fetal NOD/SCID mice were injected on day 13.5 of gestation with an enriched congenic hematopoietic progenitor cell population. Forty-four percent of pups showed the presence of Ly5.1+ donor cells 4 weeks after transplantation. The mean number of donor-derived nucleated cells in the peripheral blood (PB) was 30%. Although the majority of circulating donor cells were lymphocytes, up to 15% expressed myelomonocytic markers. Serial PB samples from individual mice indicated that the percentage of circulating donor cells increased from 17% to 55% between 4 and 24 weeks. At 6 months posttransplantation, an increased frequency of multilineage, donor-derived cells was also observed in the bone marrow (BM) and the spleen of chimeric recipients. The engraftment of pluripotent hematopoietic stem cells was evaluated by transplanting BM from chimeric mice into irradiated congenic recipients. Irradiated secondary recipients also exhibited multilineage donor-derived hematopoiesis in the PB, BM, and spleen for up to 6 months. These results show that the in utero transplantation of lineage-depleted BM cells into NOD/SCID recipients produces a high frequency of sustained engraftment of allogeneic hematopoietic stem cells.

Engraftment potential of different sources of human hematopoietic progenitor cells in BNX Mice.

Human hematopoietic progenitor cells (HPCs) from mobilized peripheral blood mononuclear cells (PBMCs), adult bone marrow (ABM), and fetal bone marrow (FBM) were evaluated for their ability to produce multilineage human hematopoietic engraftment in vivo. Sublethally irradiated BNX (beige/nude/xid) mice were injected with either unfractionated cells or CD34+ cells purified from these sources. The presence of human cells in the mouse PB, BM, and spleen was evaluated by flow cytometry at either 6 to 8 weeks or 6 months postinjection. Recipients with > or = 1% human cells in any of these tissues were considered chimeric. Of 26 mice injected with FBM, 4 showed up to 73% human cells in the BM or spleen at 6 months. The phenotypes of these cells included CD13/33+ myelomonocytic cells (38%), CD19+ B cells (67%), and CD34+ progenitor cells (28%). In contrast, ABM gave rise to a mean of 5% human cells in the PB in 2 of 42 (4%) recipients at 6 to 8 weeks. These circulating human cells were predominantly CD3+, whereas CD13/33+ and CD34+ cells were detected in the BM for up to 6 months. A total of 18% of mice injected with PBMCs showed a mean of 36% human cells in the PB. Both the BM and spleens of PBMC-injected mice contained CD3+ cells in a proportion similar to that observed in the PB. These CD3+ cells were phenotypically mature CD4+,CD8- or CD4-,CD8+ T cells and coexpressed a variety of Vbeta T-cell receptor (TCR) genes. The percentage of CD3+ cells in the circulation of chimeric recipients injected with either FBM, ABM, or PBMCs correlated well with the input CD3+ cell dose for each of these HPC sources (r = .99). The high levels of engraftment of CD3+ cells in recipients of PBMCs and the long-term multilineage engraftment of FBM recipients have important implications for developing strategies to study the regulation of these human cells in vivo.

CD34+ progenitor cells from asymptomatic patients are not a major reservoir for human immunodeficiency virus-1.

Controversy exists as to whether hematopoietic progenitor cells are infected by human immunodeficiency virus-1 (HIV-1) in vivo. Most studies have focused on patients with acquired immunodeficiency syndrome (AIDS)/AIDS-related complex, and little data are available on asymptomatic patients with well preserved CD4+ T-cell counts. To determine if CD34+ hematopoietic progenitor cells are infected early in the course of HIV-1 disease, we evaluated 10 asymptomatic HIV-1 seropositive (HIV-1+) patients. The CD34+ cell fraction was purified by a two-step procedure consisting of both affinity chromatography and fluorescence-activated cell sorting that resulted in a median purity of over 99%. Using conventional and nested polymerase chain reaction (PCR) assays, we evaluated the presence and frequency of HIV-1 proviral DNA. Both bone marrow mononuclear cells and CD34- cells from all 10 patients were strongly positive for the HIV-1 pol and/or gag gene sequences. In contrast, sorted CD34+ cells from only two of 10 patients were positive, and the number of copies of proviral DNA in these samples was estimated to be from 2 to 5 per 250,000 cells. To test the in vitro functional capacity of CD34+ progenitors, these cells were assayed in both methylcellulose and long-term stromal culture. We found no significant reduction in the number of colony-forming unit-erythroid (CFU-E), burst-forming unit-erythroid (BFU-E), or colony-forming unit-granulocyte macrophage (CFU-GM) colonies, or in the frequency of cobblestone area forming cells from limit dilution analysis in HIV-1+ asymptomatic patients. Pooled methylcellulose colonies generated from CD34+ cells were HIV-1- in nine of 10 samples. All progeny from long-term cultures of CD34+ cells were HIV-1-. We conclude that the CD34+ hematopoietic progenitor compartment is not infected in the majority of asymptomatic HIV-1+ patients, and that these cells may represent a suitable target for strategies designed to protect developing CD4+ T cells from infection.

Pulmonary resection for invasive Aspergillus infections in immunocompromised patients.

Standard antifungal medical therapy of invasive pulmonary aspergillosis that occurs in immunocompromised patients with hematologic diseases with neutropenia or in liver transplant recipients results in less than a 5% survival. In view of these dismal mortality rates, we adopted an aggressive approach with resection of the involved area of lung along with systemic antifungal therapy when localized invasive pulmonary aspergillosis developed in these patients. Between January 1987 and December 1993, 14 patients with hematologic diseases and 2 liver transplant recipients underwent resection of acute localized pulmonary masses suggestive of invasive pulmonary aspergillosis a median of 7.5 days (range 1 to 45 days) after the diagnosis was clinically suggested and confirmed by chest computed tomographic scans. Operative procedures done included two pneumonectomies, one bilobectomy with limited thoracoplasty, nine lobectomies, and five wedge resections (one patient with hematologic disease had two procedures). All patients were treated before and after the operation with antifungal agents. Nine (64%) of 14 patients with hematologic disease and 2 (100%) of 2 liver transplant recipients survived the hospitalization with no evidence of recurrent Aspergillus infection after a median 8 months of follow-up (range 3 to 82 months). The five hospital deaths (all patients with hematologic diseases) occurred a median of 20 days after operation from diffuse alveolar hemorrhage in three, graft-versus-host disease in one, and multiple organ system failure with presumed disseminated Aspergillus infection in one. Four of the five deaths were in patients with allogeneic bone marrow transplants. Two of the three patients requiring resection of multiple foci of infection died, as did the only patient who was preoperatively ventilator dependent. In immunocompromised patients with hematologic diseases or liver transplantation with invasive pulmonary aspergillosis, early pulmonary resection should be strongly considered when the characteristic clinical and radiographic pictures appear.

Myocardial protection for acquired heart disease surgery: results of a national survey.

To study current myocardial protection practices, all 4,393 United States board-certified thoracic surgeons were surveyed in 1992. Of the 1,413 respondents (32% total response), 936 are in active practice dealing with acquired heart disease. Based on their frequency of cases, respondents perform approximately 32% of all acquired heart disease operations in the United States yearly and individually average 157 patients/year. For myocardial protection, 98% of respondents routinely use cardioplegic arrest. The primary method of cardioplegia delivery is antegrade 36%, retrograde 4%, and a combination of antegrade and retrograde 60%. The types of cardioplegic solutions used are blood 72%, crystalloid 22%, and oxygenated crystalloid 6%. Continuous warm blood cardioplegia is used by 10% of respondents, whereas most (75%) have adopted a skeptical "wait and see" attitude or have abandoned it (6%). Overall, most surgeons (78%) report that they are very satisfied with their present methods of myocardial protection, whereas only 2% are dissatisfied. Still, the three areas believed most important for future research are reperfusion injury (74%), acutely infarcting myocardium (61%), and metabolic enhancers in cardioplegia (58%).

Techniques to simplify esophagogastric circular stapled anastomoses.

Stapling devices for end-to-end anastomoses (EEA) have facilitated more rapid and reliable reestablishment of esophagogastric continuity following esophageal resections. Despite their ease of use, various intraoperative problems can arise, especially with the esophageal pursestring or the insertion of the anvil into the fragile, commonly contracted lumen. This paper describes various technical details that are useful adjuncts to allow creation of rapid, consistently successful EEA stapled esophagogastric anastomoses. These techniques are of particular value in the resident teaching setting.

Prevalence of multidrug resistance related to activation of the mdr1 gene in human sarcoma mutants derived by single-step doxorubicin selection.

Fluctuation analysis experiments were performed in the human sarcoma cell line MES-SA to assess whether selection or induction mechanisms determine resistance to doxorubicin (DOX), mutation rates, and the nature of the surviving clones. Thirteen flasks were seeded with 2000 cells/flask and grown to confluent populations of approximately 3.3 x 10(6) cells. After reseeding in 96-well plates, each population was treated with 40 nM DOX for 2 weeks. Surviving colonies were scored and harvested. Clones were propagated and analyzed for drug resistance phenotype. Expression of the mdr1, mrp, and topoisomerase II alpha and II beta genes was analyzed by reverse transcription-polymerase chain reaction. Accumulation of the P-glycoprotein substrate rhodamine-123 was measured by flow cytometry, with and without the cyclosporin D analogue SDZ PSC 833. Cellular glutathione levels were measured by flow cytometry, and M(r) 110,000 vesicular protein (p110) expression was detected by immunohistochemistry. Analysis of variance supported the hypothesis of spontaneous mutations rather than induction conferring DOX resistance. At this stringent level (5-6 log cell killing) of drug exposure, the mutation rate was estimated at 1.8 x 10(-6) per cell generation. All 30 propagated clones demonstrated cross-resistance to vinblastine, etoposide, and paclitaxel (Taxol), but not to cisplatin or bleomycin. Increased mRNA levels of mdr1 were observed in all 27 clones tested, including at least 1 from each of the 13 populations. No alterations were found in expression or level of topoisomerase II alpha or II beta, mrp, glutathione, and p110. Expression of P-glycoprotein was confirmed by flow cytometry using the monoclonal antibody UIC2. In almost all tested clones, decreased intracellular rhodamine-123 accumulation was modulated by 2 microM SDZ PSC 833, and the vinblastine resistance in all examined clones was completely reversed by SDZ PSC 833 and verapamil. Our study demonstrates that survival of cells exposed to DOX in a single step occurs as a result of a stochastic process consistent with mutational events. Activation of the mdr1 gene is the predominant mechanism selected by DOX in these resistant clones.

Rapid and sustained hematopoietic recovery in lethally irradiated mice transplanted with purified Thy-1.1lo Lin-Sca-1+ hematopoietic stem cells.

Hematopoietic stem cells (HSCs) are believed to play a critical role in the sustained repopulation of all blood cells after bone marrow transplantation (BMT). However, understanding the role of HSCs versus other hematopoietic cells in the quantitative reconstitution of various blood cell types has awaited methods to isolate HSCs. A candidate population of mouse HSCs, Thy-1.1lo Lin-Sca-1+ cells, was isolated several years ago and, recently, this population has been shown to be the only population of BM cells that contains HSCs in C57BL/Ka-Thy-1.1 mice. As few as 100 of these cells can radioprotect 95% to 100% of irradiated mice, resulting long-term multilineage reconstitution. In this study, we examined the reconstitution potential of irradiated mice transplanted with purified Thy-1.1lo Lin-Sca-1+ BM cells. Donor-derived peripheral blood (PB) white blood cells were detected as early as day 9 or 10 when 100 to 1,000 Thy-1.1lo Lin-Sca-1+ cells were used, with minor dose-dependent differences. The reappearance of platelets by day 14 and thereafter was also seen at all HSC doses (100 to 1,000 cells), with a slight dose-dependence. All studied HSC doses also allowed RBC levels to recover, although at the 100 cell dose a delay in hematocrit recovery was observed at day 14. When irradiated mice were transplanted with 500 Thy-1.1lo Lin-Sca-1+ cells compared with 1 x 10(6) BM cells (the equivalent amount of cells that contain 500 Thy-1.1lo Lin-Sca-1+ cells as well as progenitor and mature cells), very little difference in the kinetics of recovery of PB, white blood cells, platelets, and hematocrit was observed. Surprisingly, even when 200 Thy1.1lo Lin-Sca-1+ cells were mixed with 4 x 10(5) Sca-1- BM cells in a competitive repopulation assay, most of the early (days 11 and 14) PB myeloid cells were derived from the HSC genotype, indicating the superiority of the Thy-1.1lo Lin-Sca-1+ cells over Sca-1- cells even in the early phases of myeloid reconstitution. Within the Thy-1.1lo Lin-Sca-1+ population, the Rhodamine 123 (Rh123)hi subset dominates in PB myeloid reconstitution at 10 to 14 days, only to be overtaken by the Rh123lo subset at 3 weeks and thereafter. These findings indicate that HSCs can account for the early phase of hematopoietic recovery, as well as sustained hematopoiesis, and raise questions about the role of non-HSC BM populations in the setting of BMT.

Intrapleural fibrinolytic treatment of multiloculated thoracic empyemas.

Acute multiloculated thoracic empyemas incompletely drained by tube thoracostomy alone usually require operation. To avoid a thoracotomy yet treat this difficult problem, intrapleural fibrinolytic agents were employed. Between April 1, 1990, and April 1, 1993, 13 consecutive patients presenting with a fibrinopurulent empyema were demonstrated to have incomplete drainage. To facilitate drainage, streptokinase, 250,000 units in 100 mL 0.9% saline solution (3 patients), or urokinase, 100,000 units in 100 mL 0.9% saline solution (10 patients), was instilled daily into the chest tube, and the tube was clamped for 6 to 12 hours followed by suction. This routine was continued daily for a mean of 6.8 +/- 3.7 days (range, 1 to 14 days) until resolution of the pleural fluid collection was demonstrated by computed chest tomography and clinical indications. This regimen was completely successful in 10 of 13 patients (77%), who had resolution of the empyema, eventual withdrawal of chest tubes, and no recurrence. Two patients, both pediatric liver transplant patients, had an initial good response but eventually required decortication. One patient with a good radiographic response became increasingly febrile during streptokinase therapy and underwent a thoracotomy, but no significant undrained fluid was found. This patient's continued fever was believed to be a streptokinase reaction. Urokinase was used subsequently. No treatment-related mortalities or complications occurred. Intrapleural fibrinolytic agents, especially urokinase, are safe, cost-effective means of facilitating complete chest tube drainage, thereby avoiding the morbidity of a major thoracotomy for 77% of a group of multiloculated empyema patients who traditionally would have required open surgical therapy.

The in vivo effects of steel factor on natural killer lineage cells in murine spleen and bone marrow.

Steel factor (S1F), also known as stem cell factor, is a potent growth stimulator of hemopoietic progenitor cells. In the context of transplantation of hemopoietic cells to irradiated allogeneic hosts, natural killer (NK) cells exert restrictive control on hemopoietic cell proliferation, and are regularly found in elevated concentration in areas of intense hemopoiesis. The present study was designed to examine the effects with time of S1F in vivo on the numbers of NK cells, identified by the presence of the NK 1.1 surface molecule, in the spleen and bone marrow. Throughout the first 3 days of S1F exposure, NK cell numbers, in spite of rapid (1 day) and significant increases in the other hemopoietic cell lineages, did not change in either the spleen or the bone marrow. However, NK cells were increased 2-fold in both organs by 7 days of S1F exposure. At this time, immature granuloid and erythroid cells and the large lymphoid cells in the spleen had more than doubled their respective control numbers and in the bone marrow, immature granuloid cells increased by 47% of control levels. The presence of a late, but not early, influence of S1F on NK cells of the spleen and bone marrow suggests an indirect effect of S1F on this lineage, occurring only when S1F-stimulated hemopoiesis becomes sufficiently intense, providing, thus, an abundance of NK cell targets.

Functional heterogeneity is associated with the cell cycle status of murine hematopoietic stem cells.

Hematopoietic stem cells (HSCs) are characterized by their ability to differentiate into all hematopoietic cell lineages while retaining their capacity for self renewal. One of the predictions of this model is the existence of a heterogeneous pool of HSCs, some members of which are destined to become lineage restricted progenitor cells while others function to renew the stem cell pool. To test whether HSCs are heterogeneous with respect to cell cycle status, we determined the fraction of phenotypically defined murine HSCs (Thy1.1lo Lin-/lo Sca-1+) that contain > 2n amount of DNA as measured by propidium iodide staining, Hoechst dye uptake and [3H]thymidine labeling; that fraction is 18-22%. In contrast, in the developing fetal liver, 40% of HSCs are in the S/G2/M phases of the cell cycle. Those HSCs which exhibit a low level of staining with rhodamine 123 are almost exclusively in G0/G1 (97%) whereas only 70% of HSCs which stain brightly for rhodamine 123 are in G0/G1. The injection of 100 G0/G1 HSCs rescued 90% of lethally irradiated mice in contrast to 100 S/G2/M HSCs, which protected only 25% of lethally irradiated recipients. Enhanced long-term donor-derived multilineage reconstitution of the peripheral blood was observed in recipients of 100 G0/G1 HSCs compared to recipients of 100 S/G2/M cells. These data indicate that a significant proportion of HSCs are actively proliferating during steady state hematopoiesis and that this subpopulation of cells exhibits reduced stem cell activity.