Charles H. Packman

One hundred autotransplants for relapsed or refractory Hodgkin's disease and lymphoma: value of pretransplant disease status for predicting outcome.

PURPOSE One hundred autotransplants for Hodgkins disease (HD) or non-Hodgkins lymphoma (NHL) were examined prospectively to identify variables with prognostic significance. PATIENTS AND METHODS Ninety-six patients with relapsed or refractory HD or NHL underwent 100 autotransplants. Patients received high-dose carmustine (BCNU), etoposide, cytarabine, and cyclophosphamide (BEAC) followed by unpurged autologous stem-cell rescue. RESULTS The 3-year actuarial event-free survival (EFS) rate for the 47 HD patients is 49%, with a median followup duration of 2 years. For the 53 NHL patients, the 3-year actuarial EFS rate is 40%, with a median follow-up duration of 19 months. By multivariate analysis, minimal disease on admission (all areas < or = 2 cm) is associated with improved EFS (HD, P = .003, NHL, P = .03). The projected EFS rate for HD patients entering with minimal disease is 70% versus 15% for patients with bulky disease (P = .0001). The projected EFS rate for NHL patients with minimal disease is 48% versus 25% for patients with bulky disease (P = .04). Posttransplant involved-field radiotherapy, administered to 26 of the last 61 patients, was associated with an improved EFS rate for NHL patients (P = .015). The BEAC regimen was well tolerated by patients who entered the study with minimal disease (mortality rate, < 5%), but caused significant toxicity in patients with bulky disease (mortality rate, 25%). CONCLUSION Disease burden before autotransplantation is an important predictor of regimen-related toxicity and EFS. Posttransplant involved-field radiotherapy may improve outcomes in select patients with NHL. The BEAC regimen is safe and effective, particularly for patients with minimal disease.

Analysis of Factors That Correlate With Mucositis in Recipients of Autologous and Allogeneic Stem-Cell Transplants

PURPOSE To identify predictors of oral mucositis and gastrointestinal toxicity after high-dose therapy. PATIENTS AND METHODS Mucositis and gastrointestinal toxicity were prospectively evaluated in 202 recipients of high-dose therapy and autologous or allogeneic stem-cell rescue. Of 10 outcome variables, three were selected as end points: the peak value for the University of Nebraska Oral Assessment Score (MUCPEAK), the duration of parenteral nutritional support, and the peak daily output of diarrhea. Potential covariates included patient age, sex, diagnosis, treatment protocol, transplantation type, stem-cell source, and rate of neutrophil recovery. The three selected end points were also examined for correlation with blood infections and transplant-related mortality. RESULTS A diagnosis of leukemia, use of total body irradiation, allogeneic transplantation, and delayed neutrophil recovery were associated with increased oral mucositis and longer parenteral nutritional support. No factors were associated with diarrhea. Also, moderate to severe oral mucositis (MUCPEAK > or = 18 on a scale of 8 to 24) was correlated with blood infections and transplant-related mortality: 60% of patients with MUCPEAK > or = 18 had positive blood cultures versus 30% of patients with MUCPEAK less than 18 (P =.001); 24% of patients with MUCPEAK > or = 8 died during the transplantation procedure versus 4% of patients with MUCPEAK less than 18 (P =.001). CONCLUSION Gastrointestinal toxicity is a major cause of transplant-related morbidity and mortality, emphasizing the need for corrective strategies. The peak oral mucositis score and the duration of parenteral nutritional support are useful indices of gastrointestinal toxicity because these end points are correlated with clinically significant events, including blood infections and treatment-related mortality.

Changes in cytoskeletal actin content, F-actin distribution, and surface morphology during HL-60 cell volume regulation

Cell volume regulation occurs via the regulated fluxes of ions and solutes across the cell membrane in response to cell volume perturbations under anisotonic conditions. Our earlier studies in human promyelocytic leukemic HL‐60 cells showed that volume‐dependent changes in total cellular F‐actin content occur concomitantly as an inverse function of acute cell volume changes in anisotonic media (Hallows et al., 1991, Am. J. Physiol., 261:C1154–C1161). Although treatment with cytochalasin under anisotonic conditions significantly reduced total cellular F‐actin levels, cytochalasin did not significantly affect the ability of cells to undergo normal volume regulation responses, which suggested that these volume‐dependent changes in F‐actin content may not play a critical role in HL‐60 cell volume regulation. To examine more closely the possible role of the actin cytoskeleton in HL‐60 cell volume regulation, we quantitated changes in Triton‐insoluble cytoskeletal actin in the presence and absence of cytochalasin and also observed changes in F‐actin distribution and surface morphology during volume regulation. The quantity of cytoskeletal‐associated F‐actin, like total F‐actin, shifts inversely with initial cell volume changes in anisotonic media; however, subsequent changes in cytoskeletal actin levels during volume regulation are not significant. The soluble F‐actin pool in HL‐60 cells may thus be more susceptible to the physicochemical effects of shifts in cell volume than the insoluble (cytoskeletal) F‐actin pool. Twenty‐five micromolar dihydrocytochalasin B (DHB) treatment dramatically lowers cellular cytoskeletal actin levels by ∼75% under resting (isotonic) conditions, but there are no significant further changes in cytoskeletal actin as cells undergo anisotonic volume regulation in the presence of DHB. These results suggest that volume‐dependent changes in the absolute amounts of cytoskeletal‐associated F‐actin are not critical for HL‐60 cell volume regulation. However, because some portions of the actin cytoskeleton are resistant to cytochalasin disruption during volume regulation, a role for the cytoskeleton in the sensing and signaling of HL‐60 cell volume regulatory responses cannot be rigorously excluded. Particular F‐actin distribution patterns, as observed using confocal fluorescent microscopy, were correlated with particular phases of volume regulation. Also, comparison of cellular F‐actin distribution with surface morphology (observed by scanning electronic microscopy) of cells during volume regulation reveals a positive correlation between surface blebs and increased cortical F‐actin staining intensity.

Autotransplantation for relapsed or refractory Hodgkin's disease : long-term follow-up and analysis of prognostic factors

Seventy consecutive patients with refractory or relapsed Hodgkin’s disease who received high-dose chemotherapy followed by autologous stem cell rescue were analyzed to identify clinically relevant predictors of long-term event-free survival. High-dose therapy consisted primarily of carmustine (BCNU), etoposide, cytarabine and cyclophosphamide (BEAC). The 5-year Kaplan–Meier event-free survival (EFS) for the entire cohort was 32% (95% confidence interval; 18–45%) with a median follow-up of 3.6 years (range 7 months–7.6 years). The most significant predictor of improved survival was the presence of minimal disease (defined as all areas ⩽2 cm) at the time of transplant: the 5 years EFS was 46 vs 10% for patients with bulky disease (P = 0.0002). Other independent predictors identified by step-wise regression analysis included the presence of non-refractory disease and the administration of post-transplant involved-field radiotherapy (XRT). Treatment-related mortality occurred in 13 of 70 patients: nine patients (13%) died within the first 100 days, mainly from cardiopulmonary toxicity. However, only one of 24 patients (4%) transplanted during the last 4.5 years died from early treatment-related complications. While high-dose therapy followed by autotransplantation led to long-term EFS of 50% for patients with favorable prognostic factors, a substantial proportion of patients relapsed, indicating that new therapeutic strategies are needed.

Autotransplantation for relapsed or refractory non-Hodgkin's lymphoma (NHL): long-term follow-up and analysis of prognostic factors.

One hundred and thirty-six patients autografted for relapsed or refractory non-Hodgkin’s lymphoma (NHL) were evaluated to assess long-term event-free survival and to identify important prognostic factors. High-dose therapy consisted primarily of carmustine (BCNU), etoposide, cytarabine, and cyclophosphamide (BEAC) followed by unpurged autologous stem cell rescue. The 5-year Kaplan–Meier event-free survival (EFS) for the entire cohort was 34% (95% confidence interval: 24–44%) with a median follow-up of approximately 3 years (range 0–7.5 years). For patients entering with minimal disease (defined as all areas ⩽2 cm), the 5-year EFS was 40 vs 26% for those entering with bulky disease (P = 0.0004). In the multivariate analysis, minimal disease on entry and administration of involved-field XRT post-transplant were significantly associated with improved EFS; the latter association was observed mainly in the cohort of patients with bulky disease. The overall 100-day treatment-related mortality rate was 4.4% (3% for the last 71 patients). New strategies are needed to reduce the high rate of relapse (50–60%) following autotransplantation for relapsed or refractory NHL.

Inhibition of the Lytic Action of Cell-bound Terminal Complement Components by Human High Density Lipoproteins and Apoproteins

Human serum lipoproteins are known to participate in or modify several immunologically relevant responses, including the inhibition of target cell lysis initiated by fluid-phase C5b-7 (reactive lysis). We now report that human high density lipoproteins (HDL) can inhibit the complement (C) lytic mechanism after C5b-7, C5b-8, and even C5b-9 have been bound to the target membrane. This inhibitory activity of serum or plasma copurifies in hydrophobic chromatography with antigenically detected apolipoprotein A-I (apoA-I), the major HDL apoprotein, and with HDL in CsCl density gradient ultracentrifugation. Although HDL is more active than its apoproteins in fluid-phase inhibition of C5b-7-initiated reactive lysis, the HDL apoproteins are more effective after C5b-7, C5b-8, or C5b-9 have become bound to human or sheep erythrocytes (E). Highly purified HDL apoproteins, apoA-I and apoA-II, both have greater inhibitory activity than whole HDL on a protein weight basis, and some evidence has been obtained that apoA-I dissociating spontaneously from HDL may be the principal inhibitory moiety in physiological situations. HDL lipids themselves are inactive. The HDL-related inhibitors are ineffective when incubated with EC5b-7 and removed before C8 and C9 are added, and only minimally effective on cell-bound C5b-8 sites before C9 is added. They exert their most prominent inhibitory activity after C9 has been bound to EC5b-8 at low temperature, but before the final temperature-dependent, Zn(++)-inhibitable membrane damage steps have occurred. Therefore, HDL or its apoproteins do not act to repair already established transmembrane channels, but might interfere either with insertion of C9 into the lipid bilayer or with polymerization of C9 at C5b-8 sites. This heat-stable inhibitory activity can be demonstrated to modify lysis of erythrocytes in whole serum, i.e., it does not depend upon artificial interruption of the complement membrane attack sequence at any of the above-mentioned stages. Contributions of the target membrane itself to the mechanism of inhibition are suggested by the observations that, in contrast to sheep or normal human E, lysis of guinea pig E or human E from patients with paroxysmal nocturnal hemoglobinuria is inhibited poorly. This is the first description of a naturally occurring plasma inhibitor acting on the terminal, membrane-associated events in complement lysis. Although further study is required to assess the physiologic or immunopathologic significance of this new function of HDL, the HDL apoproteins or their relevant fragments should be useful experimentally as molecular probes of the lytic mechanism.

Complement Lysis of Human Erythrocytes: DIFFERING SUSCEPTIBILITY OF TWO TYPES OF PAROXYSMAL NOCTURNAL HEMOGLOBINURIA CELLS TO C5b-9

Although enhanced sensitivity of erythrocytes to complement-mediated lysis is a hallmark of paroxysmal nocturnal hemoglobinuria (PNH), subpopulations of erythrocytes in such patients vary significantly in this respect. One PNH erythrocyte subpopulation (termed type III) comprises exquisitely sensitive cells, whereas type II PNH erythrocytes are intermediate in complement sensitivity between PNH type III and normal human erythrocytes. Differences in the action of the terminal complement components that would account for the differing lytic behavior of types II and III PNH erythrocytes have been proposed but not directly demonstrated. The present studies, making use of carefully selected cases with pure populations of type II or type III erythrocytes, confirm a prior observation that antibody-coated PNH erythrocytes of both types II and III display comparably supranormal C3 binding in whole human serum. However, when lysis was induced by the isolated C5b-9 membrane attack mechanism, bypassing the requirement for C3 binding, only type III PNH cells exhibited greater than normal lysis. This finding suggests that type III PNH erythrocytes have an additional membrane abnormality not present in type II cells. Thus, the differing lytic behavior of these two cell types in whole serum may reflect the additive effects on type III cells of both exaggerated C3 binding and enhanced sensitivity to C5b-9, whereas the more moderate lysis of type II PNH cells may be determined mainly or entirely by the earlier-acting mechanism producing augmented C3 binding. The failure of guinea pig C8 and C9, as opposed to human C8 and C9, to reveal the true lytic sensitivity of PNH-III E in our earlier study is illustrated, and its implications briefly discussed.

Functional properties of HL60 cells matured with all-trans-retinoic acid and DMSO: Differences in response to interleukin-8 and fMLP

All-trans-retinoic acid (ATRA) causes granulocyte differentiation in patients with acute promyelocytic leukemia. HL60 cells are frequently used as an in vitro model for studying granulocytes during maturation. We have previously studied actin polymerization in response to fMLP in HL60 cells undergoing DMSO induced maturation, and reported that IL-8 causes actin polymerization in neutrophils in a manner similar to fMLP. We now compare chemotaxis and actin polymerization in response to IL-8 and fMLP, and nitroblue tetrazolium (NBT) reduction in HL60 cells matured with ATRA and DMSO. Cells cultured for 4 days with ATRA and DMSO showed morphologic evidence of maturation. NBD-phallacidin staining and flow cytometry were used to measure changes in F-actin content in response to IL-8 and fMLP. Uninduced cells were not capable of actin polymerization or chemotaxis. Cells matured with ATRA exhibited a 2.6-fold increase in F-actin content in response to IL-8, but only a 1.2-fold increase in response to fMLP. Cells matured with DMSO responded to both IL-8 and fMLP in an equal manner with 1.6-fold increases in F-actin. The 2 h migration for ATRA induced cells was 124 microns in response to IL-8, 107 microns with fMLP, and 105 microns in buffer. DMSO induced cells migrated 89 microns in response to IL-8, 106 microns with fMLP, and 66 microns in buffer. With maturation, 65% of the ATRA induced cells reduced NBT compared with only 15% of the DMSO induced cells. In summary, HL60 cells cultured in ATRA develop greater functional maturity than those cultured in DMSO, and a greater responsiveness to IL-8 than fMLP, a finding distinct from previously reported work in neutrophils.

High-density lipoprotein and its apolipoproteins inhibit cytolytic activity of complement. Studies on the nature of inhibitory moiety

Human high-density lipoprotein (HDL) and its apolipoproteins A-I and A-II inhibit complement-mediated lysis of human and sheep erythrocytes. This inhibitory activity under study is exerted after C9 is bound to membrane-associated C5b-8 complexes but prior to completed assembly and insertion of the C5b-9 complex. In this paper, we define some structure-activity relationships of the inhibitory moiety. With the exception of weak lytic inhibitory activity found in LDL/VLDL pools and in some unconcentrated minor fractions of plasma obtained by hydrophobic chromatography, all inhibitor activity was found in fractions which contained either apolipoprotein A-I, apolipoprotein A-II, or both. Intact HDL has a high level of inhibitor activity but delipidation by chloroform-methanol extraction was associated with an increase in activity on a protein-weight basis. Purified apolipoprotein A-I and apolipoprotein A-II exhibited equal inhibitory activity, greater than that exhibited by intact HDL. Nevertheless, ultracentrifugal fractions in which no free apolipoproteins could be demonstrated still possessed inhibitory activity. These experiments suggest that delipidation of HDL is not necessary for expression of inhibitor activity, although we could not rule out the possibility that apolipoproteins in dynamic equilibrium with HDL are responsible for the inhibitor activity observed in whole serum and plasma and in HDL preparations. Limited proteinase digestion completely abolished the inhibitory activity of partially delipidated HDL. Phospholipase C had little or no effect on the inhibitory activity of delipidated HDL, apolipoprotein A-I or apolipoprotein A-II, but reduced the inhibitory activity of intact HDL. These data suggest that the phospholipid polar headgroups are not necessary for inhibitory activity. However, the loss of these headgroups is associated with decreased activity, possibly due to increased hydrophobicity of HDL, or increased association among HDL micelles, and subsequent decrease in effective molar concentration of the inhibitory moiety.

Perspectives on ambulatory programs: Barriers and implementation strategies

In this article, we share strategies used at several institutions to address common issues in establishing ambulatory experiences. The issues are grouped under three major headings: institutional/policy issues (institutional resistance, financing, faculty incentives), administrative/implementation issues (sites, patients, and space; recruiting faculty; recruiting/placing students), and curricular/academic issues (planning the experience, faculty development, program evaluation). First we review the rationale for ambulatory experiences and then briefly describe the programs involved. Next, for each topic area, we outline specific issues and strategies found useful at our institutions, including a variety of perspectives that should help readers find approaches that may be especially useful in their own environment.