Effect of continuous, whole-body gamma irradiation upon canine lymphohematopoietic (CFU-GM, CFU-L) progenitors and a possible hematopoietic regulatory population

Clonogenic assays for granulocytes-macrophages (CFU-GM) in bone marrow and for T lymphocytes (CFU-L) in peripheral blood were performed on dogs continuously exposed to 60Co irradiation (0.02, 0.04, or 0.11 Gy/day). When decreased numbers of CFU-GM were observed they correlated well with the clinical status of the dogs but were not generally associated with increasing cumulative doses of absorbed irradiation. In clinically normal, irradiated animals, decreased CFU-GM values and myeloid-erythroid ratios were observed, suggesting that chronic irradiation may affect the granulocytic series well before decreased peripheral blood values are seen. In hypocellular dogs the number of CFU-GM were significantly decreased compared to values obtained from control or clinically normal irradiated dogs, while virtually no CFU-GM were observed in the leukemic dogs. Only the CFU-GM values of the hypocellular group showed an association, e.g., a suggestion of an abortive regenerative effort, with increasing absorbed dose. Proliferative capacity of T lymphocytes (CFU-L) was not affected by either increasing absorbed irradiation or the presence of leukemia. D0 values were determined on marrow fibroblastic cells to ascertain whether a radioresistant subpopulation of stromal elements would result from continuous in vivo irradiation. No correlation was found between absorbed dose and increased D0 values. However, seven of eight dogs which developed acute nonlymphocytic leukemia displayed marrow fibroblastic cells with elevated D0 values. These radioresistant marrow fibroblastic cells were assayed for their ability to support normal granulopoiesis and found to be not significantly different from control fibroblasts.     

Stem cells from peripheral blood and bone marrow: a comparative evaluation of the hemopoietic potential in the dog

The kinetics and pattern of hemopoietic recovery after supralethal total-body irradiation (TBI) were compared after transfusion of cryopreserved autografts derived from peripheral blood and bone marrow. Fractionated TBI was given in three doses of 6 Gy each at intervals of 48 h. Grafts of peripheral blood mononuclear cells (MNC) were collected by means of continuous-flow centrifugation and by using the mobilizing agent, dextran sulphate. Autografts were adjusted to contain equal numbers of committed progenitor cells (CFU-GM). Dogs grafted with blood-derived MNC (group A) and with MNC from bone marrow (group B) all received about 1 X 10(5) CFU-GM per kg body weight. In all dogs consistent hemopoietic engraftment was achieved. Comparing the pattern of regeneration of the granulocytes, group A dogs showed a significant regeneratory advantage over group B dogs, particularly during the first 20 days after transplantation. Lymphoid recovery was more rapid in group A until day 14. In both groups, blood lymphocytes remained below normal values beyond day 100. The regeneration patterns of the platelets and reticulocytes revealed no significant differences. These results are in agreement with the hypothesis that there are differences in the relationship between CFU-GM content and hemopoietic potential of autografts from different sources.     

Effects of prodigiozan on post-radiation recovery of hemopoietic precursor cells and colony-stimulating factor level in long-term cultures of mouse bone marrow

Prodigiozan injected to long-term cultures of mouse bone marrow 24 h before irradiation increased CFUs and CFU-GM number and colony-stimulating factor (CSF) level by the time of delivery of ionizing radiation. As early as 60 min following irradiation of bone marrow structures with a dose of 2 Gy the number of CFUs and CFU-GM decreased considerably, and from day 3 on after irradiation the indices under study were gradually restored. By day 14 the cultures preinjected with prodigiozan exhibited higher recovery levels. The decrease in the number of precursor cells 60 min after irradiation was accompanied by a drastic increase in the CSF content of cultures; the CSF release in cultures protected with prodigiozan was more moderate than in the irradiated controls.     

A new approach to evaluate the total reserve of hematopoietic progenitors after acute irradiation

Based on the capacity of certain hematopoietic growth factors to mobilize the hematopoietic progenitors from bone marrow to peripheral blood, we have investigated whether the number of progenitors that can be mobilized to peripheral blood after irradiation correlates with the radiation dose and reflects the total reserve of bone marrow progenitors that survive the exposure. In three different mouse strains, a close relationship was observed between the number of G-CSF mobilized progenitors and the radiation dose received by the animals. When G-CSF was replaced by one single injection of SD01 plus thrombopoietin, a similar relationship between the two parameters was observed, which fitted to the multitarget theoretical model. This treatment also promoted 50% survival in mice receiving a lethal dose of 9 Gy. The estimation of the total number of CFU-GM progenitors in the irradiated mice also allowed us to establish a good relationship between the number of progenitors that were mobilized to peripheral blood with respect to the global reserve of surviving progenitors. These results suggest that the quantification of mobilized hematopoietic progenitors would predict the severity and reversibility of the hematopoietic syndrome of irradiated victims, based on direct estimations of their global reserve of hematopoietic progenitors and stem cells.     

Alterations in immune responses in prenatally irradiated dogs

Immunologic responses were studied in beagle dogs following prenatal (35 days gestation) irradiation to evaluate the effects of ionizing radiation on the developing immune system. Each dog received 1.5 Gy 60Co gamma irradiation or sham irradiation. Prenatally irradiated dogs exhibited a significant reduction in primary humoral antibody responses to inoculated sheep red blood cells, a T-dependent antigen, and a concurrent decrease in T-helper lymphocyte subpopulations in the peripheral blood at 3 to 4 months of age. Similarly, irradiated fetuses have been shown to have defects in epitheliostromal development of the thymus. It is suggested that the postnatal immunologic deficits may relate to the prenatal thymic injury.     

Lithium-stimulated recovery of granulopoiesis after sublethal irradiation is not mediated via increased levels of colony stimulating factor (CSF)

We have previously demonstrated that lithium (Li) is an effective agent in accelerating the recovery of granulopoiesis following sublethal (2 Gy) whole body irradiation. In this report, studies are described that further define this Li-mediated recovery by measuring the levels of colony-stimulating factor (CSF) present in serum from mice administered 105 micrograms/mouse (total dose) of ultra-pure Li2CO3 for 3 days immediately following irradiation. On days 1-28 following the last lithium dose, the serum was tested for its CSF activity against both normal non-adherent derived bone marrow target cells and non-adherent marrow cells from mice administered cyclophosphamide (200 mg/kg body weight). Serum was assayed at 0.01, 0.1, 1 and 10 per cent final concentration. No significant difference in the total number of CFU-GM was observed from normal marrow using either serum from irradiated mice or lithium-treated and irradiated mice, although the irradiation did produce a 300 per cent rise in CFU-GM colonies compared to normal serum (days 4 and 10-15). From regenerating marrow, we observed a significant difference (P less than or equal to 0.01) in CFU-GM cultured with serum at 0.1 per cent concentration from irradiated and lithium-treated mice compared to irradiated mice without lithium. The presence of CSF was confirmed by its reduced activity in the presence of anti-(CSF). These results suggest (Li) may increase the sensitivity of CFU-GM to CSF, thereby producing more CFU-GM ultimately providing more circulating granulocytes.     

裂变中子照射狗血清集落刺激因子的变化

利用体外半固体琼脂培养骨髓粒单系祖细胞的方法测定狗血清中集落刺激因子(CSF)活力。狗受1.3、1.7和2.0Gy裂变中子照射后1～15d,受照射动物血清CSF持续上升。2.0Gy照射动物死前血清CSF活力可为照射前7～20倍。1.3Gy及1.7Gy照射活存狗照射后13～30d CSF活力直线下降。γ线3.5和2.5Gy照射狗早期血清中CSF活力变动呈波动性,5～10d后持续上升的幅度也不如中子照射动物。 实验结果证明,血清CSF活力和外周血白细胞数的变化呈负相关。本文对中子照射动物血清CSF活力升高的机理和CSF在中子照射动物造血恢复中的意义进行了探讨。     

HAPO促进放射损伤小鼠的造血重建

目的 明确人促血液血管细胞生成素 (HAPO)对骨髓抑制小鼠的造血重建作用。方法 研究HAPO、G-CSF对骨髓抑制小鼠的促造血作用,以700 cGy 137Csγ射线全身照射的Balb/c小鼠为模型,观察照射后小鼠的生存率;检查血常规;计数内源性脾结节;计数骨髓细胞数;采用半固体培养基进行集落培养检测骨髓细胞的高增殖潜能;取小鼠骨髓细胞接种于96孔培养板,分别在照射前或照射后加HAPO、G-CSF培养72hr,MTT方法测定活细胞数;取小鼠骨髓细胞,分别在照射后加HAPO,培养3周后观察各组小鼠骨髓细胞的生长情况。结果 HAPO、G-CSF均可明显提高放射后的小鼠的生存率;使内源性的脾集落增加。照射后的各组小鼠外周血白细胞变化较为明显,HAPO组白细胞恢复快于PBS组,也可高于G-CSF组。各组小鼠骨髓细胞数虽然14天时G-CSF组最为明显,但32天时HAPO组骨髓细胞数超过G-CSF组,至42天时基本恢复正常;而G-CSF组在32天、42天时骨髓细胞数仍低于正常值。在7天、14天、32天时取各组小鼠骨髓细胞高增殖潜能检测试验,HAPO组生成的GEMM-CFU数均最多。在照射前与HAPO、G-CSF孵育的骨髓细胞,HAPO组活细胞数量比对照组明显增高,而G-CSF组与对照组无明显差异。骨髓细胞被照射后培养72hr时,MTT测定显示不同剂量HAPO、G-CSF均能促进放射后骨髓细胞的增殖。骨髓细胞被照射后继续培养3周,HAPO组均有造血岛生成,细胞sca-1、CD31呈阳性,周围CD31阳性的内皮细胞增多。而PBS组则未出现造血岛,基质细胞中极少有CD31阳性细胞的内皮细胞,未发现sca-1阳性细胞。结论 体内、外实验表明,人促血液血管细胞生成素HAPO对放射损伤的Balb/c小鼠有明显的促造血重建作用,提高小鼠的生存率,促进其造血干细胞的增殖与生长。     

The effect of granulocyte-macrophage colony-stimulating factor on hemopoiesis recovery and the survival of irradiated mice

A human recombinant granulocytic-and-macrophagic colony-stimulating factor (rGM-CSF) administered repeatedly to irradiated (10 Gy) CBA mice increased CFUs and CFU-GM content, the number of bone marrow granulocytes and erythronormoblasts, and spleen and peripheral blood cellularity. The survival rate of exposed (9.7 Gy) mice repeatedly injected with rGM-CSF increased from 25% (control) to 90%.     

Sustained engraftment of mice transplanted with IL-1-primed blood-derived stem cells.

IL-1 is considered the primary mediator of the acute phase response. One of the characteristic manifestations of this response is early neutrophilia that is probably caused by release of mature neutrophils from the bone marrow into the peripheral blood. In the present study, we assessed whether IL-1 had a similar releasing effect on the number of circulating progenitor cells and stem cells. Female BALB/c mice were injected i.p. with increasing (0.1-1.0 micrograms/mouse) concentrations of rhu-IL-1 alpha. IL-1 injection resulted in a marked dose-dependent increase in the number of polymorphonuclear neutrophils, granulocyte-macrophage colony-forming units (CFU-GM), and cells forming spleen colonies (CFU-S day 8 and day 12). The maximal increase was found at 4 to 8 h after injection of 1 micrograms IL-1 per mouse, yielding a mean fivefold elevation in neutrophil count, and a mean 30-fold and 10-fold increase in the number of circulating CFU-GM and CFU-S, respectively. In a subsequent series of experiments, lethally irradiated (8.5 Gy) female recipient animals were transplanted with 5 x 10(5) blood mononuclear cells derived from male IL-1-treated animals. Long-term survival was obtained in 68% of mice transplanted with peripheral blood cells derived from donor animals at 6 h after a single injection of 1 micrograms IL-1. The mean number of circulating CFU-GM in these donor animals was 557/ml blood. At 6 mo after transplantation, greater than 95% of the bone marrow cells were of male origin, as determined using in situ hybridization with a Y-chromosome specific probe. In contrast, long-term survival was reached in less than 10% of mice transplanted with an equal number of blood cells derived from saline-treated controls or donor animals treated with a dose of 0.1 micrograms IL-1. These results indicate that a single injection of IL-1 induces a shift of hematopoietic progenitor cells and marrow repopulating cells into peripheral blood and that these cells can be used to rescue and permanently repopulate the bone marrow of lethally irradiated recipients.     

载氢-纳米氧化铈微泡对小鼠造血系统抗辐射作用的分析

为探讨载氢-纳米氧化铈微泡对小鼠辐射损伤的防护作用。本研究检测载氢-纳米氧化铈微泡的表征,并将60只BALB/c小鼠随机分为正常对照组、照射对照组、载氢-纳米氧化铈微泡组。小鼠经6Gy x射线一次性全身照射(剂量率2 Gy/min)。于照射后3 d和8 d处死小鼠,检测其外周血细胞数、脾脏和胸腺指数、骨髓和脾脏组织病理学变化。结果显示,照射后3 d和8 d,与正常对照组相比,载氢-纳米氧化铈微泡组和照射对照组的白细胞均明显下降,相比照射对照组,载氢-纳米氧化铈微泡组有改善(p<0.05或p<0.01);而载氢-纳米氧化铈微泡组和照射对照组的红细胞数和血红蛋白均略有下降,但差异无统计学意义。与正常对照组相比,微泡组的胸腺指数、脾脏指数均有下降,和照射对照组相比,载氢-纳米氧化铈微泡组的胸腺指数明显改善(p<0.05或p<0.01)。照射后3 d,与正常对照组相比,照射对照组的骨髓细胞较少,存在细胞碎片,载氢-纳米氧化铈微泡组骨髓细胞数量略有减少,存在细胞核松散现象。而照射后8 d,与正常对照组相比,照射对照组的骨髓细胞几乎找不到,载氢-纳米氧化铈微泡组骨髓细胞有一定数量,存在细胞凋亡现象。本研究表明,载氢-纳米氧化铈微泡通过保护造血组织、改善造血功能,对机体起到一定的辐射防护作用。     

Characteristics of the dynamics of hematopoietic precursor cells cloned in diffusion chambers and recorded in experiments on mice and dogs irradiated in median lethal doses]

In experiments with mice and dogs irradiated with LD50, it was shown the postirradiation depopulation of haemopoietic polypotent (CFUs) cell-precursors in mouse bone marrow was more pronounced than that of granulocytic and macrophagal cells (CFUdc). The rate of repopulation of CFUs during the first week was higher than that of CFUdc (T1/2 was 2.5 and 8.8 days respectively). In dogs, one could notice a partial change in the colony formation, a prolonged plateau period in the postirradiation CFUdc dynamics, and a coincidence in time with cellularity restoration in the bone marrow and peripheral blood leukocytes. It is suggested that in conditions of heterogeneous incubation in diffuse chambers, the haemopoietic cell-precursors are more mature than in the syngeneic system. The method of CFUdc determination has proved to be ineffective in estimating the onset and intensity of the postirradiation haemopoiesis recovery in dogs. The study of the bone marrow CFUdc population may, however, be used in intact animals to predict the probability of their death after irradiation within the median lethal dose range.     

Radioprotection by whole body hyperthermia: possible mechanism(s)

Studies were carried out to gain an insight into the mechanisms underlying WBH induced radioprotection. The plasma levels of IL-1α, IL-6, TNF-α and GM-CSF, were elevated in WBH treated mice between 2 and 6 h after treatment. The total nucleated cell count of hemopoietic tissues such as spleen, thymus, bone marrow and peripheral blood showed drastic reduction without recovery until death in mice treated with TBI. However, the nucleated cell count in the above tissues showed significant recovery after initial drop in WBH and WBH+TBI treated groups and reached to a normal level by day 7 and day 28, respectively. The total WBC and RBC count in peripheral blood recovered to a control level by day 28 after treatment. Significant number of endogenous spleen colonies were detected, 14 days after TBI in WBH pre-treated mice whereas no such spleen colonies could be detected in TBI treated group. The transplantation of bone marrow derived from control, WBH, TBI and WBH+TBI treated groups of mice to lethally irradiated mice (8 Gy) showed formation of spleen colonies only in mice which received bone marrow from control, WBH and WBH+TBI treated groups. Transplantation of the bone marrow from these groups of mice resulted in prolonged survival of lethally irradiated mice as compared to mice receiving bone marrow from TBI treated mice. These results seem to suggest that WBH induced radioprotection of mice could be due to immunomodulation manifested through induction of cytokines responsible for protection and proliferative response, leading to accelerated recovery from hemopoietic damage-a major cause of radiation induced death.     

Repopulating potential of hematopoietic precursor cells

Experiments were performed in 1800 cGy whole-body x-irradiated dogs. Mononuclear cells were collected from bone marrow, peripheral blood, and fetal liver. They were cryopreserved in -196 degrees C liquid nitrogen until used for transplantation. The thawed transfusates were adjusted to contain 1.5-1.6 x 10(5) CFU-GM per kg body weight. The blood granulocyte recovery was rapid after transfusion of blood-derived stem cells as compared to the use of bone-marrow-derived stem cells. In both instances, however, normal values were not reached for several weeks. In contrast, the use of fetal-liver-derived stem cells resulted in a very rapid initial granulocyte increase with a return of values to normal (or even overshoot) within 3 weeks after transplantation. A biomathematical granulocyte renewal simulation system is described that permits calculation of the absolute number of pluripotent stem cells in the transfusate. The data after fetal liver stem cell transplantation can be fitted only if an initial stem cell replication rate of 0.95 is assumed (in contrast to 0.65 using bone marrow or blood-derived stem cells).     

The effect of splenectomy on bone marrow haematopoiesis in mice.

Splenectomy was performed in strain H mice. Erythrocyte macrocytosis and an increase in the reticulocyte, leucocyte and thrombocyte count were found in the peripheral blood of splenectomized animals; only the erythrocyte count fell in the first 3 weeks after splenectomy. Changes in the myelogram during the first weeks after splenectomy were characterized by an increase in the proportion of cells of the erythrocytic and lymphocytic series. The stem cell count in the bone marrow (determined after Till and McCulloch) was slightly elevated on the 8th day after splenectomy, but in subsequent weeks was rather lower than the control group values. Whatever the post-splenectomy interval at which bone marrow was taken from splenectomized mice, there was no significant difference in the transplantation effect of bone marrow cells on white and thrombocyte haematopoiesis. Bone marrow transplantation was found have a stimulant effect only on the reticulocyte count and the sooner bone marrow was collected after splenectomy, the more pronounced the effect. Changes in the myelogram and splenogram of irradiated mice to which the bone marrow cells of splenectomized mice had been transplanted were relatively small.     

Acute post-irradiation canine intestinal blood flow

Radiation-induced early transient incapacitation (ETI) is accompanied by severe systemic hypotension, during which arterial blood pressure often decreases to less than 50 per cent of normal. One haemodynamic compensatory mechanism is increased peripheral resistance due to vasoconstriction. This vasoconstriction in the small intestine of dogs is disproportionately increased during haemorrhagic or endotoxic shock, and intestinal ischaemia is frequent. In an attempt to elucidate mechanisms underlying radiation-induced ETI and the gastrointestinal radiation syndrome, canine intestinal submucosal blood flow was measured by the hydrogen polarographic technique, both before and after exposure to gamma radiation. Systemic blood pressures, blood gases and haematocrits were determined simultaneously. Data obtained from 12 sham-irradiated dogs and 12 irradiated dogs indicated that 90 Gy, whole-body, gamma radiation produced a 31 per cent decrease in systemic mean blood pressure beginning within 20 min post-irradiation and lasting for at least 90 min. However, the intestinal submucosal blood flow did not decrease as anticipated, but it exhibited an actual post-irradiation increase. This increase in post-irradiation intestinal submucosal blood flow began within 5 min after irradiation and lasted for at least 90 min. Post-irradiation haematocrits were 10.5 per cent higher than those obtained before irradiation and those obtained from sham-irradiated subjects. Histopathological examination of ileal mucosa revealed significant pathologic lesions in some irradiated animals within two hours after exposure.     

Assessment of DNA damage in canine peripheral blood and bone marrow after total body irradiation using the single-cell gel electrophoresis technique

DNA damage in single peripheral blood (pb) and bone marrow (bm) cells was studied in dogs which were exposed to total body X-ray irradiation (TBI) with a lethal dose of 3.9 Gy. The changes in pb and bm cell numbers were measured within 9 days after TBI. Using the alkaline single-cell gel electrophoresis technique (‘comet’ assay). DNA strand breaks and alkali labile sites were assessed in single cells derived from the blood before TBI, 1 h and 4 h after TBI and on days 1, 3 and 9 after TBI. Bone marrow cells subjected to the assay were collected before and on days 1 and 9 after TBI. Cells expressing the strongest DNA damage were most frequent in the blood 1 h after TBI and in the bone marrow 1 day after exposure. Thereafter, a continuous reduction of DNA damage in individual cells was observed in the course of progressive leukopenia and granulocytopenia.     

Smad3基因剔除对小鼠造血功能的影响

研究Smad3基因剔除对小鼠造血功能的影响。实验小鼠分为 5组 ,每组有Smad3基因剔除小鼠(Smad3 - - )和其同窝孪生的野生型小鼠 (Smad3 + + )各 1只。小鼠的造血功能用 14天形成的脾结节 (CFU S1 4 )、多系祖细胞 (CFU GEMM)、粒 单系祖细胞 (CFU GM)、红系祖细胞 (BFU E)测定及外周血象、骨髓象等实验血液学指标来确定。每组小鼠取尾血作白细胞、红细胞和血小板计数 ,涂片作白细胞分类计数。将一侧股骨的骨髓冲出 ,制成单细胞悬液 ,计数其中有核细胞数 ,测定CFU GM、BFU E、CFU GEMM值。将每只小鼠的 4× 10 4个骨髓有核细胞 ,经尾静脉注入 3只 8～ 10周经致死量射线照射的同系雌性小鼠体内 ,测定 14天的CFU S。取一部分胸骨、肝脏、脾脏固定做病理切片 ,其余胸骨冲出骨髓 ,涂片作分类计数。结果Smad3 - - 小鼠外周血白细胞和血小板计数明显高于Smad3 + + 小鼠 ,红细胞数无显著差异。外周血白细胞分类结果也表明粒细胞显著增高。骨髓有核细胞数无显著差异 ,CFU GM显著增高 ,BFU E无显著差异 ,CFU GEMM明显减少 ,CFU S显著减少。病理形态学观察发现骨髓增生极度活跃 ,以粒系为主 ,肝脾无显著差别。骨髓涂片分类表明粒系增多 ,粒系 :红系比例增高。因此得出结论Smad3基因剔除使小鼠造血干祖细胞数目     

Postoperative irradiation of fresh autogenic cancellous bone grafts

Discontinuity defects were created in the mandibles of dogs and then reconstructed immediately with fresh autogenic cancellous bone grafts and Dacron-urethane prostheses. The grafts were irradiated to a total dose of 5000 rads after waiting intervals of between 3 and 12 weeks. Nonirradiated grafts served as controls. The grafts were evaluated clinically, radiographically, and histologically. There was complete incorporation of all grafts, regardless of the interval between surgery and radiotherapy. There were no soft-tissue complications. The controls were distinguishable from the irradiated grafts only by the presence of hematopoietic bone marrow. Fibrofatty marrow was observed in the irradiated grafts. Theoretical support for this technique is found in the biology of cancellous bone grafting and the pathology of radiation injury. In view of the difficulties associated with mandibular bone grafting in preoperatively irradiated patients, a new method of reconstructing selected cancer patients who require both mandibular resection and radiotherapy is suggested.     

Early bone marrow hematopoietic defect in simian/human immunodeficiency virus C2/1-infected macaques and relevance to advance of disease

To clarify hematological abnormalities following infection with human immunodeficiency virus (HIV), we examined the hematopoietic capability of bone marrow by using cynomolgus monkeys infected with pathogenic simian/human immunodeficiency virus (SHIV) strain C2/1, an animal model of HIV infection. The relationship between the progress of the infection and the CD4/CD8 ratio of T lymphocytes or the amount of SHIV C2/1 viral load in the peripheral blood was also investigated. A colony assay was performed to assess the hematopoietic capability of bone marrow stem cells during the early and advanced phases of the infection. Colonies of granulocytes-macrophages (GM) were examined by PCR for the presence of the SIVmac239 gag region to reveal direct viral infection. There was a remarkable decrease in the CFU-GM growth on days 1 and 3 postinoculation, followed by recovery on day 56. During the more advanced stage, the CFU-GM growth decreased again. There was minimal evidence of direct viral infection of pooled cultured CFU-GM despite the continuously low CD4/CD8 ratios. These results indicate that the decrease in colony formation by bone marrow stem cells is reversible and fluctuates with the advance of the disease. This decrease was not due to direct viral infection of CFU-GM. Our data may support the concept that, in the early phase, production of inhibitory factors or deficiency of a stimulatory cytokine is responsible for some of the bone marrow defects described in the SHIV C2/1 model.