CD34+和CD34-细胞在NOD/SCID小鼠体内的造血重建

利用非肥胖糖尿病型重症联合免疫缺陷型(NOD/SCID)小鼠模型, 比较了新鲜及培养后的CD34+和CD34-细胞在体内植入及重建造血能力。从新鲜脐血及培养后的单个核细胞(MNC)中分离出CD34+和CD34-细胞, 经尾静脉输注入经亚致死剂量照射的NOD/SCID小鼠体内, 6周后处死存活的小鼠, 取其骨髓、脾脏和外周血细胞, 分别进行细胞表型分析、造血集落形成单位和人特异性基因的检测。经检测, 输注CD34+细胞和混合细胞的小鼠, 其体内CD45+细胞及人源各系血细胞的含量相近, 两者均远远高于输注CD34-细胞的小鼠。输注培养后CD34-细胞的小鼠饲养6周后全部死亡,输注培养后CD34+细胞的小鼠存活率约为66.7%, 而输注培养后混合细胞的小鼠全部存活, 且在两组存活的小鼠体内均能检测到CD45+细胞及人源各系血细胞。结果表明: 无论是新鲜还是培养后的CD34+细胞均具有在NOD/SCID小鼠体内植入和重建造血能力, 而CD34-细胞不具有该能力, 但CD34-细胞与CD34+细胞同时输注有助于提高小鼠的存活率, 说明其对CD34+细胞在小鼠体内发挥植入和造血重建能力有一定的辅助作用。     

人CD34^＋和CD34^-细胞在NOD／SCID小鼠体内的造血重建

利用非肥胖糖尿病型重症联合免疫缺陷型(NOD/SCID)小鼠模型,比较了新鲜及培养后的CD34 和CD34-细胞在体内植入及重建造血能力.从新鲜脐血及培养后的单个核细胞(MNC)中分离出CD34 和CD34-细胞,经尾静脉输注入经亚致死剂量照射的NOD/SCID小鼠体内,6周后处死存活的小鼠,取其骨髓、脾脏和外周血细胞,分别进行细胞表型分析、造血集落形成单位和人特异性基因的检测.经检测,输注CD34' 细胞和混合细胞的小鼠,其体内CD45 细胞及人源各系血细胞的含量相近,两者均远远高于输注CD34-细胞的小鼠.输注培养后CD34-细胞的小鼠饲养6周后全部死亡,输注培养后CD34 细胞的小鼠存活率约为66.7%,而输注培养后混合细胞的小鼠全部存活,且在两组存活的小鼠体内均能检测到CD45 细胞及人源各系血细胞.结果表明:无论是新鲜还是培养后的CD34 细胞均具有在NOD/SCID小鼠体内植入和重建造血能力,而CD34-细胞不具有该能力,但CD34-细胞与CD34 细胞同时输注有助于提高小鼠的存活率,说明其对CD34 细胞在小鼠体内发挥植入和造血重建能力有一定的辅助作用.     

NOD/SCID雌性小鼠动情周期的观察

目的观察NOD/SCID小鼠动情周期及卵巢切除术后阴道涂片的变化。方法连续观察9 d NOD/SCID鼠,每日进行两次阴道涂片,计算动情周期时间及发生率。卵巢切除后,阴道涂片并观察阴道涂片变化。结果NOD/SCID小鼠动情周期为4~6 d。有规律动情的小鼠占80%。阴道口状态与动情周期无明显相关。卵巢切除术后,阴道涂片呈动情后期或动情间期改变。结论采用阴道脱落细胞涂片法可判断NOD/SCID雌性小鼠的动情周期及特点,NOD/SCID雌性小鼠卵巢切除手术有效。     

急性淋巴细胞白血病CD34~+ CD38~-细胞在NOD/SCID小鼠体内的自我更新与增殖能力

目的探索急性淋巴细胞白血病(ALL)患者CD34+CD38-细胞移植到NOD/SCID小鼠体内建立白血病的可行性、自我更新与增殖潜能。方法分选并鉴定ALL患者骨髓CD34+CD38-细胞及对照CD34-CD38+细胞后,经尾静脉分别注射104个细胞于亚致死剂量射线照射的NOD/SCID小鼠体内,连续监测小鼠状态以及外周血血象改变,对濒死或死亡小鼠进行骨髓检查、肝脾病理学检查。结果接种从ALL患者分选的CD34+CD38-细胞到NOD/SCID小鼠体内后4周,小鼠外周血白细胞上升,到8周左右达高峰,约15×109～20×109/L,原始及幼稚淋巴细胞明显增多。骨髓象显示以原始及幼稚淋巴细胞增生为主,约为40%,且肝脾组织也有白细胞浸润,明显高于接种了对照组CD34-CD38+细胞的NOD/SCID小鼠。结论 ALL患者CD34+CD38-细胞可以成功移植NOD/SCID小鼠,在小鼠体内增殖形成白血病,说明该群细胞具有自我更新和增殖的潜能,可作为探索白血病起始细胞研究的重要载体。     

急性淋巴细胞白血病CD34+CD38-细胞在NOD/SCID小鼠体内的自我更新与增值能力

目的 探索急性淋巴细胞白血病(ALL)患者CD34+ CD38-细胞移植到NOD/SCID小鼠体内建立白血病的可行性、自我更新与增殖潜能.方法 分选并鉴定ALL患者骨髓CD34+ CD38-细胞及对照CD34- CD38+细胞后,经尾静脉分别注射104个细胞于亚致死剂量射线照射的NOD/SCID小鼠体内,连续监测小鼠状态以及外周血血象改变,对濒死或死亡小鼠进行骨髓检查、肝脾病理学检查.结果 接种从ALL患者分选的CD34+ CD38-细胞到NOD/SCID小鼠体内后4周,小鼠外周血白细胞上升,到8周左右达高峰,约15×109～20× 109/L,原始及幼稚淋巴细胞明显增多.骨髓象显示以原始及幼稚淋巴细胞增生为主,约为40％,且肝脾组织也有白细胞浸润,明显高于接种了对照组CD34- CD38+细胞的NOD/SCID小鼠.结论 ALL患者CD34+CD38-细胞可以成功移植NOD/SCID 小鼠,在小鼠体内增殖形成白血病,说明该群细胞具有自我更新和增殖的潜能,可作为探索白血病起始细胞研究的重要载体.     

人脐血CD34+细胞在NOD/SCID小鼠免疫重建及其抗HBV作用的初步探讨

目的：探讨NOD／SCID（nonobese diabetic／severe combined immunodeficient）小鼠移植人脐带血（human umbilical cord blood,HUCB）CD34＋细胞后免疫重建的特性。建立hu—NOD／SCID人鼠嵌合模型并观察其人源化免疫细胞在小鼠体内的生长分化特性、存活时间及其对HBV感染的清除作用。方法：1．NOD／SCID小鼠于C0603．5Gy照射后24h内尾静脉输注HUCBCD34＋细胞;2．以流式细胞技术鉴定小鼠外周血中CD45＋,CD3＋,CD19＋,CD56＋等人源化细胞的比例;3．NOD／SCID小鼠于移植后第4wk注射HBV感染者血清并以未移植的NOD／SCID小鼠作为对照,注射同等量的患者血清;4．于感染后1、7、10、15天采血,免疫荧光定量PCR方法分别检测其HBV—DNA含量。结果：1．HUCBCD34＋细胞移植后第2wk,在小鼠外周血中检测出的CD3＋CD8＋T细胞、CD3＋CD4＋T细胞、CD19＋B细胞、CD56＋NK细胞的比例分别为18．6％、16．1％、13．1％和27．8％。各细胞比例随小鼠周龄而变化。所有移植小鼠存活时间均达9wk;2．移植后小鼠感染HBV血清后,病毒仅在感染后第一天检出,随后消失;未移植CD34＋细胞的小鼠外周血HBV—DNA一直维持在103水平：结论：1．NOD／SCID小鼠经射线照射后移植HUCBCD34＋细胞,在不加任何刺激因子的情况下小鼠可以长时间存活并重建免疫;2．hu—NOD／SCID人鼠嵌合模型小鼠免疫成功重建后,对HBV感染有快速的清除作用。     

重症联合免疫缺陷病的分类及其相关研究进展

重症联合免疫缺陷病又称SCID,是一种因机体体液免疫与细胞免疫同时缺陷导致的严重免疫缺陷综合征,患者可出现多种病原体的反复性感染、自身免疫性疾病及恶性肿瘤。多种免疫相关基因的突变和异常均可能导致SCID的发生,主要遗传方式包括X连锁隐性遗传和常染色体隐性遗传。SCID患者预后较差,但近年来研究人员在其发病机制和治疗等方面取得了一系列进展。对SCID的含义和分类等基本概念及相关进展进行简要介绍和总结。     

Tfh 细胞在NOD小鼠糖尿病发病过程中的作用机制的研究

目的:研究滤泡辅助性T细胞(Follicular Helper T cell,Tfh)在非肥胖性糖尿病小鼠(Non-obese Diabetic mice,NOD)发病过程中的作用机制。方法:实验动物NOD小鼠按血糖值分为胰岛炎组(血糖浓度≤9 mmol/L)及糖尿病组(血糖浓度≥20 mmol/L)。ELISA法检测各组中糖尿病自身抗体谷氨酸脱羧酶抗体(65-kda glutamate decarboxylase antibody,GAD65Ab)、抗胰岛素自身抗体(Insulin autoantibody,IAA)表达水平,Western blot检测B细胞型淋巴瘤6蛋白(B-cell lymphoma 6 protein,Bcl-6)及可诱导共刺激分子(Inducible costimulatory molecule,ICOS)表达,流式细胞仪检测各组外周血及脾脏Tfh细胞水平。结果:糖尿病组NOD鼠自身抗体GAD65Ab(1.21±0.23 nmol/L)、IAA(0.96±0.12 nmol/L)浓度较胰岛炎组(0.32±0.09 nmol/L,0.25±0.06 nmol/L)均有明显升高;糖尿病组NOD鼠Bcl-6及ICOS表达较胰岛炎组NOD鼠有明显升高,外周血和脾脏Tfh细胞水平糖尿病组NOD鼠(24.55%)较胰岛炎组NOD鼠(4.27%)升高明显。结论:NOD小鼠自发糖尿病与自身抗体浓度升高相关,Tfh细胞可能参与NOD鼠糖尿病发生及发展过程。     

hu-PBL-SCID小鼠体内人淋巴细胞状况及其对人肺癌移植瘤转移的影响

将人外周血淋巴细胞经腹腔移植于T、B细胞严重联合免疫缺陷的SCID小鼠后,成功地建立了hu - PBL- SCID小鼠模型。在移植后4 周,其小鼠血清中存在人免疫球蛋白,其脾淋巴细胞中,所检测的8 种免疫表型人淋巴细胞亚群均存在,表明人淋巴细胞在SCID小鼠体内出现了增殖或重建。但hu- PBL- SCID小鼠及未免疫重建的SCID小鼠体内人肺巨细胞癌PLA- 801DL的生长及转移情况未见明显差异,提示hu- PBL- SCID小鼠体内的人淋巴细胞不具有明显的抗肿瘤活性。     

T、B淋巴细胞联合免疫缺陷615-SCID导入近交系小鼠的培育及其一般生物学特性的研究

目的　建立T、B淋巴细胞联合免疫缺陷同源导入近交系 6 15 SCID小鼠。方法　利用经典遗传学的杂交 互交方法 ,将SCID小鼠携带的T、B淋巴细胞联合免疫缺陷基因 (scid基因 ) ,导入我国自己培育的 6 15近交系小鼠中。育种过程中采用白细胞计数分类及ELISA检测Ig含量方法 ,筛选每个M循环中的纯合子 ;再用蛋白质和同工酶电泳方法 ,分析纯合子位于 11个染色体上的 2 5个生化标记基因位点。结果　第 7个M循环中 ,所得纯合子与 6 15小鼠的 2 5个生化标记基因位点完全一致 ,表明M7循环的纯合子具有 6 15小鼠的全部标记基因。结论　M6、M7循环的纯合子小鼠表达scid基因 ,具有放射敏感性和T、B淋巴细胞联合缺陷的特征 ,且T细胞比例显著低于亲代SCID小鼠     

Autoimmune islet destruction in spontaneous type 1 diabetes is not beta-cell exclusive

Pancreatic islets of Langerhans are enveloped by peri-islet Schwann cells (pSC), which express glial fibrillary acidic protein (GFAP) and S100beta. pSC-autoreactive T- and B-cell responses arise in 3- to 4-week-old diabetes-prone non-obese diabetic (NOD) mice, followed by progressive pSC destruction before detectable beta-cell death. Humans with probable prediabetes generate similar autoreactivities, and autoantibodies in islet-cell autoantibody (lCA) -positive sera co-localize to pSC. Moreover, GFAP-specific NOD T-cell lines transferred pathogenic peri-insulitis to NOD/severe combined immunodeficient (NOD/SCID) mice, and immunotherapy with GFAP or S100beta prevented diabetes. pSC survived in rat insulin promoter Iymphocytic choriomeningitis virus (rip-LCMV) glycoprotein/CD8+ T-cell receptor(gp) double-transgenic mice with virus-induced diabetes, suggesting that pSC death is not an obligate consequence of local inflammation and beta-cell destruction. However, pSC were deleted in spontaneously diabetic NOD mice carrying the CD8+/8.3 T-cell receptor transgene, a T cell receptor commonly expressed in earliest islet infiltrates. Autoimmune targeting of pancreatic nervous system tissue elements seems to be an integral, early part of natural type 1 diabetes.     

B lymphocytes not required for progression from insulitis to diabetes in non-obese diabetic mice

Previous studies have implicated B lymphocytes in the pathogenesis of diabetes in the non-obese diabetic (NOD) mouse. While it is clear that B lymphocytes are necessary, it has not been clear at which stage of disease they play a role; early, late or both. To clarify when B lymphocytes are needed, T lymphocytes were transferred from 5-week-old NOD female mice to age-matched NOD/severe combined immunodeficiency (SCID) recipient mice. NOD/SCID mice, which lack functionally mature T and B lymphocytes, do not normally develop insulitis or insulin-dependent diabetes melitus (IDDM). The NOD/SCID mice that received purified T lymphocytes from 5-week-old NOD mice subsequently developed insulitis and diabetes even though they did not have detectable B lymphocytes. This suggests that while B lymphocytes may be essential for an initial priming event they are not requisite for disease progression in the NOD mouse.     

Impact of bone marrow-derived mesenchymal stromal cells on experimental xenogeneic graft-versus-host disease

Background aimsGraft-versus-host disease (GVHD) is a life-threatening complication of allogeneic hematopoietic cell transplantation caused by donor T cells reacting against host tissues. Previous studies have suggested that mesenchymal stromal cells (MSCs) could exert potent immunosuppressive effects.MethodsThe ability of human bone marrow derived MSCs to prevent xenogeneic GVHD in non-obese diabetic/severe combined immunodeficient (NOD/SCID) mice and in NOD/SCID/interleukin-2Rγ(null) (NSG) mice transplanted with human peripheral blood mononuclear cells (PBMCs) was assessed.ResultsInjection of 200 × 10⁶ human PBMCs intraperitoneally (IP) into sub-lethally (3.0 Gy) irradiated NOD/SCID mice also given anti-asialo GM₁ antibodies IP 1 day prior and 8 days after transplantation induced lethal xenogeneic GVHD in all tested mice. Co-injection of 2 × 10⁶ MSCs IP on day 0 did not prevent lethal xenogeneic GVHD induced by injection of human PBMCs. Similarly, injection of 30 × 10⁶ human PBMCs IP into sub-lethally (2.5 Gy) irradiated NSG mice induced a lethal xenogeneic GVHD in all tested mice. Injection of 3 × 10⁶ MSCs IP on days 0, 7, 14 and 21 did not prevent lethal xenogeneic GVHD induced by injection of human PBMCs.ConclusionsInjection of MSCs did not prevent xenogeneic GVHD in these two humanized mice models.     

Human erythroid cells produced ex vivo at large scale differentiate into red blood cells in vivo

New sources of red blood cells (RBCs) would improve the transfusion capacity of blood centers. Our objective was to generate cells for transfusion by inducing a massive proliferation of hematopoietic stem and progenitor cells, followed by terminal erythroid differentiation. We describe here a procedure for amplifying hematopoietic stem cells (HSCs) from human cord blood (CB) by the sequential application of specific combinations of growth factors in a serum-free culture medium. The procedure allowed the ex vivo expansion of CD34+ progenitor and stem cells into a pure erythroid precursor population. When injected into nonobese diabetic, severe combined immunodeficient (NOD/SCID) mice, the erythroid cells were capable of proliferation and terminal differentiation into mature enucleated RBCs. The approach may eventually be useful in clinical transfusion applications.     

Retroviral MDR1 gene transfer into marrow-engrafting human peripheral blood progenitor cells results in preferential transgene expression in the immature myeloid compartment rather than in mature myeloid progeny in vivo

BACKGROUND: The objective of multidrug resistance-1 (MDR1) gene therapy is protection of the myeloid cell lineage. It is therefore important to examine the effect of retroviral transduction on myeloid maturation. Transfer of the human MDR1 gene can confer resistance to a variety of cytostatic drugs. For a safe application in humans it is paramount to follow-up the development of transduced cells. METHODS: We transduced human mobilized peripheral blood progenitor cells (PBPC) with a viral vector containing the human MDR1 cDNA and transplanted the transduced cells into non-obese diabetic severe combined immunodeficient (NOD/SCID) mice. The progeny of the transduced cells was analyzed in detail by flow cytometry. RESULTS: A detailed analysis by four-color flow cytometry showed that MDR1 transgene-expressing CD33+ myeloid cells were preferentially negative for the maturation-associated myeloid markers CD11b and CD10, while the untransduced CD33+ myeloid cells expressed significantly higher proportions of these Ag (P<0.01 each). There was no difference in the expression of B- or T-lymphoid Ag among the MDR1-transduced and untransduced lymphoid cells. DISCUSSION: These data indicate that retroviral MDR1 gene transfer results in preferential P-glycoprotein expression in myeloid progenitor cells, which is the target cell population for myelotoxicity of cytostatic drugs.     

Impaired Synthesis of Erythropoietin,Glutamine Synthetase and Metallothionein in the Skin of NOD/SCID/γ<Stack><Subscript>c</Subscript><Superscript>null</Superscript></Stack> and Foxn1 nu/nu Mice with Misbalanced Production of MHC Class II Complex

Most skin pathologies are characterized by unbalanced synthesis of major histocompatability complex II (MHC-II) proteins. Healthy skin keratinocytes simultaneously produce large amounts of MHC-II and regeneration-supporting proteins, e.g. erythropoietin (EPO), EPO receptor (EPOR), glutamine synthetase (GS) and metallothionein (MT). To investigate the level of regeneration-supporting proteins in the skin during misbalanced production of MHC-II, skin sections from nonobese diabetic/severe combined immunodeficient (NOD/SCID)/γ_c^null and or Foxn1 nu/nu mice which are a priory known to under- and over-express MHC II, respectively, were used. Double immunofluorescence analysis of NOD/SCID/γ_c^null skin sections showed striking decrease in expression of MHC-II, EPO, GS and MT. In Foxn1 nu/nu mouse skin, GS was strongly expressed in epidermis and in hair follicles (HF), which lacked EPO. In nude mouse skin EPO and MHC-II were over-expressed in dermal fibroblasts and they were completely absent from cortex, channel, medulla and keratinocytes surrounding the HF, suggest a role for EPO in health and pathology of hair follicle. The level of expression of EPO and GS in both mutant mice was confirmed by results of Western blot analyses. Strong immunoresponsiveness of EPOR in the hair channels of NOD/SCID/γ_c^null mouse skin suggests increased requirements of skin cells for EPO and possible benefits of exogenous EPO application during disorders of immune system accompanied by loss MHC-II in skin cells.     

Intrahepatically transplanted human cord blood cells reduce SW480 tumor growth in the presence of bispecific EpCAM/CD3 antibody

Humanized mice were generated in order to investigate the anti-tumor efficacy of bispecific antibodies. The engraftment, distribution and differentiation of mononuclear cells (MNC) from cord blood transplanted into the liver of newborn non-obese diabetic/severe combined immunodeficiency (NOD/SCID) mice were measured. Using a human-specific polymerase chain reaction (PCR), human cells were found to be present in the liver for a time range from 5 min to 5 days. After long-term engraftment of 42 days, the highest level of human cells was measured in mouse thymus, with lower levels in spleen and bone marrow. Engrafted human cells in mouse organs showed T-cell differentiation only, as measured by CD3, CD4 and CD8 expression. The MNC transplanted intrahepatically into newborn mice were tested for T-cell mediated anti-tumor activity in vivo against subcutaneously transplanted human SW480 colon carcinoma in NOD/SCID mice. A delay of SW480 tumor growth in mice in the presence of a bispecific epithelial cell-adhesion molecule (EpCAM)/CD3 antibody was found to be associated with the presence of immunoreactive human CD3 cells within the SW480 tumor. Our data provide evidence that the intrahepatic transplantation of cord blood stem cells into newborn mice represents a valuable model for establishing functionally active human T cells with anti-tumor activity.     

荷瘤SCID-hu鼠模型及其肿瘤实验研究现状

严重联合免疫缺陷鼠（severe combined immune deficiency mice,SCID）具有T、B淋巴细胞联合免疫缺陷等生物学特性,可以将人类有关免疫细胞、免疫组织和器官移植入其体内进行人免疫功能重建-SCID-hu鼠。荷瘤SCID-hu鼠模型为人类肿瘤的发病机制、生物治疗等方面的研究提供了良好的实验平台。