不明原因自然流产与蜕膜NK细胞表面活化性受体表达的相关性研究

探讨不明原因自然流产患者蜕膜NK细胞杀伤活性与其细胞表面活化性受体NKp46、NKp44、NKp30和NKG2D表达的相关性。选取21例早孕不明原因自然流产患者为病例组,25例正常早孕人流妇女为对照组,收集两组的蜕膜组织,Ficoll密度梯度离心分离淋巴细胞,MACS磁珠分选CD3-CD56+NK细胞。以K562细胞为靶细胞,用细胞染色及流式细胞技术检测两组蜕膜NK细胞杀伤活性,用流式细胞技术检测两组蜕膜CD56brightCD16-NK和CD56dimCD16+NK细胞上活化性受体NKp46、NKp44、NKp30和NKG2D的表达,并与NK细胞杀伤活性进行相关性分析。结果:(1)早孕蜕膜NK细胞具有杀伤活性;(2)病例组蜕膜NK细胞的杀伤活性较正常对照组显著增强(P=0.014);(3)病例组蜕膜CD56brightCD16-NK细胞中NKp44的表达比正常对照组显著升高(P=0.021);病例组蜕膜CD56dimCD16+NK细胞中NKp46和NKp44的表达比正常对照组显著升高(分别P=0.026,P=0.041);其余活化性受体的表达两组未见明显差异;(4)蜕膜NK细胞杀伤功能与蜕膜CD56brightCD16-NK细胞中NKp44的表达呈显著正相关(r=0.677,P<0.05),和蜕膜CD56dimCD16+NK细胞中NKp46的表达呈显著正相关(r=0.634,P<0.05)。蜕膜NK细胞活化性受体NKp46和NKp44表达增加,从而使蜕膜NK细胞的杀伤功能增强可能在不明原因自然流产的发病中起重要作用。     

IL-21 induces both rapid maturation of human CD34+ cell precursors towards NK cells and acquisition of surface killer Ig-like receptors

The NK cell maturation from CD34(+) Lin(-) hematopoietic cell precursors is a complex process that requires the direct contact with stromal cells and/or the synergistic effect of different cytokines. In this study we show that IL-21 is capable of inducing an accelerated NK cell maturation when added to cultures of CD34(+) Lin(-) cells isolated from human cord blood supplemented with IL-15, Flt3-L and SCF. After 25 days of culture, 50% of CD56(+) cells expressed various NK cell markers including the NKp46 and NKp30 triggering receptors, the CD94/NKG2A inhibitory receptor and CD16. At day 35, substantial fractions of NK cells expressed KIR, CD8 and CD2, i.e. surface markers expressed by mature NK cells, that are virtually undetectable in developing NK cells cultured in the absence of IL-21. Remarkably, similar to mature NK cells all these markers were included in the CD56(dim) cell fraction, while the CD56(bright) population was only composed of CD94/NKG2A(-) and CD94/NKG2A(+) cells. Thus, IL-21 allows the induction of a full NK cell maturation in vitro and offers an important tool for dissecting the molecular mechanisms involved in different steps of NK cell maturation and in the acquisition of a mature KIR repertoire.     

Age-related changes in natural killer cell receptors from childhood through old age

Most studies on natural killer (NK) cells and aging have focused on overall cell numbers and global cytotoxic activity. NK cell functions are controlled by surface receptors belonging to three major families: killer cell immunoglobulin-like receptors (KIRs), natural cytotoxicity receptors (NCRs), and C-type lectins. The expression of these receptors was investigated from childhood through old age in T, NKT- and NK cells and also in the CD56(dim) (cytotoxic) and CD56(bright) (responsible for cytokine production) NK cell subsets. A decrease in the expression of activating receptors (NKp30 and NKp46) was observed in NK cells in elderly individuals. KIR expression was increased only in the CD56(bright) subset. Children presented similar results regarding expression of NKp30 and KIR, but not NKp46. NKG2D expression was decreased in T cells of elderly subjects. Analysis of KIR genotype revealed that KIR2DL5 and KIR2DS3 were significantly associated with old age. Cytotoxic activity was preserved from childhood through old age, suggesting that the increase of the absolute number of CD56(dim), observed in elderly, may represent a compensatory mechanism for the receptor expression alterations. This initial study provides the framework for more focused studies of this subject, which are necessary to determine whether the changing balance of NK receptor expression may influence susceptibility to infectious, inflammatory, and neoplastic diseases.     

Expression of natural cytotoxicity receptors and a2V-ATPase on peripheral blood NK cell subsets in women with recurrent spontaneous abortions and implantation failures

PROBLEM: Natural cytotoxicity receptors (NCRs) are unique markers, which regulate NK cell cytotoxicity and cytokine production. a2V-ATPase is expressed on subsets of PBMC and regulates the extracellular environment, which facilitates NK cytotoxicity or cytokine secretion. In this study, we aim to investigate the expression of NCRs and a2V-ATPase in peripheral blood NK cells of women with recurrent spontaneous abortions (RSA) or implantation failures. METHOD OF STUDY: Peripheral blood NK cells (CD56(dim) and CD56(bright) were analyzed for the expression of NCRs (NKp46, NKp44 and NKp30) and a2V-ATPase using 3-color flow cytometry in women with RSA (n=24), implantation failures (n=19) or normal healthy women (n=13). RESULTS: CD56+/NKp46+ cells were markedly decreased (P<0.05) and CD56(bright)/a2V-ATPase+ cells were significantly increased (P<0.05) in women with RSA as compared to those of normal controls. In women with RSA or implantation failures, expression of NKp46, NKp44, NKp30, and a2V-ATPase on CD56(bright) NK cells was significantly up-regulated as compared with those of CD56(dim) NK cells. CONCLUSION: The differential expression of NCRs and a2V-ATPase in NK cell subsets may suggest dysregulation of NK cytotoxicity and cytokine production in women with RSA and implantation failures.     

Peritoneal natural killer cells from epithelial ovarian cancer patients show an altered phenotype and bind to the tumour marker MUC16 (CA125)

The ovarian tumour marker MUC16 (CA125) inhibits the cytotoxic responses of human natural killer (NK) cells and down-regulates CD16. Here we show that approximately 10% of the peripheral blood NK cells (PBNK) from the epithelial ovarian cancer (EOC) patients are CD16(-) CD56(br) whereas 40% of the peritoneal fluid NK (PFNK) carry this phenotype, which is usually associated with NK cells from the lymph nodes or human decidua. PBNK from healthy donors exposed to PF show a significant increase in the CD16(-) CD56(br) population. This shift in phenotype is not caused by increased apoptosis of the CD16(+) CD56(dim) cells or selective proliferation of the CD16(-) CD56(br) NK cells. Thus, the terminal differentiation of the CD16(-) CD56(br) NK cells to CD16(+) CD56(dim) subset that occurs during normal NK cell development may actually be a reversible step. A majority of the NK cell receptors (NKp46, NKp44, NKG2D, CD244, CD226, CD158a, CD158b, and CD158e) studied were down-regulated in the PFNK. MUC16 binds selectively to 30-40% of CD16(+) CD56(dim) NK cells in EOC patients indicating that phenotypic alterations in these cells are mediated by tumour-derived soluble factors. Similar to EOC, MUC16 in early pregnancy also binds to NK cells suggesting shared mechanisms of NK cell suppression in feto-maternal tolerance and immune evasion by ovarian cancers.     

Increased proportion of CD56bright natural killer cells in active and inactive systemic lupus erythematosus

Natural killer (NK) cells belong to the innate immune system but can also affect adaptive immune reactions. This immune regulatory function is often ascribed to the CD56(bright) subpopulation of NK cells that is prevalent in secondary lymphoid tissues and has potent cytokine-producing ability. The NK cells have been described as affecting autoimmune disease and stimulating B-cell production of antibodies, but their role in systemic lupus erythematosus (SLE) pathology has not been extensively studied. We have studied NK cells in SLE, a B-cell-driven systemic autoimmune disease, and phenotypically characterized peripheral blood NK cells in comparison to NK cells from patients with immunoglobulin A nephritis, rheumatoid arthritis and healthy individuals. We have found an increased proportion of CD56(bright) NK cells in SLE, regardless of disease activity. We detected a somewhat increased expression of the activating receptor NKp46/CD335 on NK cells from SLE patients, although neither the percentage of NK cells of all lymphocytes nor the expression of other NK receptors analysed (LIR-1/CD85j, CD94, NKG2C/CD159c, NKG2D/CD314, NKp30/CD337, NKp44/CD336, CD69) differed between patient groups. We show that type I interferon, a proinflammatory cytokine known to be abundant in SLE, can cause increases of CD56(bright) NK cells in vitro. We confirmed that serum levels of interferon-alpha were increased in active, but not in inactive, disease in the SLE patient group. In conclusion, we found an increased proportion of CD56(bright) NK cells in the blood of SLE patients, although it remains to be examined whether and how this relates to the disease process.     

NKp46 expression discriminates porcine NK cells with different functional properties

So far little is known about natural killer (NK) cells in the pig due to the lack of NK cell-specific markers. In this study, we identified the activating receptor NKp46 (CD335) in swine with newly developed monoclonal antibodies (mAbs) for more detailed studies on NK cells in this species. The NKp46 mAbs showed a specific reactivity with a distinct population of perforin(+) CD2(+) CD3(-) CD8α(+) CD16(+) lymphocytes. In spleen and liver, an additional subset of CD8α(dim/-) lymphocytes with increased NKp46 expression was observed. Surprisingly, we could identify NKp46(-) cells with an NK cell phenotype in all animals analyzed. These lymphocytes showed comparable cytolytic activity against xenogeneic and allogeneic target cells as NKp46(+) NK cells. In contrast, NKp46(+) NK cells produced several fold higher levels of interferon-γ (IFN-γ) than the NKp46(-) cells after cytokine stimulation. Furthermore, an activation-dependent induction of NKp46 expression in formerly NKp46(-) cells after stimulation with interleukin-2 (IL-2), IL-12, and IL-18 could be shown. In summary, our data indicate that NKp46 is not expressed by all porcine NK cells and that NKp46 discriminates porcine NK cells differing in regard to cytokine production, which challenges the paradigm of NKp46 as a comprehensive marker for NK cells across different mammalian species.     

Spontaneous and natural cytotoxicity receptor‐mediated cytotoxicity are effector functions of distinct natural killer subsets in hepatitis C virus‐infected chimpanzees

In humans, CD16 and CD56 are used to identify functionally distinct natural killer (NK) subsets. Due to ubiquitous CD56 expression, this marker cannot be used to distinguish between NK cell subsets in chimpanzees. Therefore, functional analysis of distinct NK subsets during hepatitis C virus (HCV) infection has never been performed in these animals. In the present study an alternative strategy was used to identify four distinct NK subsets on the basis of the expression of CD16 and CD94. The expression of activating and inhibiting surface receptors showed that these subsets resemble human NK subsets. CD107 expression was used to determine degranulation of the different subsets in naive and HCV‐infected chimpanzees. In HCV‐infected chimpanzees increased spontaneous cytotoxicity was observed in CD94^high/dimCD16^pos and CD94^lowCD16^pos subsets. By contrast, increased natural cytotoxicity receptor (NCR)‐ mediated degranulation after NKp30 and NKp44 triggering was demonstrated in the CD94^dimCD16^neg subset. Our findings suggest that spontaneous and NCR‐mediated cytotoxicity are effector functions of distinct NK subsets in HCV‐infected chimpanzees.     

Impaired calcium mobilization in natural killer cells from chronic fatigue syndrome/myalgic encephalomyelitis patients is associated with transient receptor potential melastatin 3 ion channels

Transient receptor potential melastatin subfamily 3 (TRPM3) ion channels play a role in calcium (Ca²⁺) cell signalling. Reduced TRPM3 protein expression has been identified in chronic fatigue syndrome/myalgic encephalomyelitis (CFS/ME) patients. However, the significance of TRPM3 and association with intracellular Ca²⁺ mobilization has yet to be determined. Fifteen CFS/ME patients (mean age 48·82 ± 9·83 years) and 25 healthy controls (mean age 39·2 ± 12·12 years) were examined. Isolated natural killer (NK) cells were labelled with fluorescent antibodies to determine TRPM3, CD107a and CD69 receptors on CD56^dimCD16⁺NK cells and CD56^brightCD16^dim/– NK cells. Ca²⁺ flux and NK cytotoxicity activity was measured under various stimulants, including pregnenolone sulphate (PregS), thapsigargin (TG), 2‐aminoethoxydiphenyl borate (2APB) and ionomycin. Unstimulated CD56^brightCD16^dim/– NK cells showed significantly reduced TRPM3 receptors in CFS/ME compared with healthy controls (HC). Ca²⁺ flux showed no significant difference between groups. Moreover, PregS‐stimulated CD56^brightCD16^dim/–NK cells showed a significant increase in Ca²⁺ flux in CFS/ME patients compared with HC. By comparison, unstimulated CD56^dimCD16⁺ NK cells showed no significant difference in both Ca²⁺ flux and TRPM3 expression. PregS‐stimulated CD56^dimCD16⁺ NK cells increased TRPM3 expression significantly in CFS/ME, but this was not associated with a significant increase in Ca²⁺ flux. Furthermore, TG‐stimulated CD56^dimCD16⁺ NK cells increased K562 cell lysis prior to PregS stimulation in CFS/ME patients compared with HC. Differential expression of TRPM3 and Ca²⁺ flux between NK cell subtypes may provide evidence for their role in the pathomechanism involving NK cell cytotoxicity activity in CFS/ME.     

Role of chemokines in the biology of natural killer cells

Natural killer (NK) cells participate in innate and adaptive immune responses to obligate intracellular pathogens and malignant tumors. Two major NK cell subsets have been identified in humans: CD56(dim) CD16+ and CD56(bright) CD16-. Resting CD56(dim) CD16+ NK cells express CXCR1, CXCR2, CXCR3, CXCR4, and CX3CR1 but no detectable levels of CC chemokine receptors on the cell surface. They migrate vigorously in response to CXCL12 and CXC3L1. In contrast, resting CD56(bright) CD16- NK cells express little CXCR1, CXCR2, and CXC3R1 but high levels of CCR5 and CCR7. Chemotaxis of CD56(bright) CD16- NK cells is stimulated most potently by CCL19, CCL21, CXCL10, CXCL11, and CXCL12. Following activation, NK cells can migrate in response to additional CC and CXC chemokines. Cytolytic activity of NK cells is augmented by CCL2, CCL3, CCL4, CCL5, CCL10, and CXC3L1. Moreover, proliferation of CD56(dim) CD16+ NK cells is costimulated by CCL19 and CCL21. Activated NK cells produce XCL1, CCL1, CCL3, CCL4, CCL5, CCL22, and CXCL8. Chemokines secreted by NK cells may recruit other effector cells during immune responses. Furthermore, CCL3, CCL4, and CCL5 produced by NK cells can inhibit in vitro replication of HIV. CCL3 and CXL10 expression appear to be required for protective NK cell responses in vivo to murine cytomegalovirus or Leishmania major, respectively. Moreover, NK cells participate in the in vivo rejection of transduced tumor cells that produce CCL19 or CCL21. Thus, chemokines appear to play an important role in afferent and efferent NK cell responses to infected and neoplastic cells.     

Intrahepatic and peripheral blood phenotypes of natural killer and T cells: differential surface expression of killer cell immunoglobulin‐like receptors

Deep characterization of the frequencies, phenotypes and functionalities of liver and peripheral blood natural killer (NK), natural killer T (NKT) and T cells from healthy individuals is an essential step to further interpret changes in liver diseases. These data indicate that CCR7, a chemokine essential for cell migration through lymphoid organs, is almost absent in liver NK and T cells. CD56^bright NK cells, which represent half of liver NK cells, showed lower expression of the inhibitory molecule NKG2A and an increased frequency of the activation marker NKp44. By contrast, a decrease of CD16 expression with a potential decreased capacity to perform antibody‐dependent cellular cytotoxicity was the main difference between liver and peripheral blood CD56^dim NK cells. Liver T cells with an effector memory or terminally differentiated phenotype showed an increased frequency of MAIT cells,T‐cell receptor‐γδ (TCR‐γδ) T cells and TCR‐αβ CD8⁺ cells, with few naive T cells. Most liver NK and T cells expressed the homing markers CD161 and CD244. Liver T cells revealed a unique expression pattern of killer cell immunoglobulin‐like receptors (KIR) receptors, with increased degranulation ability and higher secretion of interferon‐γ. Hence, the liver possesses a large amount of memory and terminally differentiated CD8⁺ cells with a unique expression pattern of KIR activating receptors that have a potent functional capacity as well as a reduced amount of CCR7, which are unable to migrate to regional lymph nodes. These results are consistent with previous studies showing that liver T (and also NK) cells likely remain and die in the liver.     

Functional subsets of mouse natural killer cells

Summary:  Human natural killer (NK) cells can be divided into two phenotypically distinct functional subsets based on their cell surface expression of CD56 (CD56^bright and CD56^dim). As mouse NK cells do not express CD56, comparable mouse NK cell subsets have proven difficult to identify. Recently, we have found that mouse NK cells can be subdivided by the expression of CD27. The CD27^hi and CD27^lo mouse NK cell subsets show some intriguing similarities to but also some distinct differences from the human CD56 NK cell subsets in terms of their function and phenotype. Extending our knowledge of mature NK cell heterogeneity between the species will be critical to further our understanding of the pathological role of NK cells in immune responses.     

An increase in the absolute count of CD56dimCD16+CD69+ NK cells in the peripheral blood is associated with a poorer IVF treatment and pregnancy outcome

BACKGROUND: Our aim was to evaluate the effect of the absolute count of the activation marker (CD69), IgG Fc receptor (CD16) and inhibitor marker (CD94) expression on peripheral blood natural killer (NK) cells on implantation and miscarriage rates after IVF treatment. METHODS: Prospective observational study of 138 randomly selected women who underwent IVF treatment from December 2002 to September 2003. NK cells were identified as CD56(+) (dim + bright) and CD3(-) by flow cytometry. The absolute counts of the CD69(+), CD16(+) and CD94(+)expressing NK cells were recorded and their relation to IVF treatment outcome and miscarriage rate was analysed. RESULTS: The mean (+/-SD) absolute count of the CD56(dim)CD16(+)CD69(+) NK cells for women who had a successful ongoing pregnancy was 0.61 x 10(6)/l (+/-0.31). For those women who failed to achieve a pregnancy, the mean value of the absolute count of CD56(dim)CD16(+)D69(+) NK cells was significantly (P=0.003) higher at 1.66 x 10(6)/l (+/-0.52). The absolute count of CD56(dim)CD16(+)CD94(+) and CD56(dim)CD16(+) NK cells did not show any statistically significant differences between those women with successful and failed IVF treatment. Receiver operating characteristic (ROC) curve analysis was performed to select a CD69 threshold for further statistical analysis. The implantation rate (IR) was significantly lower (13.1%) and miscarriage rate (MR) was significantly higher (66.7%) for women with an absolute CD56(dim)CD16(+)CD69(+) NK cell count of >1.0 x 10(6)/l compared to women with count below this value (IR 28.2% and MR 16.7%). Further analysis of the absolute count of CD56(bright)CD69(+) and CD56(bright)CD94(+) NK cells did not show any significant difference between those women with successful and failed IVF treatment. CONCLUSIONS: An increase in the absolute count of activated NK cells (CD56(dim)CD16(+)CD69(+)) in the peripheral blood is associated with a reduced rate of embryo implantation in IVF treatment. Furthermore, women with high CD56(dim)CD16(+)CD69(+) peripheral blood NK cell absolute count, who are able to achieve pregnancy, have a significantly higher miscarriage rate.     

Expression of killer immunoglobulin-like receptors on peripheral blood NK cell subsets of women with recurrent spontaneous abortions or implantation failures

PROBLEM: Decidual natural killer (NK) cells express inhibitory receptors (killer immunoglobulin-like receptors, KIRs), which bind to ligands on trophoblast cells (human leucocyte antigen, HLA-C). This interaction appears to block NK cytotoxicity against trophoblast cells. In this study, we investigated the expression of inhibitory and activating receptors in peripheral blood NK cells of women with recurrent spontaneous abortion (RSA) or implantation failures. METHOD OF STUDY: CD56(dim)/CD16(+), CD56(bright)/CD16(-) NK cells and CD56(+)/CD3(+) NKT cells of women with RSA or in vitro fertilization (IVF) failures and normal controls were analyzed for the expression of CD158a, CD158b inhibitory KIRs or CD161-activating receptors, by flow cytometric analysis. RESULTS: CD158a and CD158b inhibitory receptor expression by CD56(dim)/CD16(+) and CD56(bright)/CD16(-) NK cells were significantly decreased, and CD161-activating receptor expression by CD56(+)/CD3(+) NKT cells was significantly increased in women with implantation failures when compared with normal controls. CONCLUSIONS: An imbalance between inhibitory and activating receptor expression was found in NK cells of women with implantation failures. This imbalance may explain the adverse reproductive outcome.     

CR3 (CD11b/CD18) expressed by cytotoxic T cells and natural killer cells is upregulated in a manner similar to neutrophil CR3 following stimulation with various activating agents

CR3 (CD11b/CD18) functions both as an iC3b-receptor and as an adhesion molecule for cellular ligands such as ICAM-1. Although CR3 has been well characterized on phagocytic cells, much less is known about CR3 on lymphocytes. In this study, the expression of CR3 was examined on resting and stimulated B, T, and natural killer (NK) cells by three-color flow cytometry. Biotinylated anti-CR3 mAb and streptavidin-FITC were used in combination with anti-CD3 mAb conjugated with peridinin chlorophyll-a protein (PerCP) and phycoerythrinlabeled mAbs to CD4, CD8, CD19, or CD56. Among resting lymphocytes, CR3 was expressed on nearly all NK cells (CD56⁺CD3^–), 1% of CD4⁺CD3⁺ helper T cells, 7% of CD8⁺CD3⁺ cytotoxic T cells, and 20% of B cells (CD19⁺). Among the 5% of T cells (CD3⁺) expressing CR3, the majority was CD56⁺. Incubation of PBMC for 30 min with PMA induced a three- to fivefold increase in CR3 expression on NK cells and a twofold increase on T cells but did not change the expression of CR3 on B cells. This effect of PMA was not blocked by the presence of cycloheximide, suggesting the presence of cytoplasmic (granule) stores of CR3 in these lymphoid cells resembling those previously reported in neutrophils and monocytes. When PBMC were incubated with rIFN-, rIL-2, -glucan, or high concentrations of LPS, expression of CR3 on NK cells increased significantly, but 4 hr of stimulation was required. Other cytokines (rIFN-, rIL-1, rIL-4, rIL-6, TNF-) and rC5a had no significant effect on CR3 expression. Among NK cells, both the CD56^bright and the CD56^dim cells expressed CR3, and the expression of CR3 on both of these NK cell subsets was increased in a similar manner by PMA. However, rIL-2 stimulated a greater increase in CR3 expression on CD56^bright cells than on CD56^dim cells. These studies suggest that CR3 expressed by NK cells or cytotoxic T cells resembles phagocyte CR3 in that cellular activation stimulates increased surface expression of CR3 derived from cytoplasmic reserves of the receptor.     

CD56(+dim) and CD56(+bright) cell activation and apoptosis in hepatitis C virus infection

CD3- CD56(+dim) natural killer (NK) cells, which are cytotoxic against virally infected cells, may be important in hepatitis C virus (HCV)-infected patients who are successfully treated with pegylated interferon (PEG-IFN)-alpha. We used flow cytometry to enumerate activated (CD69+) and apoptotic (annexin-V+) dim (CD3- CD56(+dim)) and bright (CD3- CD56(+bright)) NK cells obtained from HCV-infected patients before treatment (n=16) and healthy controls (n=15) in the absence and presence of pegylated interferon (PEG-IFN)-alpha-2b. A subset of HCV-infected patients, subsequently treated with PEG-IFN-alpha-2b in vivo, was determined to have a sustained virological response (SVR, n=6) or to not respond (NR) to treatment (n=5). In the absence of IFN, activated dim (CD3- CD56(+dim) CD69+) NK cells were significantly decreased (P=0.04) while activated apoptotic dim (CD3- CD56(+dim)CD69+ annexin-V+) NK cells tended to be increased (P=0.07) in SVR patients compared with NR patients. Activated bright (CD3-CD56(+bright)CD69+) and activated apoptotic bright (CD3- CD56(+bright)CD69+ annexin-V+) NK cells were significantly correlated (P=0.02 and P=0.01, respectively) with increasing hepatic inflammation. These findings suggest that in the absence of PEG-IFN, activated dim (CD3- CD56(+dim)CD69+) NK cell turnover may be enhanced in SVR compared with NR patients and that activated bright (CD3- CD56(+bright)CD69+) NK cells may play a role in liver inflammation.     

Killer immunoglobulin-like receptor and human leukocyte antigen expression as immunodiagnostic parameters for pelvic endometriosis

PROBLEM: We investigated host immunologic responses to endometriosis by comparing immune cell surface antigens in peripheral blood (PB) and peritoneal fluid (PF) from women with endometriosis with those in PB and PF from other patients. METHOD OF STUDY: Japanese women with endometriosis (n = 56) were compared with controls with other laparoscopic diagnoses (n = 68). PB and PF were collected at the time of laparoscopy for flow cytometry. RESULTS: No significant difference in phenotypic parameters of T cells (CD3, CD4, and CD8), B cells (CD19), natural killer (NK) cells (CD56), or monocytes/macrophages (CD14) was seen between women with and without endometriosis. However, increased killer immunoglobulin-like receptor (CD158a) expression by NK cells and decreased human leukocyte antigen (HLA)-ABC and -DR expression by macrophages, all suggesting decreased functional activation were found in endometriosis. These markers showed significant association with endometriosis by odds ratio, logistic regression, and decision tree analyses. CONCLUSIONS: Increased CD158a(+) NK cells in PB and PF indicated decreased NK cell cytotoxicity in endometriosis, while decreased HLA expression on PF macrophages suggested impaired antigen presentation. Thus, aberrant immune responses by NK cells and macrophages may represent risk factors for endometriosis.     

Delineation of multiple subpopulations of natural killer cells in rhesus macaques

Natural killer (NK) cells in rhesus macaques have been variably defined as CD3- CD16+ or CD3- CD8+, although only limited efforts have been made to validate these definitions rigorously. To better understand the role of NK cells in macaque disease models, we undertook a multiparameter analysis of macaque NK cells employing four-colour flow cytometry and a panel of lineage-specific and non-lineage-specific lymphocyte markers. Using this approach, we identified two distinct populations of candidate NK cells: a major CD8bright CD16+ population and a minor CD8bright CD16- population. Further analysis of the major and minor NK cell populations revealed the expression of multiple markers characteristic of NK cells, including CD2, CD7, CD16, CD161, NKG2A and granzyme B. In addition, a CD56+ subset of cells within the minor rhesus NK population was identified which expressed chemokine and lymph node homing receptors similar to those expressed by the CD56bright NK cell population identified in humans. Cytolytic assays confirmed that the phenotypically defined rhesus NK cells lysed NK-susceptible target cells. Our observations support the existence of several distinct subpopulations of rhesus macaque NK cells, which have significant phenotypic and functional similarities to their human counterparts. These improved immunophenotypic definitions of macaque NK cells should facilitate future analysis of innate immune responses in rhesus macaques and the role of NK cells in AIDS pathogenesis in Simian immunodeficiency virus (SIV)-infected macaques.