Cytotoxic protein expression in natural killer cell lymphomas and in αβ and γδ peripheral T-cell lymphomas

Lymphomas with T-cell phenotype represent a heterogeneous group of diseases differing in histopathology, tumour site, and cell origin. They include peripheral T-cell lymphomas (PTCLs) derived from αβ cells, but also some recently recognized entities such as γδ hepatosplenic lymphomas and natural killer (NK) cell lymphomas. Only a few studies have investigated the possibility that at least some PTCLs could be derived from lymphocytes with cytotoxic potential. In order to investigate this possibility, 60 cases of PTCL, including 27 cases expressing the αβ T-cell receptor (TCRαβ), 15 TCRγδ cases and 18 cases expressing neither TCR (TCR silent), as well as 14 cases of NK-cell lymphomas, were studied by immunohistochemistry for the expression of TIA-1, perforin, and granzyme B proteins. Expression of TIA-1 is characteristic of cytotoxic cells regardless of their activation status, whereas expression of perforin and granzymes is highly increased in activated cytotoxic cells and correlates with the induction of cytolytic activity. All NK-cell lymphomas (11 sinonasal, three systemic cases) expressed TIA-1, perforin, and granzyme B in most tumour cells. All γδ PTCLs (15 cases) expressed TIA-1 protein in most tumour cells, with a different cytotoxic antigen profile in hepatosplenic γδ PTCL (TIA-1+, perforin−, granzyme B−) and in non-hepatosplenic γδ PTCLs (three nasal, one skin, one lung), the latter expressing the three cytotoxic proteins. Of the 45 cases of αβ and TCR silent PTCL, 15 (33 per cent) were considered to be derived from cytotoxic lymphocytes with expression of at least one cytotoxic protein (TIA-1, 15/45; perforin, 10/41; granzyme B, 14/38) in tumour cells. This cytotoxic protein expression appeared to be related to the site of localization, since 7/13 (54 per cent) extranodal and only 8/32 (25 per cent) nodal αβ and TCR silent PTCLs expressed TIA-1, and to histology, since this pattern was observed in a proportion of anaplastic (6/8, 75 per cent) and pleomorphic (8/17, 47 per cent) lymphomas, but not in AILD-type NHL (0/16). Taken together, our data suggest that NK-cell lymphomas and non-hepatosplenic γδ PTCLs represent tumours of activated cytotoxic NK cells and γδ T cells, respectively; that hepatosplenic γδ PTCLs represent tumours of non-activated cytotoxic γδ T cells; and that a small proportion of αβ and TCR silent PTCLs, mostly extranodal cases, or nodal anaplastic lymphomas, represent tumours of cytotoxic T cells. © 1997 John Wiley & Sons, Ltd.     

Clinical, immunohistochemical and phenotypic features of aggressive nodal cytotoxic lymphomas, including α/β, γ/δ T-cell and natural killer cell types

Cytotoxic cells include natural killer (NK) cells and cytotoxic αβ and γδ T lymphocytes (CTLs). These cells express cytotoxic molecules of T-cell restricted intracellular antigen(TIA-1), and activated cytotoxic molecules of perforin, granzyme B, and FasL. Recent studies suggest that most extranodal T-cell lymphomas are derived from CTLs, and that NK cell lymphomas are extranodal. However, only a few nodal NK and cytotoxic lymphomas have been described so far. We present here the clinicopathological features of seven cases of nodal cytotoxic T and NK cell lymphomas. The study excluded anaplastic large-cell lymphomas expressing cytotoxic molecules. The neoplastic cells of all cases contained activated cytotoxic molecules of TIA-1, granzyme B, Fas ligand, and/or perforin. Phenotypically and genotypically, four cases showed αβ T cell type [CD2+, CD3+, T-cell receptor (TCR) δ-1–, βF1+, and TCR gene rearrangement], two cases showed γδ T-cell type [CD2+, CD3+, T-cell receptor (TCR)δ–1+, βF1–, and TCR gene rearrangement], and one case showed NK cell type [CD2+, CD3-, CD56+, T-cell receptor (TCR)δ-1–, βF1–, and TCR gene germline]. Using Southern blot analysis, Epstein-Barr virus (EBV) sequences were detected in six cases, and monoclonal terminal repeat proliferation was confirmed. In addition, in situ hybridization (ISH) studies for EBV showed EBV infection in almost all neoplastic cells. Clinically, all patients presented with peripheral lymphadenopathy in high clinical stages and showed an aggressive course. Hepatosplenomegaly was detected in six cases. During the course of the disease, bone marrow and extranodal invasion were noted in five cases. The nodal type showed an aggressive clinical course in all cases but one, as did the extranodal type. The nodal type varied in phenotype, but was closely associated with EBV infection.     

Variation in the histological pattern of nodal involvement by gamma/delta T-cell lymphoma

AIMS: Gamma-delta (gammadelta) T-cell non-Hodgkin's lymphomas (NHLs) usually present with liver, spleen and marrow infiltration. Lymph node involvement by gammadelta T-cell NHL has been rarely documented so far; its histological pattern needs to be further defined. METHODS AND RESULTS: Two cases of nodal gammadelta T-cell NHL are reported: case 1, a 44-year-old man, presented with cytomegalovirus retinitis and superficial lymphadenopathies. Histological analysis of an inguinal lymph node showed complete destruction by a diffuse pleomorphic lymphoid proliferation, which was positive for CD2, CD3, CD43, CD45, TIA-1 and granzyme B, and displayed a gammadelta phenotype (deltaTCR1+, Vdelta1+, Vdelta2-, Vdelta3-, betaF1-). Bone marrow was normal. Case 2, a male 24-year-old patient with a history of renal transplantation, presented with hepatosplenomegaly and supraclavicular lymph node enlargement. Lymph node architecture was globally preserved. Peripheral sinuses contained scattered nests of medium-sized irregular lymphoid cells. Bone-marrow was infiltrated. Phenotype showed positivity for CD2, CD3, CD45 and TIA1 and expression of gammadelta TCR (deltaTCR1+, deltaV1+, deltaV2-, deltaV3-, betaF1-). Both patients died a short time after diagnosis. CONCLUSIONS: These observations suggest that at least two forms of nodal gammadelta T-cell NHL may be encountered: one mimicking classical alphabeta T-cell NHL, with diffuse pleomorphic cell proliferation, and one displaying sinusoidal neoplastic infiltration suggesting a close relationship with hepatosplenic gammadelta T-cell NHL.     

Nodal T/NK-cell lymphoma of nasal type: a clinicopathological study of six cases

Aims:  To investigate the clinicopathological features of six unusual cases of nodal CD56+ and Epstein–Barr virus (EBV)+ T/natural killer (NK)-cell lymphoma, a putative nodal counterpart of nasal NK/T-cell lymphoma (nodal T/NK-cell lymphoma of nasal type) in comparison with nasal NK/T-cell lymphoma with secondary lymph node involvement ( n  = 24) and peripheral T-cell lymphoma (PTCL) of cytotoxic molecule (CTM)+ and EBV+ type ( n  = 21).
Methods and results:  All cases of nodal T/NK-cell lymphoma of nasal type exhibited diffuse infiltration of pleomorphic medium-sized to large tumour cells, reminiscent of those in CTM+ EBV+ PTCL. The tumour cells had a typical phenotype of nasal NK/T-cell lymphoma: CD2+, CD3ε+, CD4−, CD5−, CD56+, T-cell intracellular antigen-1+, granzyme B+, perforin+ and EBV+. However, four of six cases demonstrated clonal T-cell receptor γ-gene rearrangement on polymerase chain reaction analysis, unlike nasal NK/T-cell lymphoma. Comparison of clinical parameters and overall survival among the three groups demonstrated only minor differences.
Conclusions:  Nodal T/NK-cell lymphoma may occupy the grey zone between extranodal nasal-type NK/T-cell lymphoma and nodal CTM+ PTCL in a spectrum of NK to T-cell lymphomas that are EBV+. The close relationship between NK/T-cell lymphomas and cytotoxic T-cell lymphomas was also substantiated.     

Cytotoxic mechanisms in different forms of T-cell-mediated drug allergies

BACKGROUND: Cytotoxic mechanisms are involved in different forms of drug induced exanthems. METHODS: Here we compare the killing pathways of CD4+, CD8+ and CD4/CD8+ T-cell lines (TCL) and clones derived from patients suffering from maculopapular, bullous and pustular drug eruptions. In vitro, perforin and Fas-mediated killing was analysed in cytotoxicity assays against autologous Epstein-Barr virus (EBV)-transformed B-cell lines, Fas-transfected mouse lymphoblasts and natural killer (NK)-target cells. In addition, affected skin lesions and the TCL and clones were stained for perforin and FasL-expression. RESULTS: We detected perforin and some FasL-mediated killing in all three types of exanthems. Some of the drug-specific T-cell clones analysed exerted mainly perforin-, other more FasL-mediated killing showing no strict relationship between their perforin- and Fas-mediated cytotoxic capacity. Using a cell culture method focusing on the generation of cytotoxic T cells, we detected drug-specific CD8+, TCRalphabeta+ T cells, which failed to proliferate to drug presentation by antigen presenting cells but killed in a drug dependent way. Interestingly, these cells had substantial natural killer-like T cell(s) like features as they were CD56+ and CD94+ and had the ability to kill the NK-sensitive cell line K562. CONCLUSION: Our data underline the important role of cytotoxic mechanisms in different forms of drug induced exanthems and suggest that even some T cells with NK-like characteristics may be involved in drug hypersensitivity.     

Primary gastric apoptosis-rich T-cell lymphoma co-expressing CD4, CD8, and cytotoxic molecules

In contrast to primary gastric lymphomas of B-cell type, little is known about primary gastric T-cell lymphomas. We describe three cases with remarkably similar features: diffuse growth, epitheliotropism, medium too large cell size, high apoptotic rates, and a CD3+, CD4+, CD8+, CD45RO+ immunophenotype. Clonal TCRγ gene rearrangement was shown in two cases. Epstein-Barr virus infection was excluded in two cases. Taking advantage of fresh-frozen material, we analyzed two cases further, revealing CD5–, CD16+, CD56–, CD57–, CD25+, CD30+, CD103 (αEβ7)+, bcl-2 protein+, CD95+, CD95 ligand(L)–. CD95L, however, was detected in histiocytic and fibroblastoid by stander cells. The lymphomas expressed granzyme B, perforin, and the TIA-1 antigen in various combinations. All three cases had a very unfavorable clinical course characterized by local recurrence and/or dissemination to other epithelial sites, leading to death within 6–12 months after the initial diagnosis despite surgery and aggressive antineoplastic treatment. These data suggest a novel variant of peripheral T-cell lymphoma operationally characterized as primary gastric, apoptosis-rich, CD103+, EBV-, T-cell lymphoma co-expressing CD4, CD8, CD16 and cytotoxic molecules. Received: 20 August 1999 / Accepted: 2 November 1999     

Hepatosplenic gammadelta T-cell lymphoma following seven malaria infections

Hepatosplenic gammadelta T-cell lymphoma (HSTL) is a clinicopathological entity associated with an immunocompromised status in approximately 25% of patients. Herein is described a case of HSTL in a 53-year-old Brazilian man with seven previous malaria infections, initially misdiagnosed as a hyperreactive splenomegaly due to chronic malaria. A characteristic lymphoid infiltrate was observed in spleen, liver and bone marrow sinusoids/sinuses. Neoplastic cells had a CD45RO+, CD2+, CD7+, CD3+, CD5-, CD8+, CD56+, perforin+, FasL-negative, T-cell receptor (TCR)alphabeta-negative, TCRgammadelta+ profile. Analyses of gamma and delta TCR rearrangements confirmed diagnosis of gammadelta T-cell lymphoma by detecting VgammaI/Vdelta1-Jdelta1 clonal rearrangements. Sensitive polymerase chain reaction (PCR) for Plasmodium falciparum, Epstein-Barr virus and herpesvirus-8 failed to demonstrate infection. The disease progressed to a fatal outcome following cutaneous infiltration and leukemic proliferation. The authors also comment on the association of lymphoma and infection, focusing on PCR diagnosis of TCRgamma and delta clonal rearrangements and the presumed pathogenic events leading to HSTL in the context of chronic malaria infection. Initial lymphomagenic stages might not be direct consequences of antigenic stimulation of Vdelta1 T-cells, but might depend on interactions between gammadelta T and B cells during cooperative or regulatory responses to Plasmodium sp.     

Primary CD30-positive cutaneous T-cell lymphomas and lymphomatoid papulosis frequently express cytotoxic proteins

AIMS: To analyse the relationship between expression of cytotoxic proteins, histopathology and the CD30 status in primary cutaneous T-cell disorders, we investigated the expression of TIA-1, granzyme B and perforin in CD30 negative and CD30 positive cutaneous T-cell lymphomas (CTCL) and lymphomatoid papulosis (LP). METHODS AND RESULTS: We studied 26 cases of CTCL and 12 cases of LP for the expression of TIA-1, granzyme B and perforin which are granule-associated proteins of cytotoxic lymphocytes involved in the mechanism of apoptosis. We showed that most cases (10/13) of CD30 negative pleomorphic lymphomas expressed cytotoxic proteins only in scattered, apparently reactive lymphocytes, the exception being one CD8+ CTCL and two gammadelta subcutaneous 'panniculitis-like' T-cell lymphomas. We also showed that at least one cytotoxic protein was expressed in a proportion of neoplastic cells in 77% (10/13) of CD30+ T-cell lymphomas (3/4 pleomorphic and 7/9 anaplastic) and in a proportion of atypical cells in 75% (9/12) of LP. CONCLUSIONS: Our findings show a strong correlation between the CD30 phenotype and the expression of cytotoxic proteins in primary CTCL. In addition, these results provide further evidence for an overlap between lymphomatoid papulosis and cutaneous CD30+ pleomorphic and anaplastic lymphomas. These entities, which belong to the spectrum of CD30 positive cutaneous T-cell lymphoproliferations, appear to be derived from cytotoxic cells.     

Differing activation status and immune effector molecule expression profiles of neonatal and maternal lymphocytes in an African population

Higher susceptibility of newborns to infections has been attributed to the hypo-responsiveness of their cellular immune system. Here we compared the activation status and expression of cytokines and cytotoxic molecules of cord versus maternal peripheral blood mononuclear cells in an African population. Human leucocyte antigen-DR was expressed on a lower percentage of cord compared to maternal gammadelta and CD3(+) T cells. Similarly, a lower proportion of cord versus maternal gammadelta and CD3(+) T cells displayed perforin, granzyme B and cytokine activity either ex vivo or following non-specific stimulation in vitro. In contrast, comparable proportions of cord and maternal CD94(+) CD3(-) natural killer (NK) cells showed perforin and granzyme B expression ex vivo. We conclude that cord blood gammadelta and CD3(+) T cells are functionally hypo-responsive as reflected by reduced numbers of such cells expressing either an activation marker, T helper 1 (Th1) and Th2 cytokines or cytotoxic effector molecules. The similarity in numbers of cord and maternal CD94(+) CD3(-) cells expressing cytotoxic effector molecules suggests that neonatal Africans' NK cells may be functionally mature.     

Absence of cytotoxic molecules in CD8- and/or CD56-positive adult T-cell leukaemia/lymphoma

Adult T-cell leukaemia/lymphoma (ATLL) cells usually exhibit a CD4⁺ (helper/inducer) phenotype (CD4⁺/8^–/56^–), and only a minority of tumours express the CD8 (cytotoxic/suppressor) or CD56 (natural killer [NK]-associated) antigens. TIA-1 is a cytotoxic granule-associated protein expressed in NK cells and cytotoxic T lymphocytes (CTLs). Granzyme B, perforin and Fas ligand (FasL) are also expressed in activated CTLs and NK cells. To clarify the cytotoxic potential of ATLL cells, immunohistochemistry was performed in CD8⁺ and/or CD56⁺ ATLL cells, using anti-TIA-1, anti-granzyme B, anti-perforin and anti-FasL antibodies. We studied nine cases of CD8⁺ and/or CD56+ ATLL, all of which exhibited monoclonal integration of human T-cell leukaemia virus type 1 (HTLV-1) proviral DNA. Four cases exhibited a CD8⁺/CD56^– phenotype, four others had a CD8^–/CD56⁺ phenotype, and one was CD8⁺/CD56⁺. All but one case also expressed the surface antigens CD3, TCR αβ, and CD4. Expression of granzyme B and TIA-1 were demonstrated in three and two cases, respectively, but none expressed perforin or FasL. In the control study, 10 cases with typical CD3⁺/4⁺/8^–/56^– ATLL demonstrated no expression of those cytotoxic-associated proteins. Our findings suggest that CD8 and/or CD56 positivity probably confer(s) no cytotoxic function on ATLL cells, and it is possible that CD8 and CD56 may be simply aberrant surface markers in ATLL. Received: 20 January 1999 / Accepted: 13 April 1999     

T细胞性淋巴瘤组织CD56的检测及其与EB病毒的关系

目的探讨Ｔ细胞性淋巴瘤（ＴＣＬ）中ＣＤ５６的表达情况及ＣＤ５６阳性表达同爱波斯坦－巴尔病毒（ＥｐｓｔｅｉｎＢａｒＶｉｒｕｓ,ＥＢＶ）感染的关系。方法对４６例ＴＣＬ进行ＣＤ５６的免疫组织化学ＬＳＡＢ法检测及ＥＢＥＲｓ的原位杂交检测。结果（１）４６例ＴＣＬ中８例ＣＤ５６阳性（１７．４％）,其中鼻腔、咽部和口腔阳性率最高（５／１７例,２９．４％）。弥漫性大细胞型淋巴瘤ＣＤ５６阳性率最高（６／１６例,３７．５％）。（２）４６例ＴＣＬ中２４例ＥＢＥＲｓ阳性（５２．２％）。（３）８例ＣＤ５６阳性病例中,４例ＥＢＥＲｓ阳性。结论ＣＤ５６的表达同ＴＣＬ发生部位和类型有一定关系。ＣＤ５６阳性表达与ＥＢ病毒感染未发现相关性     

Intravascular large T-cell lymphoma: a case report of CD30-positive and ALK-negative anaplastic type with cytotoxic molecule expression

We reported a case of intravascular T-cell lymphoma (T-IVL) with anaplastic large cell morphology, the hemophagocytic syndrome, and an aggressive clinical course. Phenotypic analysis of the tumor cells revealed CD2+, CD3−, CD4+, CD5−, CD8−, CD30+, CD56−, T-cell receptor alpha/beta−, ALK−, TIA1+, granzyme B+, and perforin+. No association with Epstein–Barr virus was found by in situ hybridization. A review revealed that 25 cases of T-IVL have been reported in the available literature, only two of which were of CD30+ anaplastic large cell or cytotoxic T-cell type. The findings in the present case may highlight the unique clinicopathologic aspects of a subset of CD30-positive T-IVLs with an ALK-negative cytotoxic phenotype.     

Intestinal T-cell and natural killer-cell lymphomas in Taiwan with special emphasis on 2 distinct cellular types: natural killer-like cytotoxic T cell and true natural killer cell

Primary intestinal lymphomas are rare, especially the T-cell and natural killer (NK)-cell types. Enteropathy-type T-cell lymphoma (ETL) is the most characteristic of the intestinal T-cell and NK-cell lymphomas (ITNKLs) defined in the World Health Organization classification. However, typical ETL is rare in nonendemic areas for celiac disease, which include Taiwan. With the exception of ETLs, ITNKLs comprise heterogeneous subtypes such as anaplastic large cell lymphoma, nasal-type NK/T-cell lymphoma and peripheral T-cell lymphoma, unspecified. Furthermore, the literature results with respect to the association between Epstein-Barr virus (EBV) and ITNKL are contradictory. To define the clinicopathological features of primary ITNKLs and develop a better understanding of their relationship with EBV in Taiwan, therefore, we investigated a sample of 11 patients based on the new World Health Organization classification using immunostaining, in situ hybridization for EBV detection, and polymerase chain reaction (PCR) for evaluation of T-cell receptor clonality. In conclusion, 2 distinct groups of primary ITNKLs were identified in our Taiwanese sample. The 6 group A cases were non-EBV-associated ETLs, prevalent in the jejunum and/or ileum. They were composed of monotonous round-ovoid medium-sized nuclei and had little pale cytoplasm. The immunophenotypes of these tumors were consistently CD3+, CD4-, CD8+, CD56+, T-cell intracellular antigen 1+, and Epstein-Barr early region- and monoclonal for T-cell receptor PCR, which indicated NK-like cytotoxic T-cell origin. The 5 group B cases were EBV-associated nasal-type NK/T-cell lymphomas prevalent in the ileum or cecum of younger patients. The neoplastic cells had polymorphous medium to large angulated nuclei and moderate cytoplasm, with immunologic phenotypes of CD4-, CD8-, variable cytoplasmic CD3varepsilon+, CD56+, T-cell intracellular antigen 1+, and Epstein-Barr early region 1+, and germ line PCR result for T-cell receptor, which indicated true NK-cell origin. The grave prognoses for the 2 groups did not differ significantly.     

Expression of cytotoxic molecules in intestinal T-cell lymphomas

Intestinal T-cell lymphoma (ITCL) represents a subgroup of peripheral T-cell lymphomas which is thought to arise from αβ intraepithelial T-lymphocytes. Since these lymphocytes may contain cytotoxic molecules, the question of whether this also holds true for ITCL arises. Twenty ITCL cases were examined for the presence of granzyme B, perforin, and T-cell-restricted intracellular antigen (TIA-1)/granule membrane protein of 17 kD (GMP-17). Two molecules with restricted expression in cytotoxic cells, granzyme B and perforin, were detected by immunocytochemistry and by in situ hybridization with an isotopically labelled RNA probe, respectively. Immunocytochemistry was also performed with the antibody 2G9, which recognizes two molecules, one expressed by cytotoxic cells (TIA-1) and the other found in granulocytes and cytotoxic cells (GMP-17). Granzyme B, TIA-1/GMP-17, and perforin were found in the neoplastic cells of 16/19 cases, 19/20 cases, and 16/17 cases, respectively, of ITCL, but not in the tumour cells of the control group, which consisted of intestinal B-cell lymphomas (five cases) and CD8-negative peripheral nodal T-cell lymphomas (six cases). At least one of these molecules was expressed in the tumour cells of all ITCL cases. 2G9 proved to be the most sensitive immunohistological marker, since reactivity with this antibody was not only observed in the highest number of cases, but also found in high numbers of neoplastic cells in positive cases. In conclusion, ITCL appears to show cytotoxic differentiation in all cases. In conjunction with immunophenotypic and genotypic data, our results support a uniform derivation of this tumour from intraepithelial αβ cytotoxic T-lymphocytes. © 1997 John Wiley & Sons, Ltd.     

乳腺癌原发灶及腋窝淋巴结中细胞毒性淋巴细胞与临床病理的关系

目的 分析乳腺癌原发灶组织和腋淋巴结中细胞毒性淋巴细胞的数量和状态,并与乳腺癌临床病理特征相比较,探讨其意义.方法 对资料齐全且术前均未接受任何化疗和放疗的74例乳腺癌原发灶及所切除的腋淋巴结进行病理分型及临床病理分期,并分为淋巴结无转移组和有转移组.采用免疫组织化学催化信号放大系统和EnVision法,通过单克隆抗体CD8、粒酶B、穿孔素、CD56的检测,分析肿瘤原发灶及腋淋巴结中细胞毒性淋巴细胞的表型和功能.结果 在肿瘤原发灶组织中CD8+细胞间质明显多于实质,淋巴结无转移组肿瘤局部[(35.7±16.0)个]及腋淋巴结CD8+细.胞数[(53.0±18.2)个]均高于淋巴结有转移组[(23.7±9.6)个和(38.2±12.7)个],肿瘤原发灶CD8+细胞数在5年生存组[(32.9±14.1)个]显著高于死亡组[(20.1±9.9)个].以粒酶B为细胞毒性淋巴细胞活化标记时,细胞毒性淋巴细胞的百分率差异无统计学意义;肿瘤组织和腋淋巴结中CD8+、CD56+细胞数均与临床病理分期无关.与Ⅰ期相比,在Ⅲ+Ⅳ期原发灶组织和腋淋巴结中细胞毒性淋巴细胞的数量显著降低.值得注意的是,在多数情况下,原发灶组织中穿孔素+细胞数量明显低于粒酶B+细胞.结论 在乳腺癌中细胞毒性淋巴细胞对抑制其肿瘤转移、提高患者生存率有一定意义.组织中细胞毒性淋巴细胞功能缺陷可能是影响其发挥抗瘤效应的重要因素.     

Clinicopathologic analysis of 22 cases of subcutaneous panniculitis-like CD56- or CD56+ lymphoma and review of 44 other reported cases

In 22 histologic cases of subcutaneous panniculitis-like lymphoma, we studied the clinicopathologic differences between CD56- and CD56+ cases (11 each). CD56- cases had skin ulcers (1 [9%]); tumor invasion in the superficial dermis (1 [9%]); erythrophagocytosis (10 [91%]); and medium-sized (11 [100%]), CD8+ (10 [91%]), T-cell receptor (TcR)betaF1+ (10 [91%]), and CD95 (Fas)- tumor cells. CD56+ cases had skin ulcers (9 [82%]); tumor invasion in the superficial dermis (8 [73%]); erythrophagocytosis (1 [9%]); and pleomorphic large (10 [91%]), CD8+ (2/10 [20%]), TcRbetaF1 + (3/10 [30%]), and CD95 (Fas)+ (7/10 [70%]) tumor cells. These 7 factors were significantly different between groups (P < .01). Median survival rates were 96 and 12 months for the CD56- and CD56+ groups, respectively. Age younger than 40 years, no skin ulcers, no tumor invasion in the superficial dermis, and CD8+, TcRbetaF1 +, CD95 (Fas)-, and CD56- tumor cells were significantly better prognostic factors (P < .01). The CD56- and CD56+ groups showed different tumor cell characteristics, clinicopathologic findings, and prognosis. In the CD56+ group, 1 was gamma/delta T-cell phenotype, 3 were alpha/beta T-cell, and 6 were TcRbetaF1- and gamma/delta- NK/T-cell, and 3 NK/T-cell cases had nuclear signals of Epstein-Barr virus-encoded RNA. Cases of CD56+ T- and NK/T-cell lymphoma had similar clinicopathologic findings and prognosis.     

U5 monoclonal antibody identifies a novel lymphocyte surface antigen preferentially expressed in human circulating natural killer cells with high cytotoxic activity

U5 monoclonal antibody (mAb), developed against Japanese monkey lymphocytes, identified a glycoprotein of 32 000 MW that is expressed in a subset of human circulating natural killer (NK) cells. The distribution of U5 molecules was restricted among CD16+ cells, and U5 antigen was preferentially expressed in the CD38+ subset. U5+ CD16+ CD56+ cells were highly active on NK assay against K562 target cells. Variations in cytolytic activities and mRNA expression of perforin, granzyme B and Fas ligand (FasL) were observed in U5- CD16+ CD56+ cells depending on the donor. We found that in some donors, a phenotypically mature (CD16+ CD56+) but functionally immature subset was present in the peripheral circulation. The U5- CD16+ CD56+ cells of some donors exhibited negligible cytolytic activity with no detectable expression of the above mRNAs, whereas those of the other donors had a significant but lower cytolytic activity with a reduced expression of granzyme B mRNA as compared with those of U5+ CD16+ CD56+ cells. Concanavalin A (Con A) stimulation induced an expression of U5 antigen in U5- CD16+ CD56+ cells accompanied by an up-regulation of granzyme B mRNA expression. These findings suggest that U5 antigen may be a novel molecule involved in the maturation or differentiation of human circulating NK cells.     

Hepatosplenic gamma-delta T-cell lymphoma as a late-onset posttransplant lymphoproliferative disorder in renal transplant recipients

We report 2 cases of renal transplant recipients in whom hepatosplenic gamma-delta T-cell lymphoma (gamma-delta HSTCL) developed 5 and 10 years after transplantation. Both patients had marked hepatosplenomegaly, B symptoms (weight loss, fever, and night sweats), and abnormal peripheral blood findings, including anemia in both, thrombocytopenia and leukoerythroblastic changes in 1, and leukocytosis in the other. Markedly atypical lymphoid infiltrate of intermediate to large cells was observed in the spleen, liver, and bone marrow. The malignant cells showed typical immunophenotype of gamma-delta T cells (CD2+, CD3+, CD4-, CD8-, CD7+, gamma-delta T-cell receptor-positive, and alpha-beta T-cell receptor-negative) with clonal T-cell receptor gene rearrangement and were of the V-delta-1 subset. In addition, the cells contained a cytolytic granule-associated protein, TIA-1, and Fas ligand, indicating cytotoxic T-cell differentiation. The malignant T cells in both cases were of host tissue origin. Both cases were negative for Epstein-Barr virus genome using Southern blot analysis. The patients did not respond to reduction of immunosuppression. Despite initial response to chemotherapy, both patients died within 6 months of diagnosis. Our findings indicate that gamma-delta HSTCL can occur as a late complication in transplant recipients.