Giulio Lelio Palmisano

CTLA‐4 is constitutively expressed on tumor cells and can trigger apoptosis upon ligand interaction

CTLA‐4 (CD152) is a cell surface receptor that behaves as a negative regulator of the proliferation and the effector function of T cells. We have previously shown that CTLA‐4 is also expressed on neoplastic lymphoid and myeloid cells, and it can be targeted to induce apoptosis. In our study, we have extended our analysis and have discovered that surface expression of CTLA‐4 is detectable by flow cytometry on 30 of 34 (88%) cell lines derived from a variety of human malignant solid tumors including carcinoma, melanoma, neuroblastoma, rhabdomyosarcoma and osteosarcoma (but not in primary osteoblast‐like cultures). However, by reverse transcriptase‐PCR, CTLA‐4 expression was detected in all cell lines. We have also found, by immunohistochemistry, cytoplasmic and surface expression of CTLA‐4 in the tumor cells of all 6 osteosarcoma specimens examined and in the tumour cells of all 5 cases (but only weakly or no positivity at all in neighbouring nontumor cells) of ductal breast carcinomas. Treatment of cells from CTLA‐4‐expressing tumor lines with recombinant forms of the CTLA‐4‐ligands CD80 and CD86 induced apoptosis associated with sequential activation of caspase‐8 and caspase‐3. The level of apoptosis was reduced by soluble CTLA‐4 and by anti‐CTLA‐4 scFvs antibodies. The novel finding that CTLA‐4 molecule is expressed and functional on human tumor cells opens up the possibility of antitumor therapeutic intervention based on targeting this molecule.

Immunotoxins Containing Recombinant Anti-CTLA-4 Single-Chain Fragment Variable Antibodies and Saporin: In Vitro Results and In Vivo Effects in an Acute Rejection Model

Immunotoxins containing recombinant human-derived single-chain fragment variable (scFv) reagents (83 and 40) against CTLA-4 (CD152) linked to saporin, a ribosome-inactivating protein, were prepared and tested on CD3/CD28-activated T lymphocytes, MLRs, CTLA-4-positive cell lines, and hemopoietic precursors. Immunotoxins induced apoptosis in activated T lymphocytes and were able to specifically inhibit MLR between T lymphocytes and dendritic cells. The 83-saporin immunotoxin also inhibited the T cell activation in an MLR between T lymphocytes and an EBV-positive lymphoblastoid B cell line. Toxicity tests on hemopoietic precursors showed little or no effects in inhibiting colonies’ growth. As the 83 scFv Ab was reactive also with activated mouse T lymphocytes, 83-saporin was tested in a model of tumor rejection consisting of C57BL/6 mice bearing a murine H.end endothelioma cell line, derived from DBA/2 mice. The lymphoid infiltration due to the presence of the tumor was reduced to a high extent, demonstrating that the immunotoxin was actually available and active in vivo. Thus, taking the results altogether, this study might represent a new breakthrough for immunotherapy, showing the possibility of targeting CTLA-4 to kill activated T cells, using conjugates containing scFv Abs and type 1 ribosome-inactivating protein.

Investigation of HLA class I downregulation in breast cancer by RT-PCR.

Downregulation of HLA class I antigen expression has been reported in a significant proportion of primary breast carcinomas suggesting an escape mechanism from CTL mediated lysis leading to tumor dissemination and metastasis. We have previously reported the biochemical and immunohistochemical analysis of HLA total class I (W6/32 mAb), alpha-chain (Q1/28,TP25.99 mAbs) and beta(2)-microglobulin (Namb-1 mAb) subunits expression in 25 primary breast carcinomas. This study at protein level resulted in the observation of three different HLA class I expression patterns by both techniques: high, low, and absent downregulation patterns. To better characterize the HLA class I antigens downregulation we extended such analysis also at RNA level by RT-PCR using HLA-A, HLA-B, HLA-C, and beta(2)-microglobulin specific primers either in breast cancer or normal tissues derived from the same patient. None (100%) of the alpha-chain genes analyzed in patient tumor tissues showed significant reduction of expression. In 10 patients out of 25 (40%) the beta(2)-microglobulin gene showed complete loss of expression compared with the corresponding normal tissue counterpart, which showed a constitutive expression, whereas in 2 patients (12.5%) its expression was comparable with the normal counterpart. Sequence analysis at genomic level revealed no defects affecting beta(2)-microglobulin gene in those patients showing lack of expression. Also TAP1 and TAP2 genes expression were investigated in order to confirm or exclude involvement of the MHC class I molecules assembling machinery. The RT-PCR approach mainly confirmed our beta(2)-microglobulin biochemical analysis indicating that in breast cancer specimens it is possible to address the HLA class I gene downregulation as a phenomenon occurring at post-transcriptional level mainly affecting the beta(2)-microglobulin gene expression.

Analysis of HLA-G expression in breast cancer tissues.

Among the different mechanisms by which cancer can elude the immune system, alterations in the expression of human leukocyte antigen (HLA) class I molecules on tumor cells may play a crucial role by impairing the HLA molecules interaction with T and natural killer (NK) cells specific receptors. More recently, aberrant expression of HLA-G has been described in different tumor tissues in addition to HLA class I downregulation. The HLA-G molecule is a nonclassical HLA class I antigen selectively expressed by trophoblast and thymic epithelial cells. Several studies reported that the HLA-G function might represent an additional mechanism of tumor immune escape, mainly inhibiting NK and cytotoxic T-cell activity. Here we report the analysis of HLA-G expression both at RNA level by reverse transcriptase-polymerase chain reaction and at protein level by Western blot and immunohistochemistry in 25 breast cancer patient tissues. The aim of this study was to elucidate the HLA-G gene expression pattern in breast tumor tissues and correlate it with HLA class I alterations. Our results demonstrated that HLA-G molecules expression was never found even in a group of patients revealing HLA class I total loss, and that HLA-G is not expressed in breast cancer tissue with a low-tumor grade (G1-G2) and minimal stromal contamination.

The assessment of DNA from marine organisms via a modified salting-out protocol

We developed a rapid, practical and non-toxic salting-out method for the extraction of DNA from marine organisms, and tested it on two representative species of Porifera and Cnidaria, both living in association with symbiotic zooxanthellae. We tested the efficiency of the protocol by comparing the output of the method for fresh tissue, frozen tissue and tissue stored in ethanol. It proved to be effective for extracting DNA in the case of the methods of preservation considered here, and for obtaining quantities of DNA comparable to those obtained via the traditional approach. The DNA from both species was of good quality. The DNA obtained was amplified by PCR using specific primers for the large ribosomal subunit, allowing the identification of the presence of both the host and symbiont genomes.

DLX genes as targets of ALL-1: DLX 2,3,4 down-regulation in t(4;11) acute lymphoblastic leukemias

Dlx genes constitute a gene family thought to be essential in morphogenesis and development. We show here that in vertebrate cells, Dlx genes appear to be part of a regulatory cascade initiated by acute lymphoblastic leukemia (ALL)‐1, a master regulator gene whose disruption is implicated in several human acute leukemias. The expression of Dlx2, Dlx3, Dlx5, Dlx6, and Dlx7 was absent in All‐1 −/− mouse embryonic stem cells and reduced in All‐1 +/− cells. In leukemic patients affected by the t(4;11)(q21;q23) chromosomal abnormality, the expression of DLX2, DLX3, and DLX4 was virtually abrogated. Our data indicate that Dlx genes are downstream targets of ALL‐1 and could be considered as important tools for the study of the early leukemic cell phenotype.

CTLA-4 expressed by chemoresistant, as well as untreated, myeloid leukaemia cells can be targeted with ligands to induce apoptosis

We have previously reported that about 80% of acute myeloid leukaemia (AML) samples tested at diagnosis constitutively expressed cytotoxic T‐lymphocyte‐associated antigen‐4 (CTLA‐4). The present study compared CTLA‐4 expression and function of leukaemic cells from AML patients at diagnosis with those from AML patients resistant to conventional chemotherapy. We also explored the possibility of targeting CTLA‐4 for apoptosis induction in chemoresistant AML cells. AML cells either from untreated patients (n = 15) or in chemoresistant phase (n = 10) were analysed for CTLA‐4 protein and transcript expression by flow cytometry and reverse transcription‐polymerase chain reaction respectively. CTLA‐4 expression was similar in untreated and in chemoresistant samples and was not associated with patients’ clinical features. In chemoresistant AML cells, CTLA‐4 transduced an apoptotic signal on engagement with its recombinant ligands r‐CD80 and r‐CD86, which induced an average of 71% and 62% apoptotic cells, respectively, at highest concentration. Apoptosis was equally induced in untreated leukaemic cells accompanied by cleavage of procaspase‐8 and ‐3. Thus, this study provides the first evidence that killing of leukaemic cells from AML patients may be obtained by the engagement of CTLA‐4 with its ligands, opening the way to a novel potential therapeutic approach based on triggering the CTLA‐4 molecule to circumvent chemoresistance in AML.

Bones, genes and fractures: workshop on the genetics of osteoporosis: from basic to clinical research.

Between the 31st March and the 3rd April 2001 the EMBO workshop ‘Genetics of Osteoporosis: from Basic to Clinical Research’ was held in Sestri Levante, Italy. The complete programme of the meeting and all the abstracts can be found online (http://ermes.cba.unige.it/genospora/EMBO.htm). ![][1] Osteoporosis is a complex disease characterized by a reduction in bone mass with associated bone microarchitectural deterioration and a high risk of fractures. Although environmental factors like nutrition and mechanical load, as well as lifestyle, may influence the development of the disease, family and twin pair studies have suggested that there is also a strong genetic component in a predisposition to osteoporosis. Two separate approaches have guided the research of scientists interested in understanding the genetics of osteoporosis. On one side, basic molecular biologists are unravelling the regulatory cascades that control osteoblast and osteoclast differentiation and thereby bone mass. On the other, geneticists, epidemiologists and clinical researchers are looking for genetic mutations and factors that can predispose individuals to the development of the disease. The objective of this EMBO workshop on the genetics of osteoporosis (http://ermes.cba.unige.it/genospora/EMBO.htm) was to bring together clinicians and basic scientists and to stimulate mutual discussion and the transfer of ideas. The regulation of bone mass depends on the balance between the amount of bone formed by osteoblasts and the amount of bone resorbed by osteoclasts. Insight into the genetic factors predisposing to the disease depends on understanding the mechanisms that control the differentiation and the function of these cells. This knowledge is emerging from three major areas. First, many functional data on the transcriptional regulatory cascades that control differentiation of bone cells are accumulating. Some of the major highlights and new discoveries presented at this meeting were indeed reports of new bone‐specific trans and cis regulatory elements. Secondly, the signalling pathways involved in osteoclast … [1]: /embed/graphic-1.gif