The Sycp1 loci of the mouse genome: successive retropositions of a meiotic gene during the recent evolution of the genus

We wished to determine the effect of altering the levels or functional activity of retinoid receptors, in particular retinoic acid receptor-alpha (RAR-alpha) and retinoid X receptor-alpha (RXR-alpha) on the growth sensitivity of ovarian tumor cells to all-trans-retinoic acid (all-trans-RA). We found that CA-OV3 cells could be made resistant to all-trans-RA growth inhibition by overexpressing RAR-beta(R269Q), an efficient dominant negative mutant which inhibits the function of all RAR subtypes. Antisense technology was then used to prepare stable transfectants of the retinoid-sensitive ovarian carcinoma cell line CA-OV3 in which expression of RAR-alpha, RXR-alpha, or both RAR-alpha and RXR-alpha was reduced. The effect of all-trans-RA on ovarian tumor cell growth was determined by MTT assay, autoradiographic analysis of DNA synthesis, and anchorage-independent colony formation in soft agar. Our results show that cell lines expressing reduced levels of either RAR-alpha alone or RXR-alpha alone exhibited a small decrease in sensitivity to growth inhibition by all-trans-RA. However, maximum RA resistance was obtained in cell lines in which the levels of both RAR-alpha and RXR-alpha were reduced. These results demonstrate the importance of both retinoid nuclear receptors and retinoid-X receptors in general, and RAR-alpha and RXR-alpha in particular, as mediators of ovarian carcinoma cell growth inhibition by retinoids.     

Differential retinoic acid radiosensitization of cervical carcinoma cell lines

The potential of retinoic acid as a radiosensitizer was investigated using SiHa and CC-1 human uterine cervical carcinoma cell lines, representative of high- and low-grade lesions, respectively. SiHa was significantly (P < 0.05) radiosensitized, whereas CC-1 was not. Although 48 h of treatment with 5 microM 13-cis-retinoic acid prior to irradiation was sufficient to induce radiosensitization, continuation of treatment after irradiation significantly increased the effect (P < 0.05). Three hypotheses were tested to explain the different responses of the two lines. One hypothesis was that SiHa is more sensitive to retinoic acid than CC-1. Measurement of growth revealed that SiHa was more sensitive to growth inhibition by retinoic acid than CC-1. The second hypothesis was that retinoic acid increases the proportion of G1-phase cells in SiHa but not in CC-1. This was found not to be true, because a retinoic acid treatment schedule that induced radiosensitization did not alter cell cycle distribution profiles in the absence of radiation. The third hypothesis was that retinoic acid alters the cell cycle response of SiHa but not CC-1 to radiation. Postirradiation cell cycle profiles revealed that retinoic acid increased G1 delay in SiHa, whereas CC-1 exhibited no significant G1 delay. Both lines exhibited G2 delays that were unaffected by retinoic acid. In conclusion, radiosensitization of SiHa but not CC-1 may be explained by different sensitivities to retinoic acid and differences in postirradiation cell cycle responses. Radiosensitization at radiation doses used clinically was observed when retinoic acid was administered both before and after irradiation.     

Response of four human ovarian carcinoma cell lines to all-trans retinoic acid: relationship with induction of differentiation and retinoic acid receptor expression

The response of 4 human ovarian carcinoma cell lines to retinoic acid was found to be related to the histological type and degree of differentiation of these tumor cells. The 2 serous cell lines NIHOVCAR3 and OVCCR1 were the most sensitive to the antiproliferative effect of RA. This inhibition was associated with morphological and biological changes that were indicative of differentiation. The undifferentiated IGROV1 cell line was not affected by RA. Since the effects of RA are thought to be mediated by nuclear retinoic acid receptors (RARs), the expression of RARs in human ovarian cancer cells was studied. RAR alpha was detected as mRNA species of 3.1 and 2.6 kb in all 4 cell lines. RAR beta was not detected in any of the cell lines, while RAR gamma (3 kb) was expressed in all of the ovarian cancer cells but at a very low level in the RA-resistant IGROV1 cells.     

Peculiarity of soleus motor potentials evoked by transcranial magnetic stimulation and electrical stimulation of tibial nerve

Fas (Apo-1/CD95) ligand (FasL) is a cytotoxic molecule used by T lymphocytes and natural killer cells for target-cell killing and by nonmalignant and malignant cells in the suppression of immune responses. In this study, FasL expression in B- and T-cell non-Hodgkin's lymphomas was investigated by paraffin immunohistochemical analysis. FasL expression was found to be weak in nonaggressive lymphomas (chronic lymphocytic leukemia/small lymphocytic lymphoma, lymphoplasmacytoid lymphoma, Grade 1 follicular center cell lymphoma) and mantle cell lymphoma but strong in aggressive B-cell lymphomas (diffuse large B-cell lymphoma, Burkitt's-lymphoma). Precursor B-lymphoblastic lymphomas were more heterogeneous, with expression varying from weak to strong. In T-cell lymphomas (anaplastic large-cell lymphoma; peripheral T-cell lymphoma, unspecified), strong FasL expression was observed. Apparently, FasL expression is not limited to neoplasms derived from T cells or natural killer cells, and it might play a supporting role in the progression of non-Hodgkin's lymphomas.     

Resistance to apoptosis induced by serum depletion and all-trans retinoic acid in drug-resistant leukemic cell lines

The relation between resistance to anticancer drugs and resistance to apoptosis has been investigated in the human leukemic cell line(KY-821) and its drug-resistant sublines. Under serum depletion conditions, drug-resistant cell lines showed apoptotic resistance when compared with the parental cell line. Drug resistant cell lines also showed resistance to apoptosis when treated with all-trans retinoic acid. DNA fragmentation was low in drug resistant cell lines under both stimulations. Flowcytometry analysis did not show any alterations of the Fas antigen, p53, bcl-2 and c-myc protein expression toward inhibition of apoptotic response in drug-resistant sublines. These results indicate that drug-resistant leukemic cells still show resistance to apoptosis-inducing stimulation such as poor nutrition and differentiation-inducing agents.     

The B7/BB1 antigen is expressed by Reed-Sternberg cells of Hodgkin's disease and contributes to the stimulating capacity of Hodgkin's disease-derived cell lines

The B7/BB1 molecule has recently been found to be expressed on professional antigen-presenting cells and to be the natural ligand for CD28 and CTLA-4 on T cells. On binding of B7/BB1, CD28 transduces a signal that synergizes with triggering of the T-cell antigen receptor, resulting in enhanced cytokine secretion. In view of the data supporting an antigen-presenting function of Reed-Sternberg cells, we evaluated the expression of B7/BB1 in lymph nodes affected by Hodgkin's disease. B7/BB1 was found to be strongly expressed by the Reed-Sternberg cells in all 47 cases of Hodgkin's disease studied. Moreover, Reed-Sternberg cells were frequently surrounded by CD28-expressing T cells. Evidence for a functional role of B7/BB1 on Reed-Sternberg cells was obtained by our findings that T-cell proliferation and interleukin-2 (IL-2) production in the primary allogenic mixed lymphocyte reaction (MLR), using the B7/BB1-expressing Hodgkin's disease-derived cell lines L428 and KM-H2 as stimulators, could be partially blocked by adding anti-B7 monoclonal antibody. B7/BB1 expression was also evaluated in a group of non-Hodgkin's lymphomas (n = 46). Whereas B7/BB1 was not expressed by the neoplastic cells of most non-Hodgkin's lymphomas, including T-cell-rich B-cell lymphoma (n = 11), it was present on the neoplastic cells of anaplastic large-cell lymphoma (Ki-1 lymphoma) (n = 5) and follicular lymphoma (n = 4). Our data provide further evidence for an accessory cell function of Reed-Sternberg cells. The accessory cell function of Reed-Sternberg cells might lead to pronounced T-cell activation in vivo, which might contribute to the Hodgkin's syndrome. In addition, our study indicates that B7/BB1 may be a useful marker for differentiating Hodgkin's disease from morphologically similar conditions such as T-cell-rich B-cell lymphoma.     

Sensitivity to transforming growth factor beta 1-induced growth arrest is common in human squamous cell carcinoma cell lines: c-MYC down-regulation and p21waf1 induction are important early events

Transforming growth factor beta 1 (TGF-beta 1) is a potent inhibitor of keratinocyte proliferation and a potential tumor suppressor of squamous cell carcinomas (SCCs). TGF-beta 1 exerts its antiproliferative effects by inhibiting key transitions required for progression from G1 to the S phase of the cell cycle, exemplified by a rapid reduction of c-MYC and inhibition of the G1 cyclin/cyclin-dependent kinases by induction of their inhibitors p21waf1, p27kip1, and p15INK4B. A significant majority of a new series of human SCC cell lines were found to be as sensitive as primary human epidermal keratinocytes to TGF-beta 1 growth inhibition. Only a minority of cell lines derived from late-stage tumors were resistant. An early and rapid increase in p21waf1 and reduction in c-MYC protein levels were important concomitants for TGF-beta 1 growth inhibition; these changes occurred exclusively in each of the sensitive cell lines. Expression of p15INK4B was found to be neither necessary nor sufficient for TGF-beta 1 growth arrest in the sensitive and resistant cell lines, respectively. TGF-beta 1 induced alterations in other cell cycle regulatory molecules, cyclin-dependent kinase 4, cyclin D1, pRB, and p27Kip1, occurred late and were dispensable in some of the sensitive cell lines. Expression of exogenous mycER fusion protein in one of the sensitive cell lines did not render the cells resistant to TGF-beta 1-induced growth arrest nor prevent p21waf1 induction or down-regulation of both c-MYC and mycER proteins. However, in TGF-beta 1-resistant subclones of sensitive mycER-expressing cells, p21waf1 was not induced, whereas both c-MYC and mycER protein levels decreased following TGF-beta 1 treatment. We conclude that TGF-beta 1 activates multiple cell cycle inhibitory pathways dependent upon p21waf1 induction and c-MYC degradation and that it does not function as a tumor suppressor in the majority of SCCs.     

ALK gene products in anaplastic large cell lymphomas and Hodgkin's disease

The translocation t(2;5)(p23;q35), discovered in CD30+ anaplastic large cell (ALC) lymphomas, creates a potentially oncogenic fusion gene, part of which is contributed by a novel tyrosine kinase, ALK. Absence of ALK expression from normal hematolymphoid cells provides a basis for the morphologic assessment of t(2;5). The distribution of the t(2;5) in ALC lymphomas and Hodgkin's disease (HD), as assayed by nonmorphologic methods, is controversial. We used in situ hybridization and/or immunohistology to show ALK gene products in 85 ALC lymphomas, 82 HD cases, 40 other lymphoproliferations, as well as in 6 HD- and 4 ALC lymphoma-derived cell lines. ALK gene products were restricted to t(2;5)-positive ALC lymphoma cell lines and tumor cells of 16 primary non-B cell, common-type ALC lymphomas. These were mainly from young patients with initial lymphonodal disease. ALK expression was not detectable in any other specimen, including all cases of HD and HD-like type ALC lymphoma as well as secondary ALC lymphomas. Full congruence was noted for labeling results obtained with both methods. In agreement with cytogenetic analyses, but at variance with recently published studies, ALK gene expression distinguishes a subset of ALC lymphomas from other CD30+ lymphomas, including HD. The results do not support concepts attributing a significant role to the t(2;5) in the development of HD.     

Chemically induced isomerization and differential uptake modulate retinoic acid disposition in HL-60 cells

The successful introduction of 13-cis-retinoic acid (13-cis-RA) and all-trans-retinoic acid (all-trans-RA) in the chemoprevention and treatment of cancer along with the discovery of different retinoic acid receptors transactivated by different retinoic acid isomers resulted in a number of in vitro studies of the antitumor effects of single retinoic acid isomers. Since the formation of retinoic acid isomers with different receptor affinities might modulate retinoic acid response in vitro, we determined retinoic acid disposition in HL-60 cells and cell culture medium during incubation with 13-cis-, 9-cis-, and all-trans-RA. In medium, retinoic acids underwent a thiol-radical mediated isomerization resulting in a mixture of 13-cis-, 9-cis-, 9,13-di-cis-, and all-trans-RA. Except for the 9, 13-di-cis-RA, all isomers generated in medium were also detected in HL-60 cells. Whereas 9-cis-RA and 13-cis-RA showed similar cellular pharmacokinetics, all-trans-RA reached about fourfold higher concentrations in HL-60 cells compared to 9-cis-RA and 13-cis-RA. Due to its better uptake, all-trans-RA became the main isomer within cells as it was formed in the medium when incubated with 13-cis-RA and 9-cis-RA. Thus, due to the simple chemically induced isomerization and its profound influence on cellular retinoic acid concentrations, studies of the efficacy of single retinoic acid isomers in vitro should be interpreted with caution.     

Somatic Fas mutations in non-Hodgkin's lymphoma: association with extranodal disease and autoimmunity

Fas (APO-1/CD95) is a cell-surface receptor involved in cell death signaling. Germline mutations in the Fas gene have been associated with autoimmune lymphoproliferative syndrome, and somatic Fas mutations have been found in multiple myeloma. We have examined the entire coding region and all splice sites of the Fas gene in 150 cases of non-Hodgkin's lymphoma. Overall, mutations were identified in 16 of the tumors (11%). Missense mutations within the death domain of the receptor were associated with retention of the wild-type allele, indicating a dominant-negative mechanism, whereas missense mutations outside the death domain were associated with allelic loss. Fas mutations were identified in 3 (60%) MALT-type lymphomas, 9 (21%) diffuse large B-cell lymphomas, 2 (6%) follicle center cell lymphomas, 1 (50%) anaplastic large cell lymphoma, and 1 unusual case of B-cell chronic lymphocytic leukemia with a marked tropism for skin. Among the 16 patients with somatic Fas mutations, 15 showed extranodal disease at presentation, and 6 relapsed in extranodal areas. Ten of 13 evaluable patients showed features suggestive of autoreactive disease. Our data indicate that somatic disruption of Fas may play a role in the pathogenesis of some lymphomas, and suggest a link between Fas mutation, cancer and autoimmunity.     

Expression of retinoic acid receptor proteins in basal cell carcinomas: an immunohistochemical analysis

We analyzed immunohistochemically the expression of RAR proteins in basal cell carcinomas (BCCs; n = 15) in situ. The labeling pattern for the different types of RARs was compared with the staining pattern of the proliferation marker Ki-67 in the same tumors. We found strong immunoreactivity for RAR-alpha and moderate immunoreactivity for RAR-gamma in all BCCs analyzed, whereas no or very weak staining for RAR-beta protein was detected. In contrast to RAR-gamma, which revealed no or only marginal differences in staining intensities, RAR-alpha immunoreactivity was consistently stronger in BCCs compared to adjacent unaffected epidermis. In general, labeling of BCCs for RAR-alpha and RAR-gamma was pronounced in cells of the palisade and peripheral cells, whereas staining in the center of the tumors was heterogeneous. Eleven of the 15 BCCs analyzed revealed no visual correlation in comparing labeling patterns for RAR-alpha and RAR-gamma with the labeling pattern for Ki-67. In four specimens, expression of RAR-alpha, RAR-gamma, and Ki-67 proteins was confined to peripheral tumor cells. Our findings indicate that (a) RAR-alpha and RAR-gamma proteins are, in contrast to RAR-beta, strongly expressed in BCCs; (b) expression of RAR-alpha is upregulated in BCCs compared to keratinocytes of uninvolved epidermis; and (c) BCCs may be targets for potentially preventive or therapeutic treatment with RAR-alpha- or RAR-gamma-selective retinoic acid metabolites.