T cell proliferation and apoptosis in HIV-1-infected lymphoid tissue: impact of highly active antiretroviral therapy.

T cell turnover was studied in situ in tonsillar lymphoid tissue (LT) from HIV-1-infected individuals during 48 weeks of highly active antiretroviral therapy (HAART) and compared to that of HIV-1-negative controls. Prior to therapy, CD4 cell proliferation (%CD4+ Ki67+) and apoptosis (%CD4+ TUNEL+) were increased in HIV-1-infected LT and both parameters correlated with tonsillar viral load. CD8 cell proliferation (%CD8+ Ki67+) was increased 4- to 10-fold, mainly in the germinal centers. Apoptotic CD8+ T cell levels (%CD8+ TUNEL+) were raised preferentially in the tonsillar T cell zone. The frequency of CD8+ Ki67+ and CD8+ TUNEL+ T cells correlated with tonsillar viral load and with the fraction of CD8(+) T cells expressing activation markers. During HAART, CD4 cell turnover normalized while CD8 cell turnover was dramatically reduced. However, low level viral replication concomitant with slightly elevated levels of CD8 cell turnover indicated a persistent cellular immune response in LT. In conclusion, enhanced T cell turnover may reflect effector cells related to HIV-1 infection.

Cushing's syndrome in prostate cancer. An aggressive course of prostatic malignancy.

We report a case with an initial diagnosis of adenocarcinoma of the prostate in whom Cushing's syndrome developed. The disease did not respond to estrogen treatment and the patient died of severe septicemia. Histopathologic examination of the autopsy specimens revealed a small cell carcinoma intermingled with a moderately differentiated adenocarcinoma in the prostate and widespread metastases of small cell carcinoma. Immunoreactivity for neuroendocrine differentiation was found only in the small cell carcinoma. Determination of different tumor markers in plasma samples showed markedly elevated levels of prostate-specific antigen as well as carcinoembryonic antigen prior to treatment, with no significant changes after treatment. The concentration of the neuroendocrine marker chromogranin A was initially within the normal range, but increased during estrogen treatment, whilst neuron-specific enolase was moderately elevated throughout the observation period.

Combined effect of alkyl-lysophospholipid and vincristine on proliferation, migration and invasion in human glioma cell lines in vitro.

The aim of the present study was to investigate the combined effect of the alkyl-lysophospholipid Et-18-0-CH3 (ALP) and vincristine (VCR) on the proliferative, migratory and invasive properties of human glioma cells. Both drugs have previously been shown to act upon the locomotive apparatus of the cell. In the glioma cell lines D37MG and GaMG we found that ALP and VCR inhibited proliferation in monolayer growth as well as in multicellular spheroids in a dose-dependent manner. When combined, the two drugs had a significantly enhanced effect upon proliferation in the cell line GaMG but not in D37MG. Migration was inhibited by ALP and VCR in a dose-dependent manner in both cell lines. An enhanced effect by combining the drugs was also observed. The invasion of glioma cells into the brain cell aggregates was markedly inhibited at lower concentrations than needed for the inhibition of proliferation and migration when ALP and VCR were applied alone, without any further enhancement by combining the drugs. It is concluded that the combination of ALP and VCR have additive anti-proliferative and anti-migratory properties in human glioma cell lines.

Dynamic determination of human glioma invasion in vitro.

OBJECT: The goal of this study was to evaluate whether there is any relationship between survival of patients with brain tumor and tumor proliferation or tumor invasion in vitro. METHODS: Samples of freshly resected brain tumors from 14 patients with glioblastoma multiforme (GBM) were directly grown as three-dimensional multicellular spheroids. The tumor spheroids were cocultured with fetal rat brain cell aggregates (BCAs), used to represent an organotypical normal brain tissue model. Before the coculture, the tumor spheroids and the BCAs were stained with two different carbocyanine dyes, 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate (DiI) and 3,3'-dioctadecycloxacarbocyanine perchlorate (DiO), respectively. During the coculture, confocal laser scanning microscopy allowed a sequential analysis of tumor cell invasion by visualizing dynamic aspects of the invasive process. Single cocultures were examined at three different time points (24, 48, and 96 hours). During the observation period there was a change in the structural morphology of the cocultures, with a progressive decrease in BCA volume. Furthermore, the scanning confocal micrographs revealed a bidirectional movement of tumor cells and normal cells into brain and tumor tissue, respectively. It is also shown that there is a considerable variation in the rate of BCA destruction in cocultures of glioma spheroids generated directly from biopsy specimens. This variation is seen both between spheroids generated from the same biopsy as well as between spheroids that are grown from different biopsy specimens. Cell proliferation measured by Ki-67 immunohistochemical analysis of biopsy samples obtained in the same patients revealed a correlation between tumor cell proliferation and tissue destruction of the BCAs, as determined by a reduction in BCA volume (p = 0.0338). No correlation was found when survival was related to the same parameters (p > 0.05). CONCLUSIONS: The present work provides a model for quick and efficient assessment of dynamic interactions between tumor and normal brain tissue shortly after surgery.

Expression of annexin II in glioma cell lines and in brain tumor biopsies.

Annexin II is a calcium and phospholipid binding protein and a substrate for protein-tyrosine kinases. Increased levels of annexin II are observed in various cancer cells and tissues, and the molecule has been proposed as a marker of malignancy in vivo. Annexin II was expressed in four glioma cell lines (D-54MG, D-37MG, U251MG and GaMG), as determined by Western blot analyses, immunofluorescence staining and flow cytometric measurements. In addition, annexin II expression was also found in cryostat sections obtained from 15 consecutive brain tumor biopsies: Ten were histologically classified as glioblastomas, one as an astrocytoma, two as meningiomas and two as brain metastases. Cultured spheroids from the glioma cell lines and from three of the glioblastoma biopsies showed lower levels of annexin II, than found in the monolayers of the cell lines and in the freshly cut biopsies. The annexin II expression of the cell lines were not found to be related to their proliferative, migratory or invasive properties. These findings indicate that although annexin II may serve as a marker of malignancy in vivo, its expression can be reduced in vitro, and appear unrelated to malignant features of glioma cell lines.

Quantification of glioma cell invasion by confocal laser scanning microscopy in an in vitro co-culture system.

Malignant invasion in co-cultures of spheroids from the glioma cell line GaMg into brain cell aggregates (BA) was determined by two different techniques: by confocal laser scanning microscopy (CLSM) and by conventional light microscopic observations of semi-thin sections obtained from co-cultures. The remaining BA volumes were detected by CLSM in vital dye-fluorescent-stained co-cultures. The same specimens were fixed and embedded in Epon, and cut for histologic and morphometric analyses. The results show that CLSM can be used for continuous determination of progressive glioma invasion. Compared to the light microscopic observations, the degree of invasion appeared slightly lower when analyzed by CLSM. We conclude that the CLSM provides the possibility for continuous studies on interaction between normal and malignant cells. Therefore it considerably improves existing methods for studying tumor cell invasion in vitro.

Glioma cell invasion visualized by scanning confocal laser microscopy in an in vitro co-culture system.

Confrontation cultures between glioma spheroids and brain cell aggregates are well established in glioma research, and the model reflects several similarities to the in vivo brain tumour invasive process. The lipid-binding fluorescent carbocyanine dyes DiO (3,3'-dioctadecyloxacarbocyanine perchlorate) and DiI (1,1'-dioctadecyl-3,3,3,'3,'-tetramethylinocarbocyanine perchlorate) are widely used in cell biology as tracers for studying cell movement. Mature brain cell aggregates grown from fetal rat brain cells, and spheroids initiated from two glioma cell lines (GaMg and D-54Mg) were stained with DiO and DiI, respectively. Penetration of DiI and DiO into the tumour spheroids and brain aggregates was studied by confocal laser scanning microscopy (CLSM). After 48 h of dye exposures, the tracers had almost completely penetrated the tumour spheroids and brain aggregates. Light-microscopic sections of the specimens indicated that the dye incorporation had little effect on cellular morphology. Cell migration from DiI stained D-54Mg and GaMg spheroids was similar to that observed from unstained spheroids. Growth was also unaffected after 48 h of DiI exposure. Gioma cell invasion was assessed by CLSM using co-cultures of DiI -stained spheroids and DiO-stained brain cell aggregates. Optical sections revealed a gradual decrease in remaining brain volume, indicating a progressive invasive process. Single tumour cells were identified deep within the brain aggregates. In addition normal brain cells were also identified in the tumour spheroids. It is concluded that vital staining can be used to identify both normal cells and tumour cells during tumour cell invasion in vitro. The method may provide the possibility for studying the kinetics of single normal and tumour cell movement in individual tumour/brain co-cultures.