SummaryParaneoplastic cerebellar degeneration (PCD) is a heterogeneous group of disorders characterized by subacute cerebellar ataxia, speci®c tumour types and (often) associated antineuronal antibodies. Nine speci®c antineuronal antibodies are associated with PCD. We examined the relative frequency of the antineuronal antibodies associated with PCD and compared the neurological symptoms and signs, associated tumours, disability and survival between groups of PCD with different antibodies. Also, we attempted to identify patient-, tumour-and treatment-related characteristics associated with functional outcome and survival. In a 12-year period, we examined >5000 samples for the presence of antineuronal antibodies. A total of 137 patients were identi®ed with a paraneoplastic neurological syndrome and high titre (b400) antineuronal antibodies. Fifty (36%) of these patients had antibodyassociated PCD, including 19 anti-Yo, 16 anti-Hu, seven anti-Tr, six anti-Ri and two anti-mGluR1. Because of the low number, the anti-mGluR1 patients were excluded from the statistical analysis. While 100% of patients with anti-Yo, anti-Tr and anti-mGluR1 antibodies suffered PCD, 86% of anti-Ri and only 18% of anti-Hu patients had PCD. All patients presented with subacute cerebellar ataxia progressive over weeks to months and stabilized within 6 months. The majority of patients in all antibody groups had both truncal and appendicular ataxia. The frequency of nystagmus and dysarthria was lower in anti-Ri patients (33 and 0%). Later in the course of the disease, involvement of noncerebellar structures occurred most frequently in antiHu patients (94%). In 42 patients (84%), a tumour was detected. The most commonly associated tumours were gynaecological and breast cancer (anti-Yo and anti-Ri), lung cancer (anti-Hu) and Hodgkin's lymphoma (antiTr and anti-mGluR1). In one anti-Hu patient, a suspect lung lesion on CT scan disappeared while the PCD evolved. Seven patients improved by at least 1 point on the Rankin scale, while 16 remained stable and 27 deteriorated. All seven patients that improved received antitumour treatment for their underlying cancer, resulting in complete remission. The functional outcome was best in the anti-Ri patients, with three out of six improving neurologically and ®ve were able to walk at the time of last follow-up or death. Only four out of 19 anti-Yo and four out of 16 anti-Hu patients remained ambulatory. Also, survival from time of diagnosis was signi®cantly worse in the anti-Yo (median 13 months) and anti-Hu (median 7 months) patients compared with anti-Tr (median >113 months) and anti-Ri (median >69 months). Patients receiving antitumour treatment (with or without immunosuppressive therapy) lived signi®-cantly longer [hazard ratio (HR) 0.3; 95% con®dence interval (CI) 0.1±0.6; P = 0.004]. Patients b60 years old lived somewhat shorter from time of diagnosis, although statistically not signi®cant (HR 2.9; CI 1.0±8.5; P = 0.06).
The transcription factors SOX9 and FOXL2 are required for male and female mammalian gonadal development. We have used specific antibodies to investigate the role of these key proteins in disorders of sex development (DSD), specifically inter-sex states. In normal gonads, SOX9 was found to be restricted to the presence of (pre-)Sertoli cells, while FOXL2 was found in granulosa cells, and in stromal cells interpreted as early ovarian stroma. Both proteins were found within a single patient, when testicular and ovarian development was present; and within the same gonad, when both differentiation lineages were identified, as in ovotesticular DSD (ie hermaphrodite). Especially SOX9 was informative to support the presence of early testicular development (ie seminiferous tubules), expected based on morphological criteria only. In a limited number of DSD cases, FOXL2 was found within reasonably well-developed seminiferous tubules, but double staining demonstrated that it was never strongly co-expressed with SOX9 in the same cell. All seminiferous tubules containing carcinoma in situ (CIS), the malignant counterpart of a primordial germ cell, ie the precursor of type II germ cell tumours of the testis, seminomas and non-seminomas, showed the presence of SOX9 and not FOXL2. In contrast, gonadoblastomas (GBs), the precursor of the same type of cancer, in a dysgenetic gonad, showed expression of FOXL2 and no, or only very low, SOX9 expression. These findings indicate that gonadal differentiation, ie testicular or ovarian, determines the morphology of the precursor of type II germ cell tumours, CIS or GB, respectively. We show that in DSD patients, the formation of either ovarian or/and testicular development can be visualized using FOXL2 and SOX9 expression, respectively. In addition, it initiates a novel way to study the role of the supportive cells in the development of either CIS or GB.
Survival and outcome in 73 anti-Hu positive patients with paraneoplastic encephalomyelitis/sensory neuronopathy
In a retrospective study, we determined clinical and serological findings, associated tumours, outcome and prognostic factors in 73 Hu-Ab positive patients detected in a Dutch reference laboratory. The most frequent signs and symptoms at presentation were sensory neuropathy (55 %), cerebellar degeneration (22 %), limbic encephalitis (15 %) and brainstem encephalitis (16 %). 23 % developed autonomic dysfunction including gastro-intestinal motility disorders in 14 %. In 85 % a tumour was detected, which was a lung tumour in 77 %. Signs, symptoms and associated tumours did not differ in six patients with additional neuronal antibodies (anti-amphiphysine, anti-CV2, anti-Ri). The overall 3 months, one-year and three-year survival rates from the time of diagnosis were 64 %, 40 % and 22 %. Rankin Scale Score (RS) at diagnosis and presence of tumour at the time of diagnosis predicted mortality with hazard ratios (95 % CI) of 2.6 (1.5-4.6) and 1.5 (1.1-2). The median delay between onset of symptoms and Hu-Ab diagnosis was 4 months. There was a negative association between delay RS at diagnosis (P=0.03). In a logistic regression analysis, only older age (OR=0.15; 0.02-0.63) and a higher RS at diagnosis (OR=0.29; 0.11-0.73) were associated with a lower probability of successful functional outcome. Adjusted for these factors, antitumour therapy showed a higher but statistically not significant probability of successful outcome (OR=3.5; 0.87-14.3). Our study underlines the importance of early diagnosis and start of antitumour treatment when the patient is still in a better functional state. The delay between onset of symptoms and diagnosis of PEM/SN suggests a window for improving outcome in these patients.
Synovial sarcoma is characterized by a prevalent chromosomal translocation, t(X;18)(p11;q11). As a result of this translocation the SYT gene on chromosome 18 fuses to either the SSX1 or the SSX2 gene on the X chromosome. In this study, we generated polyclonal antibodies against the SYT and SSX2 proteins. These antibodies specifically detected both these proteins and the SYT-SSX fusion proteins in transfected COS-1 cell extracts. Indirect immunofluorescence analysis of COS-1 cells expressing tagged or untagged SYT, SSX2, SYT-SSX1 or SYT-SSX2 indicated that all these proteins are localized in the nucleus, excluding the nucleoli. The SSX2 protein exhibited a diffuse staining pattern whereas both the SYT and SYT-SSX proteins appeared in several nuclear dots. Similar nuclear dots were also detected in primary synovial sarcoma cells growing in a short-term in vitro culture. Double immunofluorescence in conjunction with confocal laser-scanning microscopy revealed that the SYT and SYT-SSX nuclear dots do not co-localize with known nuclear structures as e.g. coiled bodies, SC35 interchromatin granules or PML bodies. The similar nuclear localization patterns of SYT and SYT-SSX suggest that the SYT-SSX fusion proteins are directed to SYT-associated nuclear domains where an abnormal function may be exerted.
The ability to direct transgene expression to astrocytes has become increasingly important as the roles for these cells continue to expand. Promoters consisting of the 5'-flanking region of the human or mouse glial fibrillary acidic protein (GFAP) gene have generally proved satisfactory. However, a more powerful promoter would be advantageous for several applications, such as expression of dominant negative RNAs or proteins, or for gene therapy. We investigated the possibility of increasing the transcriptional activity of the human GFAP promoter by inserting into it one or three additional copies of putative GFAP enhancer regions. The promoters enhanced with three additional copies gave 75-fold higher LacZ expression levels upon plasmid transfection into GFAP-expressing U251 cells than the parental gfa2 promoter. Surprisingly, in a transgenic mouse model, the enhanced promoters resulted in no or only very low expression of marker genes, probably caused by toxicity. When various cell lines were infected with replication-deficient adenoviral vectors, the enhanced promoters gave LacZ expression levels that were approximately 10-fold higher than those with the parental gfa2 promoter, while retaining specificity for GFAP-expressing cells. Injection of the adenoviral vectors carrying the enhanced promoters into nude mouse brain showed that LacZ expression was limited to GFAP-positive cells. We conclude that gfa2 enhanced promoters are useful for production of short-term, glia-specific, high expression levels of genes in an adenoviral context. Adenoviral vectors containing these enhanced promoters may be useful in glioma gene therapy.
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