Abeltje M. Polstra

Development of real-time NASBA assays with molecular beacon detection to quantify mRNA coding for HHV-8 lytic and latent genes

BackgroundHuman herpesvirus-8 (HHV-8) is linked to the pathogenesis of Kaposis sarcoma (KS), and the HHV-8 DNA load in peripheral blood mononuclear cells (PBMC) is associated with the clinical stage of KS. To examine the expression of HHV-8 in PBMC, four HHV-8 mRNA specific NASBA assays were developedMethodsWe have developed four quantitative nucleic acid sequence-based amplification assays (NASBA-QT) specifically to detect mRNA coding for ORF 73 (latency-associated nuclear antigen, LANA), vGCR (a membrane receptor), vBcl-2 (a viral inhibitor of apoptosis) and vIL-6 (a viral growth factor). The NASBA technique amplifies nucleic acids without thermocycling and mRNA can be amplified in a dsDNA background. A molecular beacon is used during amplification to enable real-time detection of the product. The assays were tested on PBMC samples of two AIDS-KS patients from the Amsterdam Cohort.ResultsFor all four assays, the limit of detection (LOD) of 50 molecules and the limit of quantification (LOQ) of 100 molecules were determined using in vitro transcribed RNA. The linear dynamic range was 50 to 107 molecules of HHV-8 mRNA. We found HHV-8 mRNA expression in 9 out of the 10 tested samples.ConclusionThese real-time NASBA assays with beacon detection provide tools for further study of HHV-8 expression in patient material.

The atypical 16p11.2 deletion: A not so atypical microdeletion syndrome?

One of the recently recognized microdeletion syndromes is the 16p11.2 deletion syndrome (593 kb; ∼29.5 Mb to ∼30.1 Mb), associated with developmental delay, autism spectrum disorder, epilepsy, and obesity. Less frequently reported is a smaller 220 kb deletion, adjacent and distal to this 16p11.2 deletion, which has been referred to as the atypical 16p11.2 deletion (220 kb; ∼28.74 Mb to ∼28.95 Mb). We describe three patients with this deletion and update the manifestations in two sibs who have been described as possibly new entity in this Journal in 1997 [Bakker and Hennekam (1997); Am J Med Genet 70:312–314] and were recently found to have the “atypical 16p11.2 deletion” as well. Patients show a developmental delay, behavioral problems, and unusual facial morphology (prominent forehead, downslanted, and narrow palpebral fissures), and some are obese. We suggest that this “atypical” deletion may turn out to become a microdeletion syndrome that will be recognizable in the future, or at least to show a phenotype that is recognizable in retrospect. As it may no longer be so “atypical,” we suggest renaming the entity “distal 16p11.2 deletion,” to distinguish it from the common proximal 16p11.2 deletion.

An IL-8 gene promoter polymorphism is associated with the risk of the development of AIDS-related Kaposi's sarcoma: A case-control study

In a case-control study, we studied the effect of a single nucleotide polymorphism in the IL-8 promoter on the risk of the development of AIDS-related Kaposis sarcoma (KS). KS developed in 46% of individuals with the TT genotype and in 66% of AA/AT genotypes (P=0.038). Patients with TT genotype were rarely affected with visceral KS (7% versus 36%; P=0.06), which suggests that carriers of the TT genotype are protected from (severe) KS development.

Refinement of the critical 2p25.3 deletion region: the role of MYT1L in intellectual disability and obesity

Purpose:Submicroscopic deletions of chromosome band 2p25.3 are associated with intellectual disability and/or central obesity. Although MYT1L is believed to be a critical gene responsible for intellectual disability, so far no unequivocal data have confirmed this hypothesis.Methods:In this study we evaluated a cohort of 22 patients (15 sporadic patients and two families) with a 2p25.3 aberration to further refine the clinical phenotype and to delineate the role of MYT1L in intellectual disability and obesity. In addition, myt1l spatiotemporal expression in zebrafish embryos was analyzed by quantitative polymerase chain reaction and whole-mount in situ hybridization.Results:Complete MYT1L deletion, intragenic deletion, or duplication was observed in all sporadic patients, in addition to two patients with a de novo point mutation in MYT1L. The familial cases comprise a 6-Mb deletion in a father and his three children and a 5′ MYT1L overlapping duplication in a father and his two children. Expression analysis in zebrafish embryos shows specific myt1l expression in the developing brain.Conclusion:Our data strongly strengthen the hypothesis that MYT1L is the causal gene for the observed syndromal intellectual disability. Moreover, because 17 patients present with obesity/overweight, haploinsufficiency of MYT1L might predispose to weight problems with childhood onset.Genet Med 17 6, 460–466.

Multicentric Castleman's disease and Kaposi's sarcoma in a cyclosporin treated, HIV-1 negative patient: case report.

BackgroundMulticentric Castlemans disease (MCD) is a rare disease, but is more frequent in AIDS patients. MCD has only been reported twice before in patients receiving immunosuppressive therapy after renal transplantation, and never in patients receiving immunosuppressive therapy without transplantation. About half of the cases of MCD are human herpesvirus 8 (HHV8) – related, in contrast to Kaposis sarcoma, a more common complication arising after immunosuppression, where the virus is found in virtually all cases.Case presentationWe report a HIV-1 negative, non-transplant patient who developed HHV8-associated multicentric Castlemans disease and Kaposis sarcoma after 17 years of immunosuppressive treatment with cyclosporin A for a minimal change nephropathy. Chemotherapy with liposomal doxorubicin resolved both symptoms of multicentric Castlemans disease and Kaposis sarcoma in this patient. A concomitant decline in the HHV8 viral load in serum/plasma, as determined by a quantitative real-time PCR assay, was observed.ConclusionsMulticentric Castlemans disease can be a complication of cyclosporin A treatment. Both multicentric Castlemans disease and Kaposis sarcoma in this patient were responsive to liposomal doxorubicin, the treatment of choice for Kaposis sarcoma at the moment, again suggesting a common mechanism linking both disorders, at least for HHV8-positive multicentric Castlemans disease and Kaposis sarcoma.HHV8 viral load measurements can be used to monitor effectiveness of therapy.

Capecitabine-based treatment of a patient with a novel DPYD genotype and complete dihydropyrimidine dehydrogenase deficiency

Fluoropyrimidines are frequently used anti‐cancer drugs. It is known that patients with reduced activity of dihydropyrimidine dehydrogenase (DPD), the key metabolic enzyme in fluoropyrimidine inactivation, are at increased risk of developing severe fluoropyrimidine‐related toxicity. Upfront screening for DPD deficiency and dose reduction in patients with partial DPD deficiency is recommended and improves patient safety. For patients with complete DPD deficiency, fluoropyrimidine‐treatment has generally been discouraged. During routine pretreatment screening, we identified a 59‐year‐old patient with a sigmoid adenocarcinoma who proved to have a complete DPD deficiency. Genetic analyses showed that this complete absence of DPD activity was likely to be caused by a novel DPYD genotype, consisting of a combination of amplification of exons 17 and 18 of DPYD and heterozygosity for DPYD*2A. Despite absence of DPD activity, the patient was treated with capecitabine‐based chemotherapy, but capecitabine dose was drastically reduced to 150 mg once every 5 days (0.8% of original dose). Pharmacokinetic analyses showed that the area under the concentration‐time curve (AUC) and half‐life of 5‐fluorouracil were respectively tenfold and fourfold higher than control values of patients receiving capecitabine 850 mg/m2. When extrapolating from the dosing schedule of once every 5 days to twice daily, the AUC of 5‐fluorouracil was comparable to controls. Treatment was tolerated well for eight cycles by the patient without occurrence of capecitabine‐related toxicity. This case report demonstrates that a more comprehensive genotyping and phenotyping approach, combined with pharmacokinetically‐guided dose administration, enables save fluoropyrimidine‐treatment with adequate drug exposure in completely DPD deficient patients.