Joachim Kreuder scite author profile

We report the cloning and characterization of the entire AFX gene which fuses to MLL in acute leukemias with a t(X;11)(q13;q23). AFX consists of two exons and encodes for a protein of 501 amino acids. We found that normal B-and T-cells contain similar levels of AFX mRNA and that both the MLL/AFX as well as the AFX/MLL fusion transcripts are present in the cell line and the ANLL sample with a t(X;11)(q13;q23). The single intron of the AFX gene consists of 3706 nucleotides. It contains ®ve simple sequence repeats with lengths of at least 12 bps, a chi-like octamer sequence (GCA/TGGA/TGG) and several immunoglobulin heptamer-like sequences (GATAGTG) that are distributed throughout the entire AFX intron sequence. In the KARPAS 45 cell line the breakpoints occur at nucleotides 2913/2914 of the AFX intron and at nucleotides 4900/4901 of the breakpoint cluster region of the MLL gene. The AFX protein belongs to the forkhead protein family. It is highly homologous to the human FKHR protein, the gene of which is disrupted by the t(2;13)(q35;q14), a chromosome rearrangement characteristic of alveolar rhabdomyosarcomas. It is noteworthy that the t(X;11)(q13;q23) in the KARPAS 45 cell line and in one acute nonlymphoblastic leukemia (ANLL) disrupts the forkhead domain of the AFX protein exactly at the same amino acids as does the t(2;13)(q35;q14) in case of the FKHR protein. In addition, the 5'-part of the AFX protein contains a conserved hexapeptide motif (QIYEWM) that is homologous to the functionally important conserved hexapeptide QIYPWM upstream of the homeobox domain in Hox proteins. This motif mediates the co-operative DNA binding of Pbx family members and Hox proteins and, therefore, plays an important role in physiologic and oncogenic processes. In acute leukemias with a t(X;11)(q13;q23), this hexapeptide motif is separated from the remaining forkhead domain within the AFX protein. The predicted amino acid sequence of AFX di ers signi®cantly from the partial AFX protein sequence published previously (Genes, Chromosomes and Cancer, 1994, 11, 79 ± 84). This discrepancy can be explained by the occurrence of two sequencing errors in the earlier work at nucleotide number 783 and 844 (loss of a cytosine residue or guanosine residue, respectively) that lead to two reading frame shifts.

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Arterial Hypertension Determined by Ambulatory Blood Pressure Profiles

Dost

Klinkert²,

Kapellen³

et al. 2008

100

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FOR THE DPV SCIENCE INITIATIVEOBJECTIVE -Arterial hypertension is a key player in the development of diabetes complications. We used a nationwide database to study risk factors for abnormal 24-h blood pressure regulation and microalbuminuria in children and adolescents with type 1 diabetes.RESEARCH DESIGN AND METHODS -Ambulatory blood pressure monitoring was performed in 2,105 children and adolescents from 195 pediatric diabetes centers in Germany and Austria. Individual least median squares (LMS)-SD scores were calculated for diurnal and nocturnal systolic (SBP), diastolic (DBP), and mean arterial (MAP) blood pressure according to normalized values of a reference population of 949 healthy German children. The nocturnal blood pressure reduction (dipping) was calculated for SBP as well as DBP.RESULTS -In diabetic children, nocturnal blood pressure in particular was significantly elevated (SBP ϩ0.51, DBP ϩ0.58, MAP ϩ0.80 LMS-SD) and dipping of SBP DBP, and MAP was significantly reduced (P Ͻ 0.0001). Age, diabetes duration, sex BMI, A1C, and insulin dose were related to altered blood pressure profiles; dipping, however, was only affected by age, female sex, and A1C. The presence of microalbuminuria was associated with nocturnal DBP (P Ͻ 0.0001) and diastolic dipping (P Ͻ 0.01).CONCLUSIONS -Our observations revealed a clear link between the quality of metabolic control and altered blood pressure regulation even in pediatric patients with short diabetes duration. Nocturnal blood pressure in particular seems to mainly contribute to diabetes complications such as microalbuminuria. Diabetes Care 31:720-725, 2008

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Stenting of the ductus arteriosus and banding of the pulmonary arteries: basis for various surgical strategies in newborns with multiple left heart obstructive lesions

et al. 2003

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Objective: To present an institutional experience with stent placement in the arterial duct combined with bilateral banding of the pulmonary artery branches as a basis for various surgical strategies in newborns with hypoplastic left heart obstructive lesions. Design: Observational study. Setting: Paediatric heart centre in a university hospital. Patients: 20 newborns with various forms of left heart obstructive lesions and duct dependent systemic blood flow. Interventions: Patients underwent percutaneous ductal stenting and surgical bilateral pulmonary artery banding. Atrial septotomy by balloon dilatation was performed as required, in one premature baby by the transhepatic approach. Main outcome measures: Survival; numbers of and reasons for palliative and corrective cardiac surgery. Results: One patient died immediately after percutaneous ductal stenting. One patient died in connection with the surgical approach of bilateral pulmonary banding. Stent and ductal patency were achieved for up to 331 days. Two patients underwent heart transplantation and two patients died on the waiting list. Ten patients had a palliative one stage procedure with reconstruction of the aortic arch and bidirectional cavopulmonary connection at the age of 3.5-6 months. There was one death. One patient is still awaiting this approach. Two patients received biventricular repair. In one, biventricular repair will soon be provided. Conclusions: Stenting the arterial duct combined with bilateral pulmonary artery banding in newborns with hypoplastic left heart or multiple left heart obstructive lesions allows a broad variation of surgical strategies depending on morphological findings, postnatal clinical conditions, and potential ventricular growth.T he management of newborns with multiple left heart hypoplastic or obstructive lesions is complex. A broad morphological spectrum can be observed, ranging from mild lesions that do not require any intervention to severely obstructive or hypoplastic left heart anatomy necessitating single ventricle palliation or heart transplantation. Decisions regarding surgical management have to be made mostly in the newborn period. Moreover, the surgical strategy is rarely reversible. The outcome of patients planned for heart transplantation depends primarily on the availability of a donor heart. In our institution the mean waiting time for a donor heart for infants is 53 days; therefore, many patients die while waiting for an organ.

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Inherited Metabolic Myopathy and Hemolysis Due to a Mutation in Aldolase A

et al. 1996

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Transcription of hepatitis B virus in peripheral blood mononuclear cells from persistently infected patients

Stoll-Becker

Repp

Glebe

et al. 1997

J Virol

105

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Hepatitis B virus (HBV) has been reported to exist in peripheral blood mononuclear cells (PBMC), but it is not clear whether it replicates there. A precondition for replication should be the formation of covalently closed viral DNA and transcription of all essential viral mRNAs. The mRNAs of HBV form a nested box with common 3 ends. In order to detect even low levels of potential replication, we developed a quantitative reverse transcription-PCR method for detection of a smaller HBV mRNA species in the presence of the larger ones. All three highly viremic patients tested so far had mRNAs for the large and the small surface proteins and the X protein of the virus within PBMC but not in the virus from their sera. Furthermore, we detected by PCR covalently closed viral DNA in their PBMC. These data suggest that HBV may be not only taken up but also replicated by mononuclear blood cells and that these cells may be an extrahepatic site of viral persistence. X mRNA was detected in the largest amount. Possibly, X protein interferes with functions of the mononuclear cells during the immune response against the virus.

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Joachim Kreuder

Cloning and characterization of AFX, the gene that fuses to MLL in acute leukemias with a t(X;11)(q13;q23)

Arterial Hypertension Determined by Ambulatory Blood Pressure Profiles

Stenting of the ductus arteriosus and banding of the pulmonary arteries: basis for various surgical strategies in newborns with multiple left heart obstructive lesions

Inherited Metabolic Myopathy and Hemolysis Due to a Mutation in Aldolase A

Transcription of hepatitis B virus in peripheral blood mononuclear cells from persistently infected patients

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