Let Kids Play: Using Virtual Reality as a Substitute for General Anesthesia for Minor Procedures in Pediatric Population.

BACKGROUND: In the pediatric population, virtual reality (VR) has been used as an adjunct to augment analgesia and reduce the need for opioids. In this study, we review our experience using VR in lieu of anesthesia or sedation to enable minor procedures in children. METHODS: A retrospective chart review study was performed on patients who presented to our institution from 2019 to 2022 for hormone implant placement, exchange, or removal with VR distraction. Demographic and procedure information was recorded. The primary outcome was successful procedure completion without requiring pharmacologic sedation or analgesia. RESULTS: A total of 111 patients underwent the following minor procedures with VR and without anesthesia or sedation. Fourteen patients had multiple encounters resulting in a total of 126 encounters. The median age was 11 [6] years. 43 patients were female, 23 were female to male, 6 were non-binary, 7 were male, and 32 were male to female. 58 % had private insurance. Most common diagnosis was precocious puberty (54 %) followed by gender dysphoria (46 %). Most common procedure was implant placement (72 %). 69 % of procedures were performed in the clinic and 31 % in the OR. All procedures were completed without requiring the administration of additional sedation or anesthesia. None of the patients required intravenous catheter placement for the procedure. No intra-procedural complications were recorded. CONCLUSION: VR is a feasible option that can spare children from sedation or general anesthesia for minor procedures. VR may enable minor procedures in children to be successfully performed in clinic setting.

Using "Appointment Tickets" to Track Visit Duration as a Quality Improvement Initiative After Incorporating Laser Epilation in a Pilonidal Care Clinic.

BACKGROUND: Laser epilation (LE) is effective in decreasing pilonidal disease (PD) recurrence, but laser use has not been a standard practice in pediatric surgery clinic. We hypothesized that "appointment tickets" can 1) track utilization and clinic visit delays, 2) inform patients of their clinic progress in real time. METHODS: An observation study was performed on LE patients treated at our PD clinic 3/2021-7/2022. Two exam rooms were utilized for manual shaving and one for LE. After gluteal cleft hair shaving, various anesthetic (topical lidocaine, ice, or cryotherapy) was applied prior/during LE. At each visit, patient received an "appointment ticket" on which providers recorded the visit start/end time, manual shaving duration, local anesthetic application/wait time, LE duration. Visits were scheduled for 20 min-slots. Clinic staff recorded any delays (>20 min). RESULTS: 1317 visits were recorded. Mean number of visits per week was 18 ± 6. Mean total visit length was 60 ± 22 min, mean shaving time 15 ± 11 min, mean anesthetic application/wait time 16 ± 11 min, mean LE time 14 ± 9 min. Over the study period, average visit length has decreased, and average visits/clinic day has increased. Most delays occurred in months April, May, October-December. Delays due to patient late arrival occurred in May, July, and August of 2021, none in 2022. CONCLUSIONS: LE visits have multiple components that required close coordination to ensure no clinic delays. Clinic delays spiked prior to summer and winter holidays. "Appointment tickets" provided patients with real-time visit progress tracked clinic utilization to improve the quality of pilonidal care delivery. LEVEL OF EVIDENCE: Level IV.

Outcomes in infants < 29 weeks of gestation following single-dose prophylactic indomethacin.

BACKGROUND: Prophylactic indomethacin (3 doses) decreases patent ductus arteriosus (PDA) and intraventricular hemorrhage (IVH) in preterm infants. The study aim was to determine whether single-dose indomethacin (SD-INDO) decreases PDA, IVH, and improves motor function. METHODS: A retrospective cohort (2007-2014) compared infants born < 29 weeks who did (n = 299) or did not (n = 85) receive SD-INDO and estimated outcomes association with ordinal logistic regression, adjusting for multiple variables using propensity scores. RESULTS: Infants who received SD-INDO were more premature (p < 0.001) but had lower odds of PDA (OR 0.26 [0.15, 0.44], p < 0.005), PDA receiving treatment (OR 0.12 [0.03, 0.47], p < 0.005), death (OR 0.41 [0.20, 0.86], p = 0.02), and CP severity (OR 0.33 [0.12, 0.89], p = 0.03). There was less IVH (OR 0.58 [0.36, 0.94], p = 0.03) when adjusted for gestational age. CONCLUSIONS: SD-INDO is associated with decreased PDA and CP severity and improved survival.

Targeting EIF4E signaling with ribavirin in infant acute lymphoblastic leukemia.

The poor outcomes in infant acute lymphoblastic leukemia (ALL) necessitate new treatments. Here we discover that EIF4E protein is elevated in most cases of infant ALL and test EIF4E targeting by the repurposed antiviral agent ribavirin, which has anticancer properties through EIF4E inhibition, as a potential treatment. We find that ribavirin treatment of actively dividing infant ALL cells on bone marrow stromal cells (BMSCs) at clinically achievable concentrations causes robust proliferation inhibition in proportion with EIF4E expression. Further, we find that ribavirin treatment of KMT2A-rearranged (KMT2A-R) infant ALL cells and the KMT2A-AFF1 cell line RS4:11 inhibits EIF4E, leading to decreases in oncogenic EIF4E-regulated cell growth and survival proteins. In ribavirin-sensitive KMT2A-R infant ALL cells and RS4:11 cells, EIF4E-regulated proteins with reduced levels of expression following ribavirin treatment include MYC, MCL1, NBN, BCL2 and BIRC5. Ribavirin-treated RS4:11 cells exhibit impaired EIF4E-dependent nuclear to cytoplasmic export and/or translation of the corresponding mRNAs, as well as reduced phosphorylation of the p-AKT1, p-EIF4EBP1, p-RPS6 and p-EIF4E signaling proteins. This leads to an S-phase cell cycle arrest in RS4:11 cells corresponding to the decreased proliferation. Ribavirin causes nuclear EIF4E to re-localize to the cytoplasm in KMT2A-AFF1 infant ALL and RS4:11 cells, providing further evidence for EIF4E inhibition. Ribavirin slows increases in peripheral blasts in KMT2A-R infant ALL xenograft-bearing mice. Ribavirin cooperates with chemotherapy, particularly L-asparaginase, in reducing live KMT2A-AFF1 infant ALL cells in BMSC co-cultures. This work establishes that EIF4E is broadly elevated across infant ALL and that clinically relevant ribavirin exposures have preclinical activity and effectively inhibit EIF4E in KMT2A-R cases, suggesting promise in EIF4E targeting using ribavirin as a means of treatment.

Unique Familial MLL(KMT2A)-Rearranged Precursor B-Cell Infant Acute Lymphoblastic Leukemia in Non-twin Siblings.

BACKGROUND: Infant acute lymphoblastic leukemia (ALL) has never occurred in families except for the ∼100% concordant cases in monozygous twins attributed to twin-to-twin metastases. We report the first kindred with infant ALL in non-twin siblings. The siblings were diagnosed with MLL-rearranged (MLL-R) ALL 26 months apart. The second affected sibling had an unaffected dichorionic monozygous co-twin. Both had fatal outcomes. PROCEDURES: Translocations were characterized by karyotype, FISH, multiplex FISH, and MLL breakpoint cluster region (bcr) Southern blot analysis. Breakpoint junctions and fusion transcripts were cloned by PCR. TP53 mutation and NADPH quinone oxidorecuctase 1 (NQO1) C609T analyses were performed, and pedigree history and parental occupations were ascertained. The likelihood of chance occurrence of infant ALL in non-twin siblings was computed based on a binomial distribution. Zygosity was determined by single nucleotide polymorphism (SNP) array. RESULTS: The translocations were not related or vertically transmitted. The complex karyotype of the proband's ALL had chromosome 2, 3, 4, and 11 abnormalities causing a 5'-MLL-AFF1-3' fusion and a non-productive rearrangement of 3'MLL with a chromosome 3q intergenic region. The affected twin's ALL exhibited a simple t(4;11). The complex karyotype of the proband's ALL suggested a genotoxic insult, but no exposure was identified. There was no germline TP53 mutation. The NQO1 C609T risk allele was absent. The likelihood of infant ALL occurring in non-twin siblings by chance alone is one in 1.198 × 10(9) families. CONCLUSIONS: Whether because of a deleterious transplacental exposure, novel predisposition syndrome, or exceedingly rare chance occurrence, MLL-R infant ALL can occur in non-twin siblings. The discordant occurrence of infant ALL in the monozygous twins was likely because they were dichorionic.

Intensified chemotherapy without SCT in infant ALL: results from COG P9407 (Cohort 3).

BACKGROUND: Infants with acute lymphoblastic leukemia (ALL) present with aggressive disease and a poor prognosis. Early relapse within 6-9 months of diagnosis is common. Approximately 75% of infants have MLL-rearranged (MLL-R) ALL with event free survival (EFS) ranging from 20% to 30%. Children's Oncology Group (COG) P9407 used shortened (46 weeks), intensified therapy to address early relapse and poor EFS. PROCEDURE: P9407 therapy was modified three times for induction toxicity resulting in three cohorts of therapy. One hundred forty-seven infants were enrolled in the third cohort. RESULTS: We report an overall 5-year EFS and OS of 42.3 ± 6% and 52.9 ± 6.5% respectively. Poor prognostic factors included age ≤90 days at diagnosis, MLL-R ALL and white cell count ≥50,000/µl. For infants ≤90 days of age, the 5-year EFS was 15.5 ± 10.1% and 48.5 ± 6.7% for those >90 days (P < 0.0001). Among infants >90 days of age, 5-year EFS rates were 43.8 ± 8% for MLL-R versus 69.1 ± 13.6% for MLL-germline ALL (P < 0.0001). CONCLUSIONS: Age ≤90 days at diagnosis was the most important prognostic factor. Despite shortened therapy with early intensification, EFS remained less than 50% overall in MLL-R ALL.

Potent obatoclax cytotoxicity and activation of triple death mode killing across infant acute lymphoblastic leukemia.

Survival in infants younger than 1 year who have acute lymphoblastic leukemia (ALL) is inferior whether MLL is rearranged (R) or germline (G). MLL translocations confer chemotherapy resistance, and infants experience excess complications. We characterized in vitro sensitivity to the pan-antiapoptotic BCL-2 family inhibitor obatoclax mesylate in diagnostic leukemia cells from 54 infants with ALL/bilineal acute leukemia because of the role of prosurvival BCL-2 proteins in resistance, their imbalanced expression in infant ALL, and evidence of obatoclax activity with a favorable toxicity profile in early adult leukemia trials. Overall, half maximal effective concentrations (EC50s) were lower than 176 nM (the maximal plasma concentration [Cmax] with recommended adult dose) in 76% of samples, whether in MLL-AF4, MLL-ENL, or other MLL-R or MLL-G subsets, and regardless of patients' poor prognostic features. However, MLL status and partner genes correlated with EC50. Combined approaches including flow cytometry, Western blot, obatoclax treatment with death pathway inhibition, microarray analyses, and/or electron microscopy indicated a unique killing mechanism involving apoptosis, necroptosis, and autophagy in MLL-AF4 ALL cell lines and primary MLL-R and MLL-G infant ALL cells. This in vitro obatoclax activity and its multiple killing mechanisms across molecular cytogenetic subsets provide a rationale to incorporate a similarly acting compound into combination strategies to combat infant ALL.

Gene expression profiles predictive of outcome and age in infant acute lymphoblastic leukemia: a Children's Oncology Group study.

Gene expression profiling was performed on 97 cases of infant ALL from Children's Oncology Group Trial P9407. Statistical modeling of an outcome predictor revealed 3 genes highly predictive of event-free survival (EFS), beyond age and MLL status: FLT3, IRX2, and TACC2. Low FLT3 expression was found in a group of infants with excellent outcome (n = 11; 5-year EFS of 100%), whereas differential expression of IRX2 and TACC2 partitioned the remaining infants into 2 groups with significantly different survivals (5-year EFS of 16% vs 64%; P < .001). When infants with MLL-AFF1 were analyzed separately, a 7-gene classifier was developed that split them into 2 distinct groups with significantly different outcomes (5-year EFS of 20% vs 65%; P < .001). In this classifier, elevated expression of NEGR1 was associated with better EFS, whereas IRX2, EPS8, and TPD52 expression were correlated with worse outcome. This classifier also predicted EFS in an independent infant ALL cohort from the Interfant-99 trial. When evaluating expression profiles as a continuous variable relative to patient age, we further identified striking differences in profiles in infants less than or equal to 90 days of age and those more than 90 days of age. These age-related patterns suggest different mechanisms of leukemogenesis and may underlie the differential outcomes historically seen in these age groups.

mll ortholog containing functional domains of human MLL is expressed throughout the zebrafish lifespan and in haematopoietic tissues.

Infant leukaemia is an embryonal disease in which the underlying MLL translocations initiate in utero. Zebrafish offer unique potential to understand how MLL impacts haematopoiesis from the earliest embryonic timepoints and how translocations cause leukaemia as an embryonal process. In this study, a zebrafish mll cDNA syntenic to human MLL spanning the 5' to 3' UTRs, was cloned from embryos, and mll expression was characterized over the zebrafish lifespan. The protein encoded by the 35-exon ORF exhibited 46·4% overall identity to human MLL and 68-100% conservation in functional domains (AT-hooks, SNL, CXXC, PHD, bromodomain, FYRN, taspase1 sites, FYRC, SET). Maternally supplied transcripts were detected at 0-2 hpf. Strong ubiquitous early zygotic expression progressed to a cephalo-caudal gradient during later embryogenesis. mll was expressed in the intermediate cell mass (ICM) where primitive erythrocytes are produced and in the kidney where definitive haematopoiesis occurs in adults. mll exhibits high cross species conservation, is developmentally regulated in haematopoietic and other tissues and is expressed from the earliest embryonic timepoints throughout the zebrafish lifespan. Haematopoietic tissue expression validates using zebrafish for MLL haematopoiesis and leukaemia models.

Panhandle PCR approaches to cloning MLL genomic breakpoint junctions and fusion transcript sequences.

Translocations and other rearrangements of the MLL gene at chromosome band 11q23 are biologically and clinically important molecular abnormalities in infant acute leukemias, leukemias associated with chemotherapeutic topoisomerase II poisons and, less often, acute leukemias in adults or myelodysplastic syndrome. Depending on the disease and the regimen, MLL-rearranged leukemias may be associated with inferior prognosis, and MLL rearrangements with some of the more than 60 known MLL-partner genes confer especially adverse effects as response to treatment (Blood 108:441-451, 2006). MLL rearrangements are usually evident as overt balanced chromosomal translocations by conventional cytogenetic analysis but up to one-third are cryptic rearrangements and occur in leukemias with del(11)(q23), a normal karyotype, or trisomy 11, the latter two of which sometimes are associated with partial tandem duplications of MLL itself (Proc Natl Acad Sci USA 97:2814-2819, 2000; Proc Natl Acad Sci USA 94:3899-3902, 1997). In addition, subsets of MLL rearrangements are complex at a cytogenetic level and/or molecular level, and fuse MLL with two different partner genes. Rapid and accurate methods to identify and characterize genomic breakpoint junctions and fusion transcripts resulting from the many types of MLL rearrangements are essential for risk group stratification, treatment protocol assignments, new partner gene discovery, understanding leukemia etiology and pathogenesis, and elucidating the impact of less common MLL-partner genes on biology and prognosis. Due to the vast heterogeneity in partner genes, typical gene-specific PCR based methods are not practical, especially when cytogenetics are normal or do not suggest involvement of a known partner gene of MLL. We have advanced seven different panhandle PCR based methods for cloning 5'-MLL-partner gene-3' and 5'-partner gene-MLL-3' genomic breakpoint junctions and identifying 5'-MLL-partner gene-3' fusion transcripts, all of which employ a stem-loop template shaped schematically like a pan with a handle and amplify the template without knowledge of the unknown partner sequence using primers all derived from MLL alone.

Abundant anti-apoptotic BCL-2 is a molecular target in leukaemias with t(4;11) translocation.

Chemotherapy resistance from imbalanced apoptosis regulation may contribute to poor outcome in leukaemias with t(4;11). Anti-apoptotic BCL-2 expression and target modulation were characterized in cell lines with t(4;11) and BCL-2 expression was examined in MLL and non-MLL infant/paediatric leukaemia cases by Western blot analysis and/or real-time polymerase chain reaction. Cytotoxicity of Genasensetrade mark (Oblimersen Sodium, G3139) alone or combined with cytotoxic drugs was assessed by MTT [(3-4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide] assays of the cell lines, applying pharmacostatistical response surface modelling of drug interactions. Apoptosis and cell cycle were evaluated by flow cytometry in RS4:11 cells. Primary leukaemias and cell lines with t(4;11) expressed abundant BCL2 mRNA and protein. Variable, sometimes substantial BCL2 mRNA was detected in other leukaemia subtypes. G3139 reduced BCL2 mRNA and protein in RS4:11 cells. The most sensitive cell line to single-agent G3139 was RS4:11. Low G3139 concentrations sensitized RS4:11 and MV4-11 cells to select anti-leukaemia cytotoxic drugs. In RS4:11 cells, combining G3139 with doxorubicin (ADR) increased active caspase 3 and TUNEL staining compared to ADR alone, indicating greater apoptosis, and G3139 increased S-phase progression. The abundant BCL-2 affords a molecular target in leukaemias with t(4;11). G3139 exhibits preclinical activity and synergy with select cytotoxic agents in RS4:11 and MV4-11 cells, and these effects occur through apoptosis.

Prospective tracing of MLL-FRYL clone with low MEIS1 expression from emergence during neuroblastoma treatment to diagnosis of myelodysplastic syndrome.

We prospectively observed a child exposed to intensive multimodality therapy for metastatic neuroblastoma from emergence of a MLL translocation to disease diagnosis. The t(4;11)(p12;q23) was detected in the marrow 17 months after starting treatment following topoisomerase II poisons, alkylating agents, local radiation, hematopoietic stem cell transplantation, anti-GD2 monoclonal antibody with granulocyte macrophage-colony-stimulating factor, and a high cumulative dose of oral etoposide. Reciprocal genomic breakpoint junctions and fusion transcripts joined MLL with FRYL, the Drosophila melanogaster protein homologue of which regulates cell fate. Etoposide metabolites induced topoisomerase II cleavage complexes that could form both breakpoint junctions. Cells harboring the translocation replaced the marrow without clinical evidence of leukemia and differentiation appeared unaffected for 37 months. Subsequent bilineage dysplasia and increased blasts in addition to the translocation fulfilled criteria for MDS. The MEIS1 target gene of typical MLL fusion oncoproteins was underexpressed before and at MDS diagnosis. These results are consistent with repair of topoisomerase II cleavage from etoposide metabolites as the translocation mechanism, whereas other agents in the regimen may have contributed to progression of the clone with the translocation to MDS. MLL-FRYL did not increase MEIS1 expression, conferred a proliferative advantage without altering differentiation, and had protracted latency to disease.

Mismatched nucleotides as the lesions responsible for radiosensitization with gemcitabine: a new paradigm for antimetabolite radiosensitizers.

Radiation sensitization by 2',2'-difluoro-2'-deoxycytidine (dFdCyd) has correlated with dATP depletion [dFdCDP-mediated inhibition of ribonucleotide reductase (RR)] and S-phase accumulation. We hypothesized that radiosensitization by dFdCyd is due to nucleotide misincorporations in the presence of deoxynucleotide triphosphate pool imbalances, which, if not repaired, augments cell death following irradiation. The ability of dFdCyd to produce misincorporations was measured as pSP189 plasmid mutations in hMLH1-deficient [mismatch repair (MMR) deficient] and hMLH1-expressing (MMR proficient) HCT116 cells. Only MMR-deficient cells showed a significant increase in nucleotide misincorporations (2- to 3-fold increase; P or=5-fold increase; P < 0.05), thus further implicating the inhibition of RR as the mechanism underlying radiosensitization by dFdCyd. These data showed that the presence and persistence of mismatched nucleotides is integral to radiosensitization by dFdCyd and suggest a role for hMLH1 deficiency in eliciting the radiosensitizing effect.

BglII-based panhandle and reverse panhandle PCR approaches increase capability for cloning der(II) and der(other) genomic breakpoint junctions of MLL translocations.

Panhandle PCR techniques to amplify known sequence flanked by unknown sequence have been useful for MLL genomic breakpoint junctions and fusion transcripts because MLL has a large number of partner genes. However, genomic panhandle PCR approaches are impeded when the restriction fragment that contains the breakpoint junction is too large to amplify. We devised new panhandle PCR approaches for MLL genomic breakpoint junctions that create the template from BglII restriction fragments by attaching MLL sequence to a BglII site in the partner gene. This leads to the annealing of MLL and its complement in the handle and creates an intrastrand loop containing the breakpoint junction sequence for amplification with primers all from MLL. BglII panhandle PCR for der(11) breakpoint junctions was accomplished by ligating a phosphorylated oligonucleotide containing a BglII overhang and sequence complementary to MLL exon 7 to the 3' ends of BglII digested DNA, and forming the template from the sense strand of DNA. In BglII reverse panhandle PCR for der(other) breakpoint junctions, a phosphorylated oligonucleotide containing a BglII overhang and the complement of antisense sequence in MLL exon 10 was ligated to the 3' ends of BglII digested DNA, and the template was formed from the antisense strand of DNA. These approaches amplified 5'-MLL-MLLT4-3' and 5'-AFF1-MLL-3' breakpoint junctions. The former is significant because few t(6;11) genomic breakpoint junctions have been sequenced. BglII panhandle PCR approaches increase the possibilities for cloning MLL genomic breakpoint junctions where there is heterogeneity in partner genes and breakpoint locations.

Promising combination therapies with gemcitabine.

Because treatment regimens for breast cancer commonly include gemcitabine, we evaluated two promising combinations in preclinical studies: gemcitabine (Gemzar; Eli Lilly and Company, Indianapolis, IN) with either ionizing radiation or docetaxel (Taxotere; Aventis Pharmaceuticals, Inc, Parsippany, NJ). In breast cancer cell lines that expressed either wild-type p53 (MCF-7) or mutant p53 (MCF-7/Adr), sensitivity to the cytotoxic effects of gemcitabine during a 24-hour incubation was similar (IC(50) values 80 and 60 nmol/L in MCF-7 and MCF-7/Adr, respectively). Both cell lines were well radiosensitized by gemcitabine at the corresponding IC(50), with radiation enhancement ratios of 1.6 to 1.7. Although the MCF-7 cells accumulated nearly twice as much gemcitabine triphosphate compared with the MCF-7/Adr cells, a similar reduction in 2'-deoxyadenosine 5'-triphosphate pools was observed. While the number of dying cells, as measured by sub-G1 DNA content or S-phase cells unable to replicate DNA, differed between the wild-type p53 or mutant p53-expressing cell lines, neither parameter correlated with radiosensitization. Docetaxel was a more potent cytotoxic agent than gemcitabine in MCF-7 cells (IC(50) = 1 nmol/L). Strong synergistic cytotoxicity was observed in cells treated with gemcitabine (24 hours) followed by docetaxel (24 hours) or the reverse sequence. However, simultaneous addition of the two drugs was antagonistic. To determine whether synergy with radiation or docetaxel was mediated by increased DNA damage, DNA double-strand breaks (double-strand breaks) were measured by immunostaining for phosphorylated H2AX. Ionizing radiation produced more double-strand breaks than gemcitabine alone, while no significant double-strand breaks formed with docetaxel alone. The addition of docetaxel or ionizing radiation to gemcitabine-treated cells did not increase H2AX foci formation. These results show that the combination of gemcitabine with ionizing radiation or docetaxel produces strong, schedule-dependent synergy in breast cancer cells that is not mediated through increasing DNA double-strand breaks.

Enhanced radiosensitization with gemcitabine in mismatch repair-deficient HCT116 cells.

Gemcitabine [2',2'-difluoro-2'-deoxycytidine (dFdCyd)] is a potent ionizing radiation sensitizer in solid tumor cells in vitro and in vivo. Previously, we have demonstrated (Shewach et al., Cancer Res., 54: 3218-3223, 1994) a strong correlation between depletion of dATP (caused by dFdCyd diphosphate-mediated inhibition of ribonucleotide reductase) and radiosensitization. In addition, we and others (Latz et al., Int. J. Radiat. Oncol. Biol. Phys., 41: 875-882, 1998; Ostruszka and Shewach, Cancer Res., 60: 6080-6088, 2000) have shown that the accumulation of cells in S phase prior to irradiation is also important for radiosensitization with dFdCyd. This led us to hypothesize that the incorporation of incorrect nucleotides because of the dATP pool imbalance was important for radiosensitization with dFdCyd, and, therefore, cells deficient in mismatch repair (MMR) would exhibit greater radiosensitization. We tested this hypothesis by evaluating the ability of HCT116 colon carcinoma cell lines, which differ in MMR proficiency, to be radiosensitized by dFdCyd. The MMR-proficient cell line (HCT116 + ch3) was more sensitive to dFdCyd alone than were the MMR-deficient cell lines (HCT116, HCT116 + ch2, and HCT116 p53(-/-)). Interestingly, the MMR-proficient cells could not be radiosensitized at concentrations of dFdCyd IC(96)) enhanced cell killing with radiation. In contrast, the MMR-deficient cells were radiosensitized at concentrations of dFdCyd or=80% decrease in dATP within 4 h after drug addition, and this low dATP level was maintained for another 12-20 h. Although the IC(50) of dFdCyd was unable to sustain a >80% decrease in the dATP level in the MMR-proficient cells, the IC(90) did achieve this level of dATP depletion; however, it was unable to radiosensitize the MMR-proficient cells. Similar results were obtained with HCT116 cells, in which the MMR deficiency was corrected by transfection with a vector containing the hMLH1 cDNA. In addition, the deletion of p53 did not increase radiation enhancement ratios. These results demonstrate that MMR deficiency promotes radiosensitization with dFdCyd. We suggest that dATP depletion produces errors of replication in MMR-deficient cells, which, if left unrepaired, enhances cell death by ionizing radiation.

Determination of uric acid in human serum by capillary electrophoresis with polarity reversal and electrochemical detection.

Capillary zone electrophoresis (CE) under conditions of reversed polarity is used in conjunction with electrochemical detection (EC) at carbon fiber microcylinder electrodes for the selective and sensitive determination of uric acid in human blood serum. Comigration of anions with the electroosmotic flow is accomplished with reversed polarity and the buffer additive cetyltrimethylammonium bromide (CTAB) in a 2-(N-morpholino)ethanesulfonic acid (MES) buffer system, giving rise to rapid and sensitive analyses. Optimal buffer conditions (pH 7.0), detection potential (0.80 V vs. Ag/AgCl), and electrokinetic injection are employed to allow for maximal resolution and signal intensity. Amperometric end-column detection with a carbon fiber microcylinder electrode results in lower limits of detection for uric acid of about 25 nM (ca. 140 amol injected) without the need for decoupling. Linear calibration plots using uric acid standards in water and serum are obtained over a linear range from 5.00 x 10(-4) M to 2.50 x 10(-7) M. Uric acid concentrations obtained for human sera using the CE-EC approach described here are shown to compare favorably to the accepted laboratory values.

Multi-log cytotoxicity of carbocyclic 2'-deoxyguanosine in HSV-TK-expressing human tumor cells.

Ganciclovir (GCV) is widely used as a prodrug for selective activation in tumor cells expressing herpes simplex virus thymidine kinase (HSV-TK) because of its ability to induce multi-log cytotoxicity to HSV-TK-expressing as well as nonexpressing bystander cells. We now report that another substrate for HSV-TK, D-carbocyclic 2'-deoxyguanosine (CdG), induces multi-log cytotoxicity in HSV-TK-expressing and bystander cells at concentrations