Neonatal Screening for SCID: The French Experience

After it was demonstrated in 2005 that T cell receptor excision circle (TREC) quantification for dried blood spot (DBS) samples on Guthrie cards is an effective means of SCID screening and following several pilot studies, the practice was formally recommended in the US in 2010. More and more countries have adopted it since then. In France, before the health authorities could recommend adding SCID to the list of five diseases that were routinely screened for, feasibility and cost-effectiveness studies had to be conducted with a sufficiently large cohort of neonates. We carried out three such studies: The first sought to verify the effectiveness of the assay. The second, DEPISTREC, evaluated the feasibility of universal SCID screening in France and assessed the clinical benefit and economic advantage it would provide. Through the third study, NeoSKID, still under way and to continue until recommendations are issued, we have been offering SCID screening in the Pays de la Loire region of France. This review briefly describes routine newborn screening (NBS) and management of primary immunodeficiency diseases (PIDs) in France, and then considers the lessons from our studies and the status of SCID screening implementation within the country.

Prevalence of Congenital Cytomegalovirus Infection Among Hospitalized Neonates in Tehran, Iran

Background: Cytomegalovirus (CMV) can vertically transmit from infected mothers to fetuses and causes congenital infection in newborns. Unfortunately, there have been limited data available on the prevalence of congenital CMV (cCMV) infection among Iranian neonates at higher risk of infection. Objectives: The current study aimed to assess the prevalence of cCMV infection among hospitalized neonates in Tehran, Iran, and investigate the diagnostic values of CMV polymerase chain reaction (PCR) on Guthrie cards in comparison to those reported for urine specimens. Methods: This cross-sectional study was carried out on the hospitalized neonates with 3 weeks of age. The urine specimens and Guthrie cards were taken from each eligible newborn. Total nucleic acid was extracted from the samples and tested by PCR for the presence of CMV deoxyribonucleic acid. The cCMV infection was confirmed in the newborns, and the infected neonates underwent further evaluation. Results: Out of 224 newborns, CMV infection was identified in 11 neonates (4.9%). There were no factors in association with cCMV infection. The sensitivity and specificity of dried blood spot (DBS) samples for the identification of newborns with cCMV infection were 90% and 99%, respectively. Conclusions: A significant number of hospitalized neonates in the present study were infected with cCMV infection. The results of the current study revealed that Guthrie cards had adequate sensitivity for the identification of CMV infection in the hospitalized newborns. Since symptomatic newborns with cCMV infection have a higher chance for the development of early- or late-onset sequelae of infection, it is recommended to diagnose and treat this group of newborns.

Neonatal screening for congenital cytomegalovirus infection in Tehran, Iran, using Guthrie cards

Background and Objectives: Cytomegalovirus (CMV) constitutes the most common viral cause of congenital infections in newborns worldwide. There are a significant number of asymptomatic newborns with congenital CMV infection in Iran, which may develop long-term sequelae of infection. Unfortunately, limited data exsists from Iran on the rate of congenital CMV infection among neonates. The current study was aimed to investigate the prevalence of congenital CMV infection among Iranian neonates by testing Guthrie cards. Materials and Methods: Guthrie cards were collected from infants within 2 weeks of life, and total DNA was extracted from samples by thermal shock and evaluated for CMV DNA using nested-PCR assay. CMV infection in newborns was confirmed through a commercial CMV PCR kit. Infected infants underwent further evaluation at the hospital. Results: CMV infection was identified in four of 1174 infants (0.34%) which is approximately 3 cases per 1000 live births. Infected infants were asymptomatic at birth and had a normal hearing status similar to other children. There were no factors in relation with CMV infection among newborns. Conclusion: According to the results of this study, infected infants with congenital CMV infection could identify at early stage by testing Guthrie cards (within 21 days of life). Furthermore, since there is a lack of CMV knowledge in our popula- tion, educating and effective counseling by obstetricians/ gynecologists to the pregnant women are recommended.

DETERMINING REFERENCE RANGES FOR TREC AND KREC ASSAYS IN IMMUNE DEFICIENCY SCREENING OF NEWBORNS IN RUSSIAN FEDERATION

In this work, we used a reference population of newborns and sampled dried blood spots on Guthrie cards of 2,739 individual samples to determine the reference intervals for TRECs and KRECs values, in order to diagnose primary immunodeficiency by means of neonatal screening. The median absolute values for TRECs and KRECs were 195 (CI95%: 185-206) and 185 (CI95%: 176-197) copies per μl, respectively; the normalized value for TRECs was 2780 (CI95%: 2690-2840), and for KRECs, 2790 (CI95%: 2700-2900) copies per 2 × 105 copies of the albumin gene or 105 cells. The reference interval was calculated for 99 and 99.9 percentiles of total TRECs and KRECs individual values. Due to asymmetric distribution of data, the outliers were filtered off, using the Tukey’s criterion applied after logarithmic transformation of the data. When analyzing absolute values for TREC/KREC (per μL of blood), no “drop-down” TRECs values were identified; for KRECs, 18 experimental values were excluded from further analysis (from 9.8 to 13.5). The outlying values were not identified among the normalized values of TRECs/KRECs. The obtained reference values for TRECs and KRECs (at the 0.1 percentile level) were, respectively, 458 and 32 per 105 cells, or 23 and 17 per μl of blood samples from neonates.

Determination of the Origin of the t(1;19) TCF3-PBX1 Fusion By Genomic Inverse PCR for Exploration of Ligated Breakpoints (GIPFEL)

Pediatric acute lymphoblastic leukemia (ALL) is characterized by recurrent chromosomal translocations. The translocation t(1;19) that fuses the gene encoding the basic helix-loop-helix transcription factor TCF3 with the gene encoding the homeodomain protein PBX1 is the second most common one occurring in approximately 5-10% of precursor B ALL cases. Backtracking of clonotypic TCF3-PBX1 translocations that were identified in leukemia patients by PCR amplification of Guthrie cards from these individuals provided weak evidence for a prenatal origin of a minority of TCF3-PBX1 translocations (2 of 15 cases). The presence of N-nucleotides at the recombination junction, IGH rearrangements and the specific JH and DH segment usage indirectly supported a postnatal origin of the majority of translocations, but could not definitely date the fusion event during development (Wiemels et al. PNAS 2002). We recently developed a novel, DNA-based screening technique (genomic inverse PCR for exploration of ligated breakpoints, GIPFEL) for the detection of translocations without prior knowledge of the exact breakpoint (Fueller et al. PLOS ONE 2015). By GIPFEL screening of 1,000 umbilical cord blood samples, we confirmed a high prevalence (≥5%) of the most frequent ALL associated translocation, t(12;21), in healthy newborns (Schaefer et al. BLOOD 2018). This translocation was 500-fold more frequent than the corresponding leukemia incidence (1/10,000) indicating a low penetrance of the leukemic fusion and a greater importance of secondary oncogenic events. In order to trace the origin of the TCF3-PBX1 fusion and to assess the risk of children bearing the translocation to develop leukemia, we collected 340 cord blood samples of healthy newborns and subjected them to GIPFEL screening. The GIPFEL technique uses stable DNA as a sample and detects a translocation by inverse PCR after restriction enzyme digest of the DNA and circularization of fragments by ligation. For t(1;19) screening, DNA was isolated from CD19+ enriched mononuclear cells, digested with the enzyme MfeI and ligated. Remaining linear DNA fragments were removed by exonuclease digest. After ethanol precipitation of the DNA circles a partially multiplexed, semi-nested PCR was carried out to quantify all possible ligation/junction products specific for the translocation. Samples that screened positive underwent one further demultiplexed PCR, agarose gel electrophoresis and Sanger sequencing to validate the result. An internal PBX1 genomic ligation product served as a positive control. TCF3-PBX1 positive cells at a frequency ≥10-4 to 10-5 would be detected by the GIPFEL method. Of the 340 screened cord bloods, 292 are currently undergoing evaluation and 48 are validated. So far, none of the 48 samples was positive for the TCF3-PBX1 translocation. In case all 340 cord bloods are negative, the result could suggest that TCF3-PBX1 translocations occur very rarely prenatally and that they have a high oncogenic penetrance if they arise in utero, although cooperating secondary mutations are clearly necessary. This would be in line with the strong capability of the TCF3-PBX1 oncoprotein to transform many cell types in vitro and with the generation of diverse (although late occurring) tumors observed in TCF3-PBX1 transgenic mice (reviewed in Aspland et al. Oncogene 2001). These results would support the previous finding of clonotypic TCF3-PBX1 transcripts in 2 of 15 Guthrie cards derived from individuals who later developed leukemia (Wiemels et al. PNAS 2002). Complete results of GIPFEL screening of 340 newborns will be available and presented at the conference. Although the number of healthy newborns investigated is still low, these results will help to determine the origin of the t(1;19) TCF3-PBX1 fusion. Disclosures No relevant conflicts of interest to declare.

Association between uridin diphosphate glucuronosylotranserase 1A1 (UGT1A1) gene polymorphism and neonatal hyperbilirubinemia

OBJECTIVE: To assess the prevalence of UGT1A1*28 and UGT1A1*60 polymorphisms of UGT1A1 gene and their association with hyperbilirubinemia. STUDY DESIGN: DNA was isolated from Guthrie cards of 171 infants. Fluorescent molecular probes were used for UGT1A1 promoter variation analysis. The presence of UGT1A1*28 polymorphism was detected with a dual-probe system, and UGT1A1*60 with a SimpleProbe™. RESULT: Homozygous UGT1A1*28 and UGT1A1*60 genotypes were detected in 14.6% and 20.5% of the newborns, respectively. Homozygous (G/G) genotypes of UGT1A1*60 polymorphism were found in all the UGT1A1*28 (i.e. (TA)7/(TA)7) homozygotes. More than 80% (55/66) of the children with normal (i.e. (TA)6/(TA)6) of UGT1A1*28 genotype carried the normal (T/T) genotype of UGT1A1*60 as well. The UGT1A1*28 polymorphism was detected more often among neonates with elevated bilirubin. Hyperbilirubinemia was diagnosed more frequently in boys. CONCLUSION: The polymorphisms of UGT1A1 gene frequently co-exist in neonates. The presence of UGT1A1*28 polymorphism and male gender seem to predispose to neonatal hyperbilirubinemia.