Biallelic FANCA variants detected in sisters with isolated premature ovarian insufficiency.

Premature ovarian insufficiency is a common form of female infertility affecting up to 4% of women and characterised by amenorrhea with elevated gonadotropin before the age of 40. Oocytes require controlled DNA breakage and repair for homologous recombination and the maintenance of oocyte integrity. Biallelic disruption of the DNA damage repair gene, Fanconi anemia complementation group A (FANCA), is a common cause of Fanconi anaemia, a syndrome characterised by bone marrow failure, cancer predisposition, physical anomalies and POI. There is ongoing dispute about the role of heterozygous FANCA variants in POI pathogenesis, with insufficient evidence supporting causation. Here, we have identified biallelic FANCA variants in French sisters presenting with POI, including a novel missense variant of uncertain significance and a likely pathogenic deletion that initially evaded detection. Functional studies indicated no discernible effect on DNA damage sensitivity in patient lymphoblasts. These novel FANCA variants add evidence that heterozygous loss of one allele is insufficient to cause DNA damage sensitivity and POI. We propose that intragenic deletions, that are relatively common in FANCA, may be missed without careful analysis, and could explain the presumed causation of heterozygous variants. Accurate variant curation is critical to optimise patient care and outcomes.

A Human Homozygous HELQ Missense Variant Does Not Cause Premature Ovarian Insufficiency in a Mouse Model.

Disruption of meiosis and DNA repair genes is associated with female fertility disorders like premature ovarian insufficiency (POI). In this study, we identified a homozygous missense variant in the HELQ gene (c.596 A>C; p.Gln199Pro) through whole exome sequencing in a POI patient, a condition associated with disrupted ovarian function and female infertility. HELQ, an enzyme involved in DNA repair, plays a crucial role in repairing DNA cross-links and has been linked to germ cell maintenance, fertility, and tumour suppression in mice. To explore the potential association of the HELQ variant with POI, we used CRISPR/Cas9 to create a knock-in mouse model harbouring the equivalent of the human HELQ variant identified in the POI patient. Surprisingly, Helq knock-in mice showed no discernible phenotype, with fertility levels, histological features, and follicle development similar to wild-type mice. Despite the lack of observable effects in mice, the potential role of HELQ in human fertility, especially in the context of POI, should not be dismissed. Larger studies encompassing diverse ethnic populations and alternative functional approaches will be necessary to further examine the role of HELQ in POI. Our results underscore the potential uncertainties associated with genomic variants and the limitations of in vivo animal modelling.

Functional Assessment of a New PBX1 Variant in a 46,XY Fetus with Severe Syndromic Difference of Sexual Development through CRISPR-Cas9 Gene Editing.

Sexual development is a complex process relying on numerous genes. Disruptions in some of these genes are known to cause differences of sexual development (DSDs). Advances in genome sequencing allowed the discovery of new genes implicated in sexual development, such as PBX1. We present here a fetus with a new PBX1 NM_002585.3: c.320G>A,p.(Arg107Gln) variant, presenting with severe DSD along with renal and lung malformations. Using CRISPR-Cas9 gene editing on HEK293T cells, we generated a KD cell line for PBX1. The KD cell line showed reduced proliferation and adhesion properties compared with HEK293T cells. HEK293T and KD cells were then transfected plasmids coding either PBX1 WT or PBX1-320G>A (mutant). WT or mutant PBX1 overexpression rescued cell proliferation in both cell lines. RNA-seq analyses showed less than 30 differentially expressed genes, in ectopic mutant-PBX1-expressing cells compared with WT-PBX1. Among them, U2AF1, encoding a splicing factor subunit, is an interesting candidate. Overall, mutant PBX1 seems to have modest effects compared with WT PBX1 in our model. However, the recurrence of PBX1 Arg107 substitution in patients with closely related phenotypes calls for its impact in human diseases. Further functional studies are needed to explore its effects on cellular metabolism.

Rare cause of life-threatening hypercalcemia in an infant: a case report. / Cause rare d'hypercalcémie gravissime chez l'enfant : cas clinique

Background: 25-Hydroxyvitamin D 24-hydroxylase (CYP24A1) deficiency is a rare cause of autosomal recessive infantile hypercalcemia due to vitamine D hypersensitivity. Case presentation: We report the case of a 2-year-old boy who presented with severe hypercalcemia-hypercalciuria and a bilateral nephrocalcinosis. Laboratory investigations detected a collapsed parathormone and a highly elevated 1α,25-dihydroxycholecalciferol along with an increased phosphate excretion (hypophosphatemia and hyperphosphaturia). An adapted management with two courses of palmidronic acid and an eviction of vitamin D and calcium allowed to stabilize him. A homozygous p.Leu409Ser pathogenic variant on CYP24A1 gene resulting in a collapsed 25-Hydroxyvitamin D24-hydroxylase activity was found. A normal development is possible with a meticulous clinical, biological and nutritional management and monitoring. Conclusions: Vitamin D hypersensitivity is challenging during childhood, especially due to the need to avoid vitamin D while requiring a close nutritional monitoring to maintain a normal growth. Biomarkers such as vitamin D metabolite ratio and 24,25(OH)2D3 along with ionized calcium and nutritional management can contribute to properly follow patients with vitamin D hypersensitivity.

Contexte: Le déficit en 25-hydroxyvitamine D 24-hydroxylase (CYP24A1) est une cause rare d'hypercalcémie infantile autosomique récessive due à une hypersensibilité à la vitamine D. Présentation du cas: Nous rapportons le cas d'un garçon de 2 ans qui a présenté une hypercalcémie-hypercalciurie sévère et une néphrocalcinose bilatérale. Les examens de laboratoire ont détecté une parathormone effondrée et un 1α,25-dihydroxycholécalciférol très élevé ainsi qu'une excrétion accrue de phosphate (hypophosphatémie et hyperphosphaturie). Une prise en charge adaptée avec deux cures d'acide palmidronique et une éviction de la vitamine D et du calcium a permis de le stabiliser. Un variant pathogène homozygote p.Leu409Ser sur le gène CYP24A1 entraînant un effondrement de l'activité de la 25-hydroxyvitamine D24-hydroxylase a été retrouvé. Un développement normal est possible avec une prise en charge et un suivi clinique, biologique et nutritionnel méticuleux. Conclusions: L'hypersensibilité à la vitamine D est un défi pendant l'enfance, notamment en raison de la nécessité d'éviter la vitamine D tout en exigeant un suivi nutritionnel étroit pour maintenir une croissance normale. Les biomarqueurs tels que le rapport des métabolites de la vitamine D et la 24,25(OH)2D3, ainsi que le calcium ionisé et la gestion nutritionnelle peuvent contribuer à un suivi adéquat des patients souffrant d'hypersensibilité à la vitamine D.

Use of platelet-rich plasma in regenerative medicine: technical tools for correct quality control.

BACKGROUND/AIMS: Platelet-rich plasma (PRP) injections are used in sports medicine and have been the subject of increased clinical interest. However, there have been very few reports of the composition of initial whole blood and the final PRP product. The objective of this study was to provide technical tools to perform a correct characterisation of platelets, leucocytes and red blood cells (RBCs) from whole blood and PRP. METHODS: Blood and PRP were obtained from 26 healthy volunteers and prepared according to the varying parameters encountered within PRP process preparation and quantification (harvesting method, anticoagulant used, sampling method, counting method). Concentrations were measured at t=0, t=1, t=6 and t=24 hours. RESULTS: Sampling of blood in Eppendorf tubes significantly decreased platelet concentration over time, whereas sampling in Microvette EDTA-coated tube kept platelet concentration stable until 24 hours. A non-significant difference was observed in platelet counts in PRP with impedance (median (IQR): 521.8 G/L (505.3-524.7)) and fluorescence (591.5 G/L (581.5-595.8)) methods. Other studied parameters did not influence platelet concentrations in blood or PRP samples. Leucocytes and RBC counts were similar whatever the anticoagulant, sampling, harvesting and counting methods used for both blood and PRP samples. CONCLUSIONS: Systematic sampling of blood and PRP in EDTA-coated tubes for quality control is recommended. The use of a validated counter for PRP sample should also be taken into account.