Expanded prenatal phenotype of ALG12-associated congenital disorder of glycosylation including bilateral multicystic kidneys.

Congenital disorders of glycosylation (CDG) are a group of rare autosomal recessive genetic disorders caused by pathogenic variants in genes coding for N-glycosylated glycoproteins, which play a role in folding, degrading, and transport of glycoproteins in their pathway. ALG12-CDG specifically is caused by biallelic pathogenic variants in ALG12. Currently reported features of ALG12-CDG include: developmental delay, hypotonia, failure to thrive and/or short stature, brain anomalies, recurrent infections, hypogammaglobulinemia, coagulation abnormalities, and genitourinary abnormalities. In addition, skeletal abnormalities resembling a skeletal dysplasia including shortened long bones and talipes equinovarus have been seen in more severe neonatal presentation of this disorder. We report on a case expanding the phenotype of ALG12-CDG to include bilateral, multicystic kidneys in a neonatal demise identified with homozygous pathogenic variants in the ALG12 gene at c.1001del (p.N334Tfs*15) through clinical trio exome sequencing.

Outcomes in 14 live births resulting from Pegvaliase-treated pregnancies in PKU-affected females.

BACKGROUND: Adults with PKU have difficulty maintaining plasma phenylalanine (Phe) in the range that is safe for neurologic function. Elevated plasma Phe is a risk factor for congenital anomalies and developmental delay in offspring resulting from pregnancies with poor Phe control in women with PKU. Enzyme supplementation with pegvaliase allows adults with PKU to eat an unrestricted diet and have plasma Phe levels in a safe range for pregnancy but pegvaliase has not been approved for use in pregnant females with PKU. We report the results of chart review of 14 living offspring of females affected with PKU who were responsive to pegvaliase and chose to remain on pegvaliase throughout their pregnancy. METHODS: Fourteen pregnancies (one triplet pregnancy) and their offspring were identified at eight PKU treatment centers and medical records from pregnancy and birth were submitted for this study. Institutional Review Board approval was obtained. Responses to a dataset were provided to a single center and analyzed. RESULTS: Six females and eight males were born without congenital anomalies and all offspring had normal growth parameters. While mothers had preexisting comorbidities, no additional comorbidities were reported in the offspring. Four of eleven infants (excluding triplet pregnancies) were delivered preterm (36%), a higher rate than the general population (12%). A single first trimester (eight weeks) miscarriage in a 40y was not counted in this cohort of 14 live born infants. CONCLUSION: This retrospective study suggests that pegvaliase is effective at maintaining safe maternal blood Phe levels during pregnancy without deleterious effects on mother or child. A tendency toward premature birth (4/11; 36%) is higher than expected.

Novel mosaic TRAF7 likely pathogenic variant in an African American family.

Pathogenic variants in TRAF7 are often de novo and features of individuals harboring these variants are characterized by neurodevelopmental delay, ptosis, cardiac defects, limb anomalies, and dysmorphic features. We present a familial case in two African American patients with a novel, likely pathogenic c.1936G>A variant in TRAF7. Patient 1 is a 31-year-old female with a patent ductus arteriosus (PDA), intellectual disability, ptosis, and other dysmorphic features. She was identified to harbor this likely pathogenic variant in a mosaic (33.89%) state in leukocytes. Her son, Patient 2, is a 10-month-old male with a PDA, atrial septal defect, ptosis, developmental delay, history of feeding difficulties, congenital maxillary frenulum, and malrotation of the intestine. He has the same variant in a non-mosaic state. These cases demonstrate the variable expressivity observed with variants in TRAF7 within the same family and expand upon current understanding of mosaic TRAF7 variants. They also provide phenotypic data on genetic variation in individuals with African American ancestry, a population who has been underrepresented in the literature and may be less frequently referred to genetic specialists.

GABRG1 variant as a potential novel cause of epileptic encephalopathy, hypotonia, and global developmental delay.

Epileptic encephalopathies (EEs) are severe brain disorders with excessive ictal (seizure) and interictal (electrographic epileptiform discharges) activity in developing brain which may result in progressive cognitive and neuropsychological deterioration. In contrast to regular epilepsy where the treatment goal is to prevent the seizure (ictal) recurrence, in patients with EE the goal is to treat both ictal as well as interictal activity to prevent further progression. With the introduction of genetic sequencing technologies over the past 20 years, there is growing recognition of the genetic basis of EE, with the majority due to monogenic causes. Monogenic etiologies of EE include pathogenic variants in the γ-aminobutyric acid type A receptor (GABA-A) encoding gene family. We present a 2-year-old patient with EE, hypotonia, and global developmental delays. Clinical trio exome sequencing showed a novel, de novo variant in GABRG1. GABRG1 encodes the γ1 subunit of the GABA-A receptor. To date, there has not been an association of EE with pathogenic variants in GABRG1. This variant is predicted to be damaging to protein structure and function, and the patient's phenotype is similar to those with pathogenic variants in other members of the GABA-A receptor encoding gene family.

Factors impacting adolescent and young adult cancer patients' decision to pursue genetic counseling and testing.

PURPOSE: Adolescent and young adult (AYA) cancer patients face challenges when navigating cancer treatment and survivorship. Many are at risk for cancer predisposition syndromes; however, factors influencing pursuit of genetic counseling and testing have not been reported. We describe AYA cancer patients' decision-making process, including motivational factors and barriers, as it relates to utilization of genetic services. METHODS: Thirty AYAs diagnosed with cancer previously referred for cancer predisposition genetic counseling completed semi-structured interviews via audio-only Zoom calls. Thematic analysis was used to perform qualitative analysis and identify major themes. RESULTS: The sample comprised 21 AYAs who had genetic counseling and nine who did not. Motivational factors identified included learning genetic counseling is an available service, concern about the impact of a hereditary syndrome on family members and family planning, learning about the need for cancer screening or prevention, affordability of genetic testing, and easing worry about additional cancer risks. For those who did not pursue genetic counseling, barriers included scheduling or other priorities, worry, and cost. However, the majority expressed they would reconsider genetic counseling in the future. CONCLUSION: AYA cancer patients have similar motivational factors to pursue genetic counseling compared to other patients; however, their younger age of diagnosis may alter how these factors affect decision-making. While there are barriers limiting access to genetic services, they did not decrease interest in future genetic counseling for most patients. Genetic counseling and testing should be discussed with patients who previously declined genetic services.