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Multimodal Analysis of Dysregulated Heme Metabolism, Hypoxic Signaling, and Stress Erythropoiesis in Down Syndrome

Donovan et al., Cell Reports. 2024.

https://pubmed.ncbi.nlm.nih.gov/39120971

Down syndrome (DS), a genetic condition caused by the presence of an extra copy of chromosome 21, is characterized by intellectual and developmental disability. Infants with DS often suffer from low oxygen saturation, and DS is associated with obstructive sleep apnea. Investigators assessed the role that hypoxia plays in driving health conditions that are comorbid with DS. A multiomic analysis showed that people with DS exhibit elevated heme metabolism and activated stress erythropoiesis, which are indicators of chronic hypoxia; these results were recapitulated in a mouse model for DS. This study identified hypoxia as a possible mechanism underlying several conditions that co-occur with DS, including congenital heart defects, seizure disorders, autoimmune disorders, several leukemias, and Alzheimer's disease. Supported by ORIP (R24OD035579), NCATS, NCI, and NIAID.

Establishment and Characterization of Three Human Ocular Adnexal Sebaceous Carcinoma Cell Lines

Lee et al., International Journal of Molecular Sciences. 2024.

https://pmc.ncbi.nlm.nih.gov/articles/PMC11432008

Researchers established three new cell lines to model ocular adnexal sebaceous carcinoma (SebCA) and test new therapies. SebCA is a highly problematic periorbital tumor requiring aggressive surgical treatment, and its pathobiology remains poorly understood. With consent from one male and two female patients, tumor tissue was cultured under conditional reprograming, and the cells were analyzed for growth, clonogenicity, apoptosis, and differentiation using methods including western blotting, short tandem repeat profiling, and next-generation sequencing. These newly developed cell lines provide valuable preclinical models for understanding and treating SebCA. Supported by ORIP (K01OD034451).

A Single-Dose Intranasal Live-Attenuated Codon Deoptimized Vaccine Provides Broad Protection Against SARS-CoV-2 and Its Variants

Liu et al., Nature Communications. 2024.

https://pubmed.ncbi.nlm.nih.gov/39187479

Researchers developed an intranasal, single-dose, live-attenuated severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2, COVID-19) vaccine (CDO-7N-1) using codon deoptimization. This vaccine demonstrates broad protection against SARS-CoV-2 variants, with highly attenuated replication and minimal lung pathology across multiple in vivo passages. The vaccine induced robust mucosal and systemic neutralizing antibodies, as well as T-cell responses, in male and female hamsters, female K18-hACE2 mice, and male HFH4-hACE2 mice. In male and female cynomolgus macaques, CDO-7N-1 effectively prevented infection, reduced severe disease, and limited transmission of SARS-CoV-2 variants. This innovative approach offers potential advantages over traditional spike-protein vaccines by providing durable protection and targeting emerging variants to curb virus transmission. Supported by ORIP (K01OD026529).

Immune Perturbation Following SHIV Infection Is Greater in Newborn Macaques Than in Infants

Shapiro et al., JCI Insight. 2024.

https://pubmed.ncbi.nlm.nih.gov/39190496

This study investigates immune perturbation following simian-human immunodeficiency virus (SHIV) infection in newborn and infant male and female rhesus macaques, highlighting significant differences in pathogenesis. Although plasma viremia and lymph node viral DNA were similar, newborns exhibited higher viral DNA levels in gut and lymphoid tissues 6–10 weeks postinfection than infants. Additionally, newborns showed greater immune alterations, with skewed monocyte and CD8+ T-cell profiles and minimal type I interferon responses. These findings suggest age-dependent immunological responses to SHIV and underscore the vulnerability of newborns to HIV-related pathogenesis, providing insights into immune development and pediatric HIV management. Supported by ORIP (P51OD011092, U42OD023038, U42OD010426) and NIAID.