Transcriptional signature of induced neurons differentiates virologically suppressed people with HIV from people without HIV
Philipp N. Ostermann, Youjun Wu, Scott A. Bowler, Samuel Martínez-Meza, Mohammad Adnan Siddiqui, David H. Meyer, Alberto Herrera, Brandon A. Sealy, Mega Sidharta, Kiran Ramnarine, Leslie Ann St. Bernard, Desiree Byrd, R. Brad Jones, Masahiro Yamashita, Douglas F. Nixon, Lishomwa C. Ndhlovu, Ting Zhou, Teresa H. Evering
Philipp N. Ostermann, Youjun Wu, Scott A. Bowler, Samuel Martínez-Meza, Mohammad Adnan Siddiqui, David H. Meyer, Alberto Herrera, Brandon A. Sealy, Mega Sidharta, Kiran Ramnarine, Leslie Ann St. Bernard, Desiree Byrd, R. Brad Jones, Masahiro Yamashita, Douglas F. Nixon, Lishomwa C. Ndhlovu, Ting Zhou, Teresa H. Evering
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Research Article AIDS/HIV Neuroscience

Transcriptional signature of induced neurons differentiates virologically suppressed people with HIV from people without HIV

Abstract

Neurocognitive impairment is a prevalent comorbidity in virologically suppressed people living with HIV (PLWH), yet the underlying mechanisms remain elusive and treatments lacking. We explored use of participant-derived directly induced neurons (iNs) to model neuronal biology and injury in PLWH. iNs retain age- and disease-related donor features, providing unique opportunities to reveal important aspects of neurological disorders. We obtained primary dermal fibroblasts from 6 virologically suppressed PLWH and 7 matched people without HIV (PWOH). iNs were generated using transcription factors NGN2 and ASCL1 and validated by immunocytochemistry, single-cell RNA-Seq, and electrophysiological recordings. Transcriptomic aging analyses confirmed retention of donor age-related signatures. Bulk RNA-Seq identified 29 significantly differentially expressed genes between PLWH and PWOH iNs. Of these, 16 were downregulated and 13 upregulated in PLWH iNs. Protein-protein interaction network mapping indicated iNs from PLWH exhibited differences in extracellular matrix organization and synaptic transmission. IFI27 was upregulated in PLWH iNs, complementing independent postmortem studies demonstrating elevated IFI27 expression in PLWH-derived brain tissue. FOXL2NB-FOXL2-LINC01391 expression was reduced in PLWH iNs and negatively correlated with neurocognitive impairment. Thus, we identified an iN gene signature of HIV revealing mechanisms of neurocognitive impairment in PLWH.

Authors

Philipp N. Ostermann, Youjun Wu, Scott A. Bowler, Samuel Martínez-Meza, Mohammad Adnan Siddiqui, David H. Meyer, Alberto Herrera, Brandon A. Sealy, Mega Sidharta, Kiran Ramnarine, Leslie Ann St. Bernard, Desiree Byrd, R. Brad Jones, Masahiro Yamashita, Douglas F. Nixon, Lishomwa C. Ndhlovu, Ting Zhou, Teresa H. Evering

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Figure 5

IFI27 expression levels are increased in PLWH-derived iNs and postmortem brain tissue samples compared with PWOH-derived samples.

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IFI27 expression levels are increased in PLWH-derived iNs and postmorte...
(A) IFI27 gene expression levels in PLWH- vs. PWOH-derived iNs and postmortem brain tissue samples. (B) STRING protein association network of IFI27 (33, 34). (C) Scheme illustrating the concept of type I and II neurocognitive impairment in PLWH according to Gelman et al. together with the associated IFI27 expression (8). (D) IFI27 gene expression levels in PLWH IFI27hi vs. IFI27lo iNs and type I vs. type II PLWH-derived postmortem brain tissue samples. (E) Volcano plot showing the statistically significant (P-adj. < 0.05, log2fc > ± 0.5) DEGs in PLWH IFI27hi vs. IFI27lo iNs based on our bulk RNA analysis. (F) Top 2 ranked GO terms of biological processes associated with the significantly up- and downregulated genes in PLWH IFI27hi vs. IFI27lo iNs. (G) CD4+ T cell counts in PLWH divided into IFI27hi vs. IFI27lo participants. Statistical significance tested with unpaired, 2-tailed t test (A, D, and G) or derived from the conducted Wald test corrected for FDR using the Benjamini-Hochberg method on whole-transcriptome data (A and D). Data presented as individual data points with mean ± SD. IFI27 expression values in postmortem brain tissue samples derived from Gelman et al. (8).