ABSTRACT
Introduction: People with previous CVD hospitalized for COVID-19 have elevated death rate. We reported that patients with diabetes and HF higher protein levels of the low density lipoprotein receptor (LDLR). We hypothesized that LDLR is a novel host factor for the SARS-CoV-2-Spike (S2S) protein that may be regulated by the Akt inhibitor Triciribine (TCN), a drug being tested in Phase III studies for breast cancer. We also hypothesized that nano-formulation of Triciribine (NanoTriciribine;NTCN) would enhance its efficacy and allow for intranasal delivery. Methods: Interactions between the recombinant proteins Spike-RBD (receptor binding domain), ACE2, LDLR and its ectodomains (EGFA-EFFB, C2-C5 and C2) were analyzed by binding assays and co-IP in HepG2, HK2, and 293T cells. Viral entry assays were performed with 2 S2S pseudoviruses using 293T cells + hACE2 and TMPRSS2 or Furin protease. The effect of NTCN or the LXR agonist GW-3965 on viral uptake (pseudotyped VSVΔG-GFP∗S2S or chimera VSV-S2SeGFP virus) was assessed. Akt, pAkt, ACE2, and LDLR levels were determined in 293T+hACE2 by flow cytometry. Assays were done in triplicates and 1-way-ANOVA with Tukey's correction was used for statistics. Results: RBD protein binds modestly to the human LDLR (EC50:10μM) and its C2-C5 ectodomain (EC50:13.8μM). Co-IP revealed a novel and strong LDLR-ACE2 interaction in several human cell lines. LDLR overexpression in human cells increased the uptake of VSVΔG-GFP∗S2S (FC=2.32;p<0.001) and chimera virus (FC=.33;p<.0001). NTCN and TCN each reduced pAkt/Akt ratio. 1μM TCN or NTCN reduced LDLR (7.2%;p<.01 &15.6%;p<0.0001) and ACE2 (32%;p<0.05 &44.7%;p<.01) cell surface expression, respectively. 1μM NTCN or GW-3965 reduced S2S viral entry by 64.2% (p<.0001) and 40.7% (p<.01), respectively, confirming a role for LDLR in S2S infection. In hACE2tg mice, chimera VSV-S2S caused significant lung infection as measured by qPCR, GFP expression in proximal and distal lung airway epithelial cells, and electron microscopy. Intranasal delivery of NTCN was well tolerated. Conclusions: LDLR enhanced S2S viral entry supporting the elevated COVID-19 susceptibility seen in patients with heart disease. NTCN is a promising candidate for prophylactic treatment against COVID-19.
ABSTRACT
The severe acute respiratory syndrome coronavirus 2 that causes coronavirus disease 2019 (COVID-19) binds to the angiotensin-converting enzyme 2 (ACE2) to gain cellular entry. Akt inhibitor triciribine (TCBN) has demonstrated promising results in promoting recovery from advanced-stage acute lung injury in preclinical studies. In the current study, we tested the direct effect of TCBN on ACE2 expression in human bronchial (H441) and lung alveolar (A549) epithelial cells. Treatment with TCBN resulted in the downregulation of both messenger RNA and protein levels of ACE2 in A549 cells. Since HMGB1 plays a vital role in the inflammatory response in COVID-19, and because hyperglycemia has been linked to increased COVID-19 infections, we determined if HMGB1 and hyperglycemia have any effect on ACE2 expression in lung epithelial cells and whether TCBN has any effect on reversing HMGB1- and hyperglycemia-induced ACE2 expression. We observed increased ACE2 expression with both HMGB1 and hyperglycemia treatment in A549 as well as H441 cells, which were blunted by TCBN treatment. Our findings from this study, combined with our previous reports on the potential benefits of TCBN in the treatment of acute lung injury, generate reasonable optimism on the potential utility of TCBN in the therapeutic management of patients with COVID-19.