Structural basis for the binding and incorporation of nucleotide analogs with L -stereochemistry by human DNA polymerase λ

Abstract: Although lamivudine and emtricitabine, two L-deoxycytidine analogs, have been widely used as antiviral drugs for years, a structural basis for D-stereoselectivity against L-dNTPs, enantiomers of natural nucleotides (D-dNTPs), by any DNA polymerase or reverse transcriptase has not been established due to lack of a ternary structure of a polymerase, DNA, and an incoming L-dNTP. Here, we report 2.10-2.25 Å ternary crystal structures of human DNA polymerase λ, DNA, and L-deoxycytidine 5′-triphosphate (L-dCTP), or … Show more

“…In fact, (−)FTC‐TP and (−)3TC‐TP are similarly effective against RT compared to their chiral pair (+)FTC‐TP/(+)3TC‐TP, but they are incorporated much less efficiently into Pol γ . Similar stereochemical preferences between D‐ and L‐ stereoisomers of nucleic acids were also reported for Polβ and Polλ . To date, there are no structural data available for (−)/(+)FTC‐TP and (−)3TC‐TP in complex with RT.…”

“…As the different enantiomer in complex with Pol γ did not result in substantial conformational changes in the binding mode of the compounds, it was predicted that the binding mode of (−)FTC‐TP and (−)3TC‐TP in RT also should have been similar to the one of (+)FTC‐TP/TTP . An additional insight into underlying reasons for such shifted binding modes of (−)FTC‐TP and (−)3TC‐TP in RT can be obtained by considering structural comparisons with the DNA damage repair enzymes, Pol λ and Pol β . In those cases, multiple (−)FTC‐TP and (−)3TC‐TP binding modes are observed for these DNA Pols in contrast to the natural dCTP substrate.…”

“…NRTIs target the active site of the reverse transcriptase (RT) protein, a critical enzyme for the replication cycle of HIV, and they function as chain terminators of the viral DNA replication upon their incorporation in the DNA primer . However, several studies have linked the long‐term usage of the NRTIs to mitochondrial dysfunction and, additionally, several other studies have reported the correlation between mitochondrial toxicity, genomic instability, and the off‐target effect of NRTIs toward several human DNA polymerases (Pols) such as Pol γ . The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination .…”

“…The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination . Previous studies have shown that some Pols are more susceptible to NRTIs toxicity than others and have suggested that particular attention needs to be paid in developing and understanding of how natural nucleoside and NRTIs in their 5′‐triphosphate form discriminate between the host Pols, especially Pol γ …”

“…(+)FTC-TP is the enantiomer of (−)FTC-TP additionally, several other studies have reported the correlation between mitochondrial toxicity, genomic instability, and the off-target effect of NRTIs toward several human DNA polymerases (Pols) such as Pol γ. [4][5][6][7] The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination. 8 Previous studies have shown that some Pols are more susceptible to NRTIs toxicity than others and have suggested that particular attention needs to be paid in developing and understanding of how natural nucleoside and NRTIs in their 5 0 -triphosphate form discriminate between the host Pols, especially Pol γ.…”

Structural insights into the recognition of nucleoside reverse transcriptase inhibitors by HIV‐1 reverse transcriptase: First crystal structures with reverse transcriptase and the active triphosphate forms of lamivudine and emtricitabine

“…In fact, (−)FTC‐TP and (−)3TC‐TP are similarly effective against RT compared to their chiral pair (+)FTC‐TP/(+)3TC‐TP, but they are incorporated much less efficiently into Pol γ . Similar stereochemical preferences between D‐ and L‐ stereoisomers of nucleic acids were also reported for Polβ and Polλ . To date, there are no structural data available for (−)/(+)FTC‐TP and (−)3TC‐TP in complex with RT.…”

“…As the different enantiomer in complex with Pol γ did not result in substantial conformational changes in the binding mode of the compounds, it was predicted that the binding mode of (−)FTC‐TP and (−)3TC‐TP in RT also should have been similar to the one of (+)FTC‐TP/TTP . An additional insight into underlying reasons for such shifted binding modes of (−)FTC‐TP and (−)3TC‐TP in RT can be obtained by considering structural comparisons with the DNA damage repair enzymes, Pol λ and Pol β . In those cases, multiple (−)FTC‐TP and (−)3TC‐TP binding modes are observed for these DNA Pols in contrast to the natural dCTP substrate.…”

“…NRTIs target the active site of the reverse transcriptase (RT) protein, a critical enzyme for the replication cycle of HIV, and they function as chain terminators of the viral DNA replication upon their incorporation in the DNA primer . However, several studies have linked the long‐term usage of the NRTIs to mitochondrial dysfunction and, additionally, several other studies have reported the correlation between mitochondrial toxicity, genomic instability, and the off‐target effect of NRTIs toward several human DNA polymerases (Pols) such as Pol γ . The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination .…”

“…The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination . Previous studies have shown that some Pols are more susceptible to NRTIs toxicity than others and have suggested that particular attention needs to be paid in developing and understanding of how natural nucleoside and NRTIs in their 5′‐triphosphate form discriminate between the host Pols, especially Pol γ …”

“…(+)FTC-TP is the enantiomer of (−)FTC-TP additionally, several other studies have reported the correlation between mitochondrial toxicity, genomic instability, and the off-target effect of NRTIs toward several human DNA polymerases (Pols) such as Pol γ. [4][5][6][7] The design of highly selective NRTIs is challenging as human DNA Pols and RT share a similar mechanism of nucleotide incorporation and discrimination. 8 Previous studies have shown that some Pols are more susceptible to NRTIs toxicity than others and have suggested that particular attention needs to be paid in developing and understanding of how natural nucleoside and NRTIs in their 5 0 -triphosphate form discriminate between the host Pols, especially Pol γ.…”

Structural insights into the recognition of nucleoside reverse transcriptase inhibitors by HIV‐1 reverse transcriptase: First crystal structures with reverse transcriptase and the active triphosphate forms of lamivudine and emtricitabine

Mutation Analysis of L‐Thymidine‐Induced Replication Products Using a Restriction Enzyme–Mediated Assay

Significant impact of divalent metal ions on the fidelity, sugar selectivity, and drug incorporation efficiency of human PrimPol