Division of Infectious Diseases, Anschutz Medical Campus, University of Colorado School of Medicine, Aurora, Colorado, USA.
Division of Medicinal Chemistry and Pharmacognosy, College of Pharmacy, The Ohio State Universitygrid.261331.4, Columbus, Ohio, USA.
mBio. 2022 Oct 26;13(5):e0180422. doi: 10.1128/mbio.01804-22. Epub 2022 Oct 3.
Lenacapavir (LEN) is a long-acting, highly potent HIV-1 capsid (CA) inhibitor. The evolution of viral variants under the genetic pressure of LEN identified Q67H, N74D, and Q67H/N74D CA substitutions as the main resistance associated mutations (RAMs). Here, we determined high-resolution structures of CA hexamers containing these RAMs in the absence and presence of LEN. Our findings reveal that the Q67H change induces a conformational switch, which adversely affects the inhibitor binding. In the unliganded protein, the His67 side chain adopts the closed conformation by projecting into the inhibitor binding pocket and thereby creating steric hindrance with respect to LEN. Upon the inhibitor binding, the His67 side chain repositions to the open conformation that closely resembles the Gln67 side chain in the WT protein. We propose that the switch from the closed conformation to the open conformation, which is needed to accommodate LEN, accounts for the reduced inhibitor potency with respect to the Q67H CA variant. The N74D CA change results in the loss of a direct hydrogen bond and in induced electrostatic repulsions between CA and LEN. The double Q67H/N74D substitutions exhibited cumulative effects of respective single amino acid changes. An examination of LEN binding kinetics to CA hexamers revealed that Q67H and N74D CA changes adversely influenced the inhibitor binding affinity () by primarily affecting the dissociation rate constant (). We used these structural and mechanistic findings to rationally modify LEN. The resulting analog exhibited increased potency against the Q67H/N74D viral variant. Thus, our studies provide a means for the development of second-generation inhibitors with enhanced barriers to resistance. LEN is an investigational long-acting agent for future HIV-1 treatment regimens. While ongoing clinical trials have highlighted a largely beneficial profile of LEN for the treatment of HIV-1 infected people with limited therapy options, one notable shortcoming is a relatively low barrier of viral resistance to the inhibitor. Cell culture-based viral breakthrough assays identified N74D, Q67H, and N74D/Q67H capsid changes as the main resistance associated mutations (RAMs). N74D and Q67H capsid substitutions have also emerged in clinical trials in some patients who received subcutaneous LEN. Understanding the structural basis behind viral resistance to LEN is expected to aid in the rational development of improved inhibitors with enhanced barriers to resistance. Here, we report high resolution structures of the main drug resistant capsid variants, which provide mechanistic insight into the viral resistance to LEN. We used these findings to develop an improved inhibitor, which exhibited enhanced activity against the viral Q67H/N74D capsid phenotype compared with that of parental LEN.
仑卡帕韦(LEN)是一种长效、高效的 HIV-1 衣壳(CA)抑制剂。在 LEN 的遗传压力下,病毒变异体的进化确定了 Q67H、N74D 和 Q67H/N74D CA 取代作为主要的耐药相关突变(RAMs)。在这里,我们确定了含有这些 RAM 的 CA 六聚体的高分辨率结构,无论是在没有 LEN 的情况下还是在有 LEN 的情况下。我们的研究结果表明,Q67H 变化诱导构象转换,这对抑制剂结合产生不利影响。在无配体的蛋白质中,His67 侧链通过投射到抑制剂结合口袋中采用封闭构象,从而与 LEN 产生空间位阻。在抑制剂结合后,His67 侧链重新定位到开放构象,该构象与 WT 蛋白中的 Gln67 侧链非常相似。我们提出,从封闭构象到开放构象的转变,这是容纳 LEN 所必需的,这解释了 Q67H CA 变体对抑制剂的效力降低。N74D CA 变化导致直接氢键的丧失和 CA 与 LEN 之间诱导的静电排斥。双 Q67H/N74D 取代表现出各自单个氨基酸变化的累积效应。对 LEN 与 CA 六聚体结合动力学的研究表明,Q67H 和 N74D CA 变化通过主要影响解离速率常数(),对抑制剂结合亲和力()产生不利影响。我们利用这些结构和机制发现对 LEN 进行了合理的修饰。所得类似物对 Q67H/N74D 病毒变体表现出增强的效力。因此,我们的研究为开发具有增强耐药屏障的第二代抑制剂提供了一种手段。LEN 是一种用于未来 HIV-1 治疗方案的研究性长效药物。虽然正在进行的临床试验强调了 LEN 在治疗治疗选择有限的 HIV-1 感染人群方面的主要有益特征,但一个值得注意的缺点是对抑制剂的病毒耐药性相对较低。基于细胞的病毒突破测定法确定 N74D、Q67H 和 N74D/Q67H 衣壳变化是主要的耐药相关突变(RAMs)。在接受皮下 LEN 治疗的一些患者的临床试验中也出现了 N74D 和 Q67H 衣壳取代。了解 LEN 耐药性的结构基础有望有助于合理开发具有增强耐药屏障的改良抑制剂。在这里,我们报告了主要耐药性衣壳变体的高分辨率结构,为 LEN 的病毒耐药性提供了机制上的见解。我们利用这些发现开发了一种改良的抑制剂,与亲本 LEN 相比,该抑制剂对病毒 Q67H/N74D 衣壳表型表现出增强的活性。
