AI Article Synopsis
- The ongoing fight against HIV is hindered by the lack of an effective vaccine and the virus's ability to develop drug resistance, highlighting the need for new therapies.
- This study utilized a deep-learning method called a long short-term memory (LSTM) variational autoencoder to explore potential new drugs for HIV, training on a dataset of 1,377 SMILES-encoded compounds with a high accuracy of 91%.
- The research generated new drug candidates, evaluated their interactions with HIV using AI models, and confirmed their drug likeliness based on Lipinski's rule of five, showcasing a promising direction for drug discovery against HIV.
Article Abstract
Despite attempts to control the spread of human immunodeficiency virus (HIV) through the use of anti-HIV medications, the absence of an effective vaccine continues to present a significant obstacle. In addition, the development of drug resistance by HIV underscores the necessity for computational drug discovery methods to identify novel therapies. This investigation specifically focused on employing a long short-term memory (LSTM) variational autoencoder deep-learning architecture for computational drug discovery in relation to HIV. Our data set comprised simplified molecular input line entry system (SMILES)-encoded compounds, which were used to train the LSTM autoencoder. Remarkably, our model achieved a training accuracy of 91%, with a data set containing 1377 compounds. Leveraging the generative model derived from the training phase, we generated potential new drugs for combating HIV and assessed their interaction with the virus using a previously developed artificial intelligence model. Lastly, we verified the drug likeliness of our computationally generated compounds in accordance with Lipinski's rule of five. Overall, our study presents a promising approach to computational drug discovery in the ongoing battle against HIV.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10864928 | PMC |
| http://dx.doi.org/10.1002/psp4.13085 | DOI Listing |
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