Abstract: The present disclosure relates to methods, compositions and systems for modulation of a coronavirus (e.g., SARS CoV-2) and/or the evaluation of compounds that can modulate infectivity of the coronavirus. For example, disclosed is a method to identify a compound that can modulate infection by the coronavirus comprising the steps of: expressing an angiotensin-converting enzyme 2 receptor (ACE-2) and/or a nicotinic acetylcholine receptor (nAChR) receptor on a target cell; contacting the target cell with a viral particle comprising at least a portion of the coronavirus spike protein in the absence and the presence of the compound; and measuring levels of infection of the target cell in order to determine infectivity of the viral particle in the presence or absence of the compound. Also, disclosed are compounds and methods of treatment identified using the methods, compositions, and systems.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistant to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistant to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The present disclosure relates to methods, compositions, and systems for detecting whether a subject exposed to a coronavirus has developed a neutralizing antibody response. Also disclosed are methods for determining whether a patient infected by a coronavirus is likely to respond to treatment with an antibody preparation. Also disclosed are methods for detecting the level of neutralizing antibody response in a sample of serum from a subject exposed to a coronavirus or to a coronavirus vaccine.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistant to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistance to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The present invention provides a method for identifying whether a compound inhibits entry of a virus into a cell which comprises: (a) obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus; (b) co-transfecting into a first cell (i) the nucleic acid of step (a), and (ii) a viral expression vector which lacks a nucleic acid encoding an envelope protein, and which comprises an indicator nucleic acid which produces a detectable signal, such that the first cell produces viral particles comprising the envelope protein encoded by the nucleic acid obtained from the patient; (c) contacting the viral particles produced in step (b) with a second cell in the presence of the compound, wherein the second cell expresses a cell surface receptor to which the virus binds; (d) measuring the amount of signal produced by the second cell in order to determine the infectivity of the viral particles; and (e) comparing the amount of signal measured in step (d) with the amount of signal produced

Abstract: Provided are methods for identifying whether a compound inhibits entry of a virus into a cell. The method may include obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus and co-transfecting it into a first cell along with a viral expression vector which lacks a nucleic acid encoding the envelope protein. The method may further include contacting the viral particles produced by the first cell with a second cell to which the virus binds in the absence and presence of the compound and measuring the amount of signal produced by the second cell.

Abstract: Provided are methods for identifying whether a compound inhibits entry of a virus into a cell. The method may include obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus and co-transfecting it into a first cell along with a viral expression vector which lacks a nucleic acid encoding the envelope protein. The method may further include contacting the viral particles produced by the first cell with a second cell to which the virus binds in the absence and presence of the compound and measuring the amount of signal produced by the second cell.

Abstract: The present invention provides a method for identifying whether a compound inhibits entry of a virus into a cell which comprises: (a) obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus; (b) co-transfecting into a first cell (i) the nucleic acid of step (a), and (ii) a viral expression vector which lacks a nucleic acid encoding an envelope protein, and which comprises an indicator nucleic acid which produces a detectable signal, such that the first cell produces viral particles comprising the envelope protein encoded by the nucleic acid obtained from the patient; (c) contacting the viral particles produced in step (b) with a second cell in the presence of the compound, wherein the second cell expresses a cell surface receptor to which the virus binds; (d) measuring the amount of signal produced by the second cell in order to determine the infectivity of the viral particles; and (e) comparing the amount of signal measured in step (d) with the amount of signal produced

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistance to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistance to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: The present invention provides an approach for developing an algorithm for determining the effectiveness of anti-viral drugs based on a comprehensive analysis of paired phenotypic and genotypic data guided by phenotypic clinical cut-offs. In one aspect, the algorithm allows one to provide a patient with effective treatment. It helps predict whether an infected individual will respond to treatment with an anti-viral compound, thereby allowing an effective treatment regimen to be designed without subjecting the patient to unnecessary side effects. Also, by avoiding the administration of ineffective drugs, considerable time and money is saved.

Abstract: The present invention provides a method for identifying whether a compound inhibits entry of a virus into a cell which comprises: (a) obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus; (b) co-transfecting into a first cell (i) the nucleic acid of step (a), and (ii) a viral expression vector which lacks a nucleic acid encoding an envelope protein, and which comprises an indicator nucleic acid which produces a detectable signal, such that the first cell produces viral particles comprising the envelope protein encoded by the nucleic acid obtained from the patient; (c) contacting the viral particles produced in step (b) with a second cell in the presence of the compound, wherein the second cell expresses a cell surface receptor to which the virus binds; (d) measuring the amount of signal produced by the second cell in order to determine the infectivity of the viral particles; and (e) comparing the amount of signal measured in step (d) with the amount of signal produced

Abstract: The present invention provides methods and compositions for determining whether a subject would benefit from co-receptor inhibitor therapy. In certain aspects, the methods can be used to determine whether a subject infected with a dual-mixed tropic population of HIV would benefit from CCCR5-inhibitor therapy or CXCR4-inhibitor therapy, the methods comprising determining whether the HIV population is a homogeneous or heterogeneous population of HIV, wherein the nature of the homogenous or heterogenous population of HIV indicates whether the patient would benefit from co-receptor inhibitor therapy.

Abstract: This invention relates, in part, to methods and compositions for determining the susceptibility of an HIV to an anti-HIV drug or the replication capacity of an HIV. In certain embodiments, the methods comprise culturing a host cell in the presence of the anti-HIV drug, measuring the activity of the indicator gene in the host cell; and comparing the activity of the indicator gene as measured with a reference activity of the indicator gene. In certain embodiments, the difference between the measured activity of the indicator gene relative to the reference activity correlates with the susceptibility of the HIV to the anti-HIV drug, thereby determining the susceptibility of the HIV to the anti-HIV drug. In certain embodiments, the difference between the measured activity of the indicator gene relative to the reference activity indicates the replication capacity of the HFV, thereby determining the replication capacity of the HIV.

Abstract: The present invention provides an approach for developing an algorithm for determining the effectiveness of anti-viral drugs based on a comprehensive analysis of paired phenotypic and genotypic data guided by phenotypic clinical cut-offs. In one aspect, the algorithm allows one to provide a patient with effective treatment. It helps predict whether an infected individual will respond to treatment with an anti-viral compound, thereby allowing an effective treatment regimen to be designed without subjecting the patient to unnecessary side effects. Also, by avoiding the administration of ineffective drugs, considerable time and money is saved.

Abstract: The present invention provides an approach for developing an algorithm for determining the effectiveness of anti-viral drugs based on a comprehensive analysis of paired phenotypic and genotypic data guided by phenotypic clinical cut-offs. In one aspect, the algorithm allows one to provide a patient with effective treatment. It helps predict whether an infected individual will respond to treatment with an anti-viral compound, thereby allowing an effective treatment regimen to be designed without subjecting the patient to unnecessary side effects. Also, by avoiding the administration of ineffective drugs, considerable time and money is saved.

Abstract: This invention provides a method for determining susceptibility for an anti-viral drug comprising: (a) introducing a resistance test vector Comprising a patient-derived segment and an indicator gene into a host cell; (b) culturing the host cell from (a); (c) measuring expression of the indicator gene in a target host cell; and (d) comparing the expression of the indicator gene from (c) with the expression of the indicator gene measured when steps (a)-(c) are carried out in the absence of the anti-viral drug, wherein a test concentration of the anti-viral drug is present at steps (a)-(c); at steps (b)-(c); or at step (c).

Abstract: The invention provides a method for identifying whether a compound inhibits entry of a virus into a cell which comprises: (a) obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus; (b) co-transfecting into a first cell (i) the nucleic acid of step (a), and (ii) a viral expression vector which lacks a nucleic acid encoding an envelope protein, and which comprises an indicator nucleic acid which produces a detectable signal, such that the first cell produces viral particles comprising the envelope protein encoded by the nucleic acid obtained from the patient; (c) contacting the viral particles produced in step (b) with a second cell in the presence of the compound, wherein the second cell expresses a cell surface receptor to which the virus binds; (d) measuring the amount of signal produced by the second cell in order to determine the infectivity of the viral particles; and (e) comparing the amount of signal measured in step (d) with the amount of signal produced in the a