Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V

Monique Nijhuis; Annemarie M J Wensing; Wouter F W Bierman; Dorien de Jong; Ron Kagan; Axel Fun; Christian A J J Jaspers; Karin A M Schurink; Michael A van Agtmael; Charles A B Boucher

doi:10.1086/605329

Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V

Monique Nijhuis
, Annemarie M J Wensing
, Wouter F W Bierman
, Dorien de Jong
, Ron Kagan
, Axel Fun
, Christian A J J Jaspers
, Karin A M Schurink
, Michael A van Agtmael
, Charles A B Boucher

Research output: Contribution to journal › Article › Academic › peer-review

32 Citations (Scopus)

Abstract

BACKGROUND: Virological failure of first-line antiretroviral therapy based on lopinavir boosted with ritonavir (lopinavir/r) has rarely been associated with resistance in protease. We identified a new genotypic resistance pathway in 3 patients who experienced failure of first-line lopinavir/r treatment.

METHODS: Viral protease and the C-term part of Gag were sequenced. The observed mutations were introduced in a reference strain to investigate impact on protease inhibitor susceptibility and replication capacity.

RESULTS: A detailed longitudinal analysis demonstrated the selection of the M46I+L76V protease mutations in all 3 patients. The L76V conferred a solitary 3.5-fold increase in one-half the maximal inhibitory concentration to lopinavir but severely hampered viral replication. Addition of M46I, which did not confer any lopinavir resistance on its own, had a dual effect. It partly compensated for the loss in replication capacity and increased the one-half maximal inhibitory concentration to above the lower clinical cutoff (11-fold). Analysis of a large clinical database (>180,000 human immunodeficiency virus [HIV] sequences) demonstrated a significant association (Spearman rho, 0.93) between the increased presence of L76V in clinical samples (0.5% in 2000 to 3.4% in 2006) and lopinavir prescription over time.

CONCLUSIONS: The HIV protease substitution L76V, in combination with M46I, confers clinically relevant levels of lopinavir resistance and represents a novel resistance pathway to first-line lopinavir/r therapy.

Original language	English
Pages (from-to)	698-709
Number of pages	12
Journal	The Journal of Infectious Diseases
Volume	200
Issue number	5
DOIs	https://doi.org/10.1086/605329
Publication status	Published - 1-Sept-2009

Keywords

Amino Acid Sequence
Amino Acid Substitution
Anti-HIV Agents
DNA Mutational Analysis
Drug Resistance, Viral
HIV
HIV Infections
HIV Protease
Humans
Longitudinal Studies
Lopinavir
Molecular Sequence Data
Mutation, Missense
Phylogeny
Pyrimidinones
Ritonavir
Sequence Analysis, DNA
Sequence Homology
Treatment Failure
Virus Replication
gag Gene Products, Human Immunodeficiency Virus

Access to Document

10.1086/605329

Handle.net

Persistent link

Cite this

Nijhuis, M., Wensing, A. M. J., Bierman, W. F. W., de Jong, D., Kagan, R., Fun, A., Jaspers, C. A. J. J., Schurink, K. A. M., van Agtmael, M. A., & Boucher, C. A. B. (2009). Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V. The Journal of Infectious Diseases, 200(5), 698-709. https://doi.org/10.1086/605329

@article{d92eb927e10d40a3a135939edc6c6655,

title = "Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V",

abstract = "BACKGROUND: Virological failure of first-line antiretroviral therapy based on lopinavir boosted with ritonavir (lopinavir/r) has rarely been associated with resistance in protease. We identified a new genotypic resistance pathway in 3 patients who experienced failure of first-line lopinavir/r treatment.METHODS: Viral protease and the C-term part of Gag were sequenced. The observed mutations were introduced in a reference strain to investigate impact on protease inhibitor susceptibility and replication capacity.RESULTS: A detailed longitudinal analysis demonstrated the selection of the M46I+L76V protease mutations in all 3 patients. The L76V conferred a solitary 3.5-fold increase in one-half the maximal inhibitory concentration to lopinavir but severely hampered viral replication. Addition of M46I, which did not confer any lopinavir resistance on its own, had a dual effect. It partly compensated for the loss in replication capacity and increased the one-half maximal inhibitory concentration to above the lower clinical cutoff (11-fold). Analysis of a large clinical database (>180,000 human immunodeficiency virus [HIV] sequences) demonstrated a significant association (Spearman rho, 0.93) between the increased presence of L76V in clinical samples (0.5\% in 2000 to 3.4\% in 2006) and lopinavir prescription over time.CONCLUSIONS: The HIV protease substitution L76V, in combination with M46I, confers clinically relevant levels of lopinavir resistance and represents a novel resistance pathway to first-line lopinavir/r therapy.",

keywords = "Amino Acid Sequence, Amino Acid Substitution, Anti-HIV Agents, DNA Mutational Analysis, Drug Resistance, Viral, HIV, HIV Infections, HIV Protease, Humans, Longitudinal Studies, Lopinavir, Molecular Sequence Data, Mutation, Missense, Phylogeny, Pyrimidinones, Ritonavir, Sequence Analysis, DNA, Sequence Homology, Treatment Failure, Virus Replication, gag Gene Products, Human Immunodeficiency Virus",

author = "Monique Nijhuis and Wensing, \{Annemarie M J\} and Bierman, \{Wouter F W\} and \{de Jong\}, Dorien and Ron Kagan and Axel Fun and Jaspers, \{Christian A J J\} and Schurink, \{Karin A M\} and \{van Agtmael\}, \{Michael A\} and Boucher, \{Charles A B\}",

year = "2009",

month = sep,

day = "1",

doi = "10.1086/605329",

language = "English",

volume = "200",

pages = "698--709",

journal = "The Journal of Infectious Diseases",

issn = "0022-1899",

publisher = "Oxford University Press",

number = "5",

}

Nijhuis, M, Wensing, AMJ, Bierman, WFW, de Jong, D, Kagan, R, Fun, A, Jaspers, CAJJ, Schurink, KAM, van Agtmael, MA & Boucher, CAB 2009, 'Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V', The Journal of Infectious Diseases, vol. 200, no. 5, pp. 698-709. https://doi.org/10.1086/605329

Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V. / Nijhuis, Monique; Wensing, Annemarie M J; Bierman, Wouter F W et al.
In: The Journal of Infectious Diseases, Vol. 200, No. 5, 01.09.2009, p. 698-709.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V

AU - Nijhuis, Monique

AU - Wensing, Annemarie M J

AU - Bierman, Wouter F W

AU - de Jong, Dorien

AU - Kagan, Ron

AU - Fun, Axel

AU - Jaspers, Christian A J J

AU - Schurink, Karin A M

AU - van Agtmael, Michael A

AU - Boucher, Charles A B

PY - 2009/9/1

Y1 - 2009/9/1

N2 - BACKGROUND: Virological failure of first-line antiretroviral therapy based on lopinavir boosted with ritonavir (lopinavir/r) has rarely been associated with resistance in protease. We identified a new genotypic resistance pathway in 3 patients who experienced failure of first-line lopinavir/r treatment.METHODS: Viral protease and the C-term part of Gag were sequenced. The observed mutations were introduced in a reference strain to investigate impact on protease inhibitor susceptibility and replication capacity.RESULTS: A detailed longitudinal analysis demonstrated the selection of the M46I+L76V protease mutations in all 3 patients. The L76V conferred a solitary 3.5-fold increase in one-half the maximal inhibitory concentration to lopinavir but severely hampered viral replication. Addition of M46I, which did not confer any lopinavir resistance on its own, had a dual effect. It partly compensated for the loss in replication capacity and increased the one-half maximal inhibitory concentration to above the lower clinical cutoff (11-fold). Analysis of a large clinical database (>180,000 human immunodeficiency virus [HIV] sequences) demonstrated a significant association (Spearman rho, 0.93) between the increased presence of L76V in clinical samples (0.5% in 2000 to 3.4% in 2006) and lopinavir prescription over time.CONCLUSIONS: The HIV protease substitution L76V, in combination with M46I, confers clinically relevant levels of lopinavir resistance and represents a novel resistance pathway to first-line lopinavir/r therapy.

AB - BACKGROUND: Virological failure of first-line antiretroviral therapy based on lopinavir boosted with ritonavir (lopinavir/r) has rarely been associated with resistance in protease. We identified a new genotypic resistance pathway in 3 patients who experienced failure of first-line lopinavir/r treatment.METHODS: Viral protease and the C-term part of Gag were sequenced. The observed mutations were introduced in a reference strain to investigate impact on protease inhibitor susceptibility and replication capacity.RESULTS: A detailed longitudinal analysis demonstrated the selection of the M46I+L76V protease mutations in all 3 patients. The L76V conferred a solitary 3.5-fold increase in one-half the maximal inhibitory concentration to lopinavir but severely hampered viral replication. Addition of M46I, which did not confer any lopinavir resistance on its own, had a dual effect. It partly compensated for the loss in replication capacity and increased the one-half maximal inhibitory concentration to above the lower clinical cutoff (11-fold). Analysis of a large clinical database (>180,000 human immunodeficiency virus [HIV] sequences) demonstrated a significant association (Spearman rho, 0.93) between the increased presence of L76V in clinical samples (0.5% in 2000 to 3.4% in 2006) and lopinavir prescription over time.CONCLUSIONS: The HIV protease substitution L76V, in combination with M46I, confers clinically relevant levels of lopinavir resistance and represents a novel resistance pathway to first-line lopinavir/r therapy.

KW - Amino Acid Sequence

KW - Amino Acid Substitution

KW - Anti-HIV Agents

KW - DNA Mutational Analysis

KW - Drug Resistance, Viral

KW - HIV

KW - HIV Infections

KW - HIV Protease

KW - Humans

KW - Longitudinal Studies

KW - Lopinavir

KW - Molecular Sequence Data

KW - Mutation, Missense

KW - Phylogeny

KW - Pyrimidinones

KW - Ritonavir

KW - Sequence Analysis, DNA

KW - Sequence Homology

KW - Treatment Failure

KW - Virus Replication

KW - gag Gene Products, Human Immunodeficiency Virus

U2 - 10.1086/605329

DO - 10.1086/605329

M3 - Article

C2 - 19627247

SN - 0022-1899

VL - 200

SP - 698

EP - 709

JO - The Journal of Infectious Diseases

JF - The Journal of Infectious Diseases

IS - 5

ER -

Failure of treatment with first-line lopinavir boosted with ritonavir can be explained by novel resistance pathways with protease mutation 76V

Abstract

Keywords

Access to Document

Handle.net

Fingerprint

Cite this