2016
DOI: 10.1007/s13365-016-0476-x
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Selective developmental alterations in The HIV-1 transgenic rat: Opportunities for diagnosis of pediatric HIV-1

Abstract: Since the advent of combination antiretroviral therapy (cART), pediatric HIV-1 (PHIV) has evolved from a fatal disease to a chronic disease as children perinatally infected with HIV-1 survive into adulthood. The HIV-1 transgenic (Tg) rat, which expresses 7 of the 9 HIV-1 genes constitutively throughout development, was used to model the early development of chronic neurological impairment in PHIV. Male and female Fischer HIV-1 Tg and F344N control rats, sampled from 35 litters, were repeatedly assessed during … Show more

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Cited by 16 publications
(22 citation statements)
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“…The monotonic relationship present in gap threshold detection provides a distinct advantage for the development of a clinical diagnostic screening tool. However, it must be noted that the presence of the HIV‐1 transgene can be diagnosed with high accuracy (i.e., ≥90%) using assessments of temporal processing (i.e., cross‐modal PPI, gap‐PPI, and gap threshold detection) regardless of the monotonicity of the function (McLaurin et al, 2016a,b,c). Thus, the present study continues to provide strong evidence for the utility of temporal processing deficits as a clinically relevant diagnostic screening tool for HAND.…”
Section: Discussionmentioning
confidence: 99%
“…The monotonic relationship present in gap threshold detection provides a distinct advantage for the development of a clinical diagnostic screening tool. However, it must be noted that the presence of the HIV‐1 transgene can be diagnosed with high accuracy (i.e., ≥90%) using assessments of temporal processing (i.e., cross‐modal PPI, gap‐PPI, and gap threshold detection) regardless of the monotonicity of the function (McLaurin et al, 2016a,b,c). Thus, the present study continues to provide strong evidence for the utility of temporal processing deficits as a clinically relevant diagnostic screening tool for HAND.…”
Section: Discussionmentioning
confidence: 99%
“…A comparative summary of findings in the present P10 study and the previous P1 study is illustrated in Table 4. In preweanling HIV‐1 Tg rats, which express viral proteins constitutively throughout development, neurocognitive assessments revealed significant alterations in both prepulse inhibition and locomotor activity (McLaurin et al, 2017a); neurocognitive deficits which were similar to those reported following early viral protein exposure (P1; Fitting et al, 2008b; Moran et al, 2014a). Thus, collectively, these studies provide strong evidence for the effect of timing on the development of neurocognitive impairment, with early viral protein exposure (P1, HIV‐1 Tg rat) having a more deleterious effects on the developing CNS than late viral protein exposure (P10).…”
Section: Discussionmentioning
confidence: 58%
“…Findings revealed a significant increase in phosphorylated tyrosine hydroxylase protein expression and a decrease in dopamine transporter (DAT) mRNA, without changes in tyrosine hydroxylase or DAT protein in the HIV-1 transgenic rat midbrain, suggesting selective vulnerability of the DA system in developing brains to HIV-1 infection (Webb et al, 2010). Additionally, HIV-1 Tg rats assessed throughout the lifespan in neurocognitive tasks tapping the DA system, exhibited significant alterations in temporal processing (Moran et al, 2013a;McLaurin et al, 2016McLaurin et al, , 2017a, habituation (Chang and Vigorito, 2006;Moran et al, 2013b;Reid et al, 2016b;McLaurin et al, 2017d), sustained attention (Moran et al, 2014b), working memory (Repunte-Canonigo et al, 2014) and spatial learning (Vigorito et al, 2007;Lashomb et al, 2009).…”
Section: Discussionmentioning
confidence: 99%
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“…This model has been demonstrated to mimic HIV-1–infected patients receiving cART, who have suppressed viral replication (Peng et al 2010). A number of reports have shown abnormal changes in the HIV-1Tg rats, for instance, lower body weight (Peng et al 2010), immune-response alterations (Reid et al 2001), T-cell abnormalities (Reid et al 2004), kidney failure (Ray et al 2003), neurobehavioral and spatial learning and memory changes (Vigorito et al 2007; Lashomb et al 2009; Moran et al 2013), neuronal dysfunction (Reid et al 2016), immunophenotype and cellular response alterations (Abbondanzo and Chang 2014), neurocognitive deficits in pediatric HIV-1 (McLaurin et al 2016, 2017), and gene expression alterations in various brain regions (Li et al 2013). Therefore, this rat is a more suitable animal model, without expensive high-level biosafety demands, for studying the mechanisms of HIV-associated disease in the post-cART era.…”
Section: Animal Models Of Hiv-1 Infection-related Neurodysfunctionmentioning
confidence: 99%