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PhTD1

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PhTD1 is an antimicrobial peptide found in Papio hamadryas (Hamadryas baboon), and has antibacterial and antifungal activity.

Category
Functional Peptides
Catalog number
BAT-011582
CAS number
1085365-19-0
Molecular Formula
C80H133N33O19S6
Molecular Weight
2053.51
Synonyms
PhTD-1; BTD 1; Baboon theta defensin 1; Cyclo(L-arginyl-L-cysteinyl-L-valyl-L-cysteinyl-arginyl-L-arginylglycyl-L-valyl-L-cysteinyl-L-arginyl-L-cysteinyl-L-valyl-L-cysteinyl-L-threonyl-rginylglycyl-L-phenylalanyl-cysteinyl), cyclic(2→11),(4→9),(13→18)-tris(disulfide); θ-Defensin 1 (Papio anubis); θ-Defensin 1 (Papio hamadryas); θ-Defensin 1 (baboon)
Purity
>98%
Density
1.61±0.1 g/cm3
Sequence
Cyclo{RCVCRRGVCRCVCTRGFC} (Disulfide bridge: Cys2-Cys11, Cys4-Cys9, Cys13-Cys18)
1. Modeling pneumococcal nasopharyngeal acquisition as a function of anticapsular serum antibody concentrations after pneumococcal conjugate vaccine administration
Ron Dagan, Christine Juergens, James Trammel, Scott Patterson, David Greenberg, Noga Givon-Lavi, Nurith Porat, William C Gruber, Daniel A Scott Vaccine. 2016 Aug 5;34(36):4313-20. doi: 10.1016/j.vaccine.2016.06.075. Epub 2016 Jul 12.
Background: A prior 7- and 13-valent pneumococcal conjugate vaccine (PCV7 and PCV13) study provided sufficient data (N=1754; Jewish, n=1154; Bedouin, n=595; other, n=5) to investigate the association between nasopharyngeal (NP) acquisition of common PCV7 serotypes and cross-reacting 6A (PCV7+6A) and IgG concentrations. Methods: Using a logistic regression model, serotype specific association between postinfant series IgG concentration (age 7months) and new NP acquisition between ages 7 and 24months was assessed and adjusted for ethnicity. From a subset of subjects with new NP acquisition (n=9-152 across serotypes studied), new acquisition percentiles and associated IgG concentrations were calculated. Results: For the serotypes studied, new NP acquisition rates decreased as IgG concentrations increased. Ethnicity did not influence these associations despite differences in carriage rates. From the subset with new acquisitions, 50% of the events occurred at IgG concentrations >0.61-5.58μg/mL; and 10% of the acquisitions occurred at IgG concentrations >2.48-17.69μg/mL. Conclusion: Remarkably high IgG concentrations are required to reduce NP acquisition. These IgG concentrations differ between serotypes. Ethnicity did not influence the association between high IgG concentrations and prevention of carriage despite differences in carriage rates. Since carriage determines transmission, these results may have important implications for herd protection. Trial registration: ClinicalTrials.gov number, NCT00508742; http://clinicaltrials.gov/ct2/show/NCT00508742.
2. Serum serotype-specific pneumococcal anticapsular immunoglobulin g concentrations after immunization with a 9-valent conjugate pneumococcal vaccine correlate with nasopharyngeal acquisition of pneumococcus
Ron Dagan, Noga Givon-Lavi, Drora Fraser, Marc Lipsitch, George R Siber, Robert Kohberger J Infect Dis. 2005 Aug 1;192(3):367-76. doi: 10.1086/431679. Epub 2005 Jun 28.
Background: Immunization with pneumococcal conjugate vaccines (PCVs) reduces nasopharyngeal colonization by Streptococcus pneumoniae. We attempted to correlate postvaccination serum serotype-specific pneumococcal anticapsular immunoglobulin (Ig) G concentrations with new acquisitions of vaccine-type (VT) serotypes and the VT-related serotype 6A. Methods: A total of 132 day care center attendees aged 12-35 months received a 9-valent PCV (PnCRM9) and were followed for 2 years for new nasopharyngeal acquisitions of S. pneumoniae. A total of 132 control subjects received a meningococcus type C conjugate vaccine. Serum serotype-specific pneumococcal anticapsular IgG concentrations were determined at 1 month after complete immunization. Results: A logistic regression model of the probability of having a new acquisition of S. pneumoniae (for serotypes 9V, 14, 19F, and 23F) as a function of the IgG concentration showed a negative coefficient, indicating that higher IgG concentrations led to a decreasing probability of having a new acquisition, and achieved statistical significance for serotypes 14 and 19F. Similarly, a new acquisition of serotype 6A was shown to be significantly inversely related to the anti-6B IgG concentration. An effect of the IgG concentration on duration of carriage was not demonstrated. Conclusion: The magnitude of herd protection against S. pneumoniae provided by a PCV may depend on the magnitude of IgG concentrations.
3. Pneumococcal conjugate vaccine induced IgG and nasopharyngeal carriage of pneumococci: Hyporesponsiveness and immune correlates of protection for carriage
John Ojal, Laura L Hammitt, John Gaitho, J Anthony G Scott, David Goldblatt Vaccine. 2017 Aug 16;35(35 Pt B):4652-4657. doi: 10.1016/j.vaccine.2017.05.088. Epub 2017 Jul 21.
Background: Prior studies have demonstrated hyporesponsiveness to pneumococcal conjugate vaccines (PCVs) when administered in the presence of homologous carriage. This may be substantially more important in Africa where carriage prevalence is high. Deriving a correlate of protection (CoP) for carriage is important in guiding the future use of extended PCVs as population control of pneumococcal disease by vaccination is now focused principally on its indirect effect. We therefore explored the complex relationship between existing carriage and vaccine responsiveness, and between serum IgG levels and risk of acquisition. Methods: We undertook secondary analyses of data from two previously published clinical trials of the safety and immunogenicity of PCV in Kenya. We compared responses to vaccination between serotype-specific carriers and non-carriers at vaccination. We assessed the risk of carriage acquisition in relation to PCV-induced serum IgG levels using either a step- or continuous-risk function. Results: For newborns, the immune response among carriers was 51-82% lower than that among non-carriers, depending on serotype. Among toddlers, for serotypes 6B, 14 and 19F the post-vaccination response among carriers was lower by between 29 and 70%. The estimated CoP against acquisition ranged from 0.26 to 1.93μg/mL across serotypes, however, these thresholds could not be distinguished statistically from a model with constant probability of carriage independent of assay value. Conclusion: We have confirmed hyporesponsiveness in an equatorial African setting in both infants and toddlers. Population responses to vaccination are likely to improve with time as carriage prevalence of vaccine serotypes is reduced. We have not found clear correlates of protection against carriage acquisition among toddlers in this population. Assessing the potential of new vaccines through the use of CoP against carriage is still difficult as there are no clear-cut serotype specific correlates.
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