www.ciberes.org


• M P, V c, e B, H dW, B M, g c, g MJ, B JA, g- 
oreYiAdASuBAoodArBeránilrillóengoecHeAArMost relevant 
MendiA J. Relative contributions of lipooligosaccharide inner and outer core modifica- 
scientific	tions to nontypeable Haemophilus influenzae pathogenesisInfection and Immunity.

articles
2013;81(11):4100-11.

• inSuA Jl, lloBet e, MorAntA d, PéreZ-gutiérreZ c, toMáS A, gArMendiA J, BengoecHeA JA. 

Modeling Klebsiella pneumoniae pathogenesis by infection of the wax moth Galleria 
mellonellaInfection and Immunity. 2013;8(10):3552-3565.

• F cg, r V, r M, M d, M AP, g J, M tF, B 
rAnkegueirootHerorAntAAeurerArMendiAeYerengoecHeA
JA. Klebsiella pneumoniae targets an EGF receptor-dependent pathway to subvert 
inflammationCellular Microbiology. 2013;15(7):1212-33.

• M c, c V, M d, l e, P-g c, t JM, S t, g 
ArcHAnoorAntAloBetéreZutiérreZoMáSuáreZArMendiA
J, BengoecHeA JA. Role of bacterial surface structures on the interaction of Klebsiella 

pneumoniae with phagocytesPLOS ONE. 2013;8(2):e56847.




Highlights
• Molecular dissection of the relative contribution of the lipooligosaccharide mol- 
ecule to nontypable Haemophilus influenzae pathogenesis.

•
Identification of resistance to killing mediated by antimicrobial peptides as a 

strategy employed by nontypable Haemophilus influenzae to adapt and chroni- 

cally infect the human respiratory tract.

•
Human alveolar epithelial transcriptome-based indentification of novel thera- 
peutic targets to treat infection by the bacterial pathogen nontypable Haemo- 

philus influenzae.

• Identification of a novel EGF receptor-dependent pathway exploited by Klebsiella 

pneumoniae to subvert inflammation.

• Characterization of the wax moth Galleria mellonella infection by Klebsiella 

pneumoniae as a new model to test pathogenesis

•
Characterization of Klebsiella pneumoniae surface structures role and its inter- 
action with phagocytes.
















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