The Crystal Structure of The Crystal Structure of Helicobacter pylori Helicobacter pylori Cysteine-rich Protein BCysteine-rich Protein B

Reveals a Novel Fold for a Penicillin-binding Reveals a Novel Fold for a Penicillin-binding

ProteinProtein

Lucas Lu¨ thy, Markus G. Gru¨ tter, and Peer R. E. Mittl

JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 277, No. 12, Issue of March 22, pp. 10187–10193,

2002

Introduction ofIntroduction of Helicobacter Helicobacter pyloripylori

Colonization of the gastric mucosa with the spiral-shaped Gram-negative proteobacterium Helicobacter pylori is probably the most common chronic infection in humans.

gastric diseases – duodenal ulcers

non-gastric diseases– cardiovascular, autoimmune,

dermatological, and liver diseases

What isWhat is Helicobacter pylori Helicobacter pylori Cysteine-rich Protein ? Cysteine-rich Protein ?

(Hcp)(Hcp)In the H. pylori genomes , two cysteine

residues are separated by 7 amino acids, and there are 36 amino acids between adjacent cysteine pairs

Sequence conservation among this family varies between 22 and 66% sequence identity

Multiple sequence alignment of the Multiple sequence alignment of the Hcp familyHcp family

The characteristic function of The characteristic function of Hcp familyHcp family

β -lactamase activity

penicillin binding activity

ββ --Lactam HydrolysisLactam Hydrolysis

THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 275, No. 23, Issue of June 9, pp. 17693–17699, 2000

The Crystal Structure of HcpB The Crystal Structure of HcpB

Sample purificationSample purification

Since HcpB was refolded from inclusion bodies, proper refolding was verified by CD spectroscopy.

CD spectrum of refolded HcpB. Ellipticity at a wavelength of 222 nm as a function of GdmHCl concentration.

Based on the CD spectrum, the –αhelix content was predicted to be 73%, [GdmHCl]1 /2 values is 1.93 +- 0.02 M and free energy is unfolding of -22 kJ/mol.

Characterization of Folding

The 133 residues of HcpB fold into eight α-helices that pack into a right-handed superhelix

Four disulfide bridges are observed between cysteine pairs Cys-22/Cys-30, Cys-52/Cys-60, Cys-88/Cys-96, and Cys-124/Cys-132.

The disulfide bridges subdivide the structure into four (1, 2, 3, 4) pairs (A, B)of α-helices confirming the proposed modular architecture.

The packing angle of helices A and B belonging to the same α/α –motif is 42° whereas the angle between helices B and A of adjacent motifs is 14°

The convex surface of the molecule is formed by helices 1A, 2A, 3A, and 4A. This surface area is positively charged.

Helices 1B, 2B, 3B, and 4B create an amphipathic groove. Polar side chains of helix 2B form the bottom of the grove that is flanked on both sides by hydrophobic side chains coming from helices 1B, 3B, and 4B.

Sequence identity Sequence identity among among αα / /αα -motifs of -motifs of

HcpBHcpB

R.m.s.d. and sequence identity among α / α -motifs of HcpB

Stereo view of the superposition of four HcpB α / α -

motifs.

Structure-based sequence Structure-based sequence alignment of HcpB motifs 1–4alignment of HcpB motifs 1–4

Residues that are conserved are highlighted

The cysteine residues at positions 20 and 28, alanine at position 19, and glycine at position 27 are conserved for structural reasons.Throughout the whole Hcp family, residues preceding the cysteines are always glycine, alanine, or serine residues because these residue types possess sufficiently small side chains.

The Binding SiteThe Binding Site

Attempts to detect the nitrocefin binding site in HcpB failed because the crystals disintegrated upon soaking nitrocefin into the HcpB crystals

Mass spectrometric analysis of HcpB revealed two peaks with molecular masses of 16,159.2 and 16,450.8 Da , and the 292 Da difference between two peaks is suggesting the ligand in active site .

N-acetylmuramic acid (NAM) is a compound that is found in the peptidoglycan of all Gram-

negative bacteria.

Modeled N-acetylmuramic acid/HcpB complex..

Water molecules and 2Fo-Fc electron density in the putative ligand binding site.

Comparability of the structure Comparability of the structure between HcpB and between HcpB and

tetratricopeptide repeat (TPR) tetratricopeptide repeat (TPR) domain of the human protein domain of the human protein

phosphatase 5 (PP5)phosphatase 5 (PP5)

TPR motifs are important to the function of TPR motifs are important to the function of chaperone , cell-cycle transcription .chaperone , cell-cycle transcription .

BioEssays 21:932–939, r 1999 John Wiley & Sons, Inc.

The structural differience The structural differience between HcpB and PP5between HcpB and PP5

The EMBO Journal Vol.17 No.5 pp.1192–1199, 1998

leucine at position 22 is also conserved in TPR repeats 1 and 2, whereas the lysine and asparagine residues at positions 11, 14, and 18 that are located on the convex surface of HcpB are not.

Fig.2d Fig.2c

ConclusionConclusion

The 133 residues of HcpB fold into eight α-helices and four disulfide bridges are observed between each pair of the α/α –motif .

The ligand could form hydrogen bonds with residues in the loops between helices A and B of motifs 1, 2, and 3

The structure of HcpB is most similar to the tetratricopeptide repeat (TPR) domain of the human protein phosphatase 5 (PP5) , but their function are very diverse .

ThanksThanks

X-ray data collection and X-ray data collection and refinement statisticsrefinement statistics