Structure of the C1r–C1s interaction of the C1 complex of complement activation

Almitairi, Jamal O. M.; Girija, Umakhanth Venkatraman; Furze, Christopher M.; Simpson-Gray, Xanthe; Badakshi, Farah; Marshall, Jamie E.; Schwaeble, Wilhelm; Mitchell, Daniel A.; Moody, P.C.E.; Wallis, Russell

doi:10.1073/pnas.1718709115

Cited by 53 publications

(91 citation statements)

References 33 publications

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“…The resulting models after rigid-body refinement always had the C1r SP domains at the periphery (2). In contrast, Almitairi et al (1) give no information on whether they conducted rigid-body refinement without fixing the C1r catalytic domains in a central dimer. They furthermore claim that their results are in accordance with our low-resolution cryo-EM data and that our negative-stain EM micrographs display a nonnatural C1 conformation.…”

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confidence: 99%

“…Almitairi et al (1) present structural information on the interaction between the proteases C1r and C1s, both consisting of six domains, called CUB1-EGF-CUB2-CCP1-CCP2-SP. The authors also propose a model for the C1 complex where the C1r 2 s 2 tetramer is bound to C1q.…”

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confidence: 99%

“…It is also not described whether Almitairi et al assume the stacked tetramer arrangement of the C1r and C1s CUB1-EGF-CUB2 domains in their modeling of the C1 complex, as previously done (4), or an alternative arrangement. Furthermore, Almitairi et al (1) have not deposited their resulting model, despite taking advantage of deposited scattering data.…”

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confidence: 99%

“…Almitairi et al (1) do state that the C1r catalytic domains (presumably CCP1-CCP2-SP) were fixed as dimers, which inevitably locks these domains in the center of the molecule. We already comprehensively tested alternative starting models of the C1 complex, including models with the C1r SP domains either in the periphery or in the center of C1, similar to their model.…”

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confidence: 99%

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Models of the complement C1 complex

Mortensen

Sander

Jensen

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Models of the complement C1 complex

Mortensen

Sander

Jensen

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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“…Другие компоненты белкового комплекса C1 -C1r и C1s -это сериновые протеиназы, изначально находящиеся в виде проферментов. Эти белки собираются в вытянутую молекулу-тетрамер C1s-C1r-C1r-C1s [27], которая закрепляется (Ka ∼ 10 7 M -1 ) между «стеблей букета» молекулы C1q (рисунок 2). При достаточно прочном связывании C1q с антителами или CRP происходит автоактивация проферментов C1r, они переходят в активированную форму C1r * и расщепляют, тем самым активируя C1s [29].…”

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A modern view on the complement system

Шахиджанов

Филиппова

Butylin

et al. 2019

Voprosy gematologii/onkologii i immunopatologii v pediatrii

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Structures of the MASP Proteases and Comparison with Complement C1r and C1s

Gaboriaud

Rossi

Thielens

2021

The Collectin Protein Family and Its Multiple Biological Activities

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Several recognition proteins of the defence collagen family associate with proteases to initiate the complement cascade. The associated proteases, which are the subject of this review, mediate the proteolytic activation trigger. MBL--associated serine proteases (MASPs) mainly activate the lectin complement pathway (LP), while C1r and C1s activate the classical complement pathway (CP). This chapter will briefly introduce the current structural knowledge on these effector proteases and question what we know on MASPs structures, their common properties and how they differ from the C1r/s proteases. We will primarily focus on the structural comparison of the N--terminal domains, where the collectin binding sites are located and highlight novel aspects on their interaction with collagens. We also aim to highlight further molecular details associated to functional specificities, and to mention questions remaining open and needing further investigations. This chapter complements other reviews that describe the main general lines of complement activation mechanisms (1), the proposed structure--based scheme of the lectin pathway activation (2) and previous comparisons of LP and CP proteases (3,4).1. Common protease modular structure and mode of interaction with defence collagens MASP--1, MASP--2, MASP--3, C1r and C1s serine proteases share identical mosaic organization (Figure 1). The enzymatic activity of their C--terminal serine protease (SP) domain is controlled by the five preceding modules: two CUB (for complement C1r/C1s, Uegf, Bmp1) modules separated by an epidermal growth factor (EGF)--like module, and a pair of complement control protein (CCP) modules. LP and CP proteases are synthesized as single polypeptide chain proenzymes and become activated when a specific Arg-Ile bond is cleaved after the activation peptide in the SP domain, resulting in two chains, A and B, held together by a disulphide bridge (Figure 1). As will be detailed later, the activation cleavage is mainly triggered when the associated defence collagen binds to a target surface.Alternative splicing products also modulate LP activity. MASP--1 and MASP--3 are the products of a single MASP1 gene. They contain identical A chains (except for the 15 C--terminal

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Structure of the C1r–C1s interaction of the C1 complex of complement activation

Cited by 53 publications

References 33 publications

Models of the complement C1 complex

Models of the complement C1 complex

A modern view on the complement system

Structures of the MASP Proteases and Comparison with Complement C1r and C1s

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