Heme acquisition mechanisms of <i>Porphyromonas gingivalis</i> – strategies used in a polymicrobial community in a heme‐limited host environment

Smalley, John W.; Olczak, Teresa

doi:10.1111/omi.12149

Cited by 101 publications

(160 citation statements)

References 186 publications

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“…Likewise, we must also consider the possibility that regardless of potential interaction between the bacterial species themselves, the presence of these multiple species could impact the immune response of the host, particularly by polyclonal activation of the lymphoid system and induction of immunological dysregulation (Montes, Acosta‐Rodriguez, Merino, Bermejo, & Gruppi, ). Alternatively, expression of virulence factors such as proteases or leukotoxins by some organisms may alter the ecological adaptation and virulence potential of other organisms in the same niche (Castro et al., ; Lohinai et al., ; Smalley & Olczak, ). Although these interactions have the potential to be extremely complex and time‐consuming to study, it is likely that this broader systems approach to the complex pathobiology of DD holds potential for more fully understanding the mechanisms and roles that each of these organisms may play in the disease process.…”

Section: Pathogens Involvedmentioning

confidence: 99%

Missing pieces of the puzzle to effectively control digital dermatitis

Orsel

Plummer

Shearer

et al. 2017

Transbound Emerg Dis

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Since the first report of bovine digital dermatitis (DD) in 1974, there is a large body of the literature published; however, effective prevention and control of the disease remain elusive. Although many aspects of the pathogenesis of DD have been investigated, even some of the most basic questions such as the aetiology of this disease remain under debate. Treponema spp. have been strongly associated with DD lesions and occur in abundance in advanced lesions; however, efforts to induce disease with pure cultures of these organisms have been largely underwhelming and inconsistent. Furthermore, although the disease has been presented for several decades, there is limited scientific evidence regarding effective treatment of DD. Apparent discrepancies between effectiveness in vitro and in vivo have challenged the scientific community to identify new potential treatment options. With no treatment resulting in a 100% cure rate, the current expectation is manageable control, but prospects for the eradication of the disease are unlikely using current approaches. In order to develop more effective approaches to control DD on-farm, there is a critical need for a deeper understanding regarding the causation, ecology, transmission and treatment of this disease. In this article, we attempt to provide insights into specific research needs related to DD in order to assist the industry, researchers, pharmaceutical companies and research sponsors with decision-making and identified research gaps.

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Section: Pathogens Involvedmentioning

confidence: 99%

Missing pieces of the puzzle to effectively control digital dermatitis

Orsel

Plummer

Shearer

et al. 2017

Transbound Emerg Dis

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show abstract

“…The main source of heme in the human host is hemoglobin and P. gingivalis obtains heme from it with the aid of R‐ and K‐gingipains, and hemophore‐like proteins such as HmuY and HusA . Although R‐gingipain mediates oxidation of oxyHb to metHb for further globin degradation by K‐gingipain and eventual heme extraction by HmuY, here we have shown that the metHb formed by the action of H 2 O 2 produced by S. gordonii represents another potential source from which Fe(III)heme might be gained without the reliance upon R‐gingipain protease at a time when there is insufficient R‐gingipain expression by P. gingivalis .…”

Section: Resultsmentioning

confidence: 70%

“…Hanioka et al showed that Hb in gingival tissue may be up to 80% O 2 ‐saturated and hence any Hb entering the gingival sulcus or periodontal pocket following tissue bleeding will initially be largely oxygenated. For heme‐requiring organisms like P. gingivalis to use heme in the form of oxyHb they must be reliant upon mechanisms that guarantee the efficient conversion of oxyHb into the metHb form, from which heme may be more easily extracted . In this context, we observed that Hb extracted from S. gordonii zones of α‐hemolysis typically contained > 90% in the metHb form after 16 hours of aerobic growth, demonstrating that the organism can facilitate large‐scale oxidation of oxyHb.…”

Section: Resultsmentioning

confidence: 84%

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Potential role for Streptococcus gordonii‐derived hydrogen peroxide in heme acquisition by Porphyromonas gingivalis

Brown

Yates

Bielecki

et al. 2018

Molecular Oral Microbiology

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Streptococcus gordonii, an accessory pathogen and early colonizer of plaque, co-aggregates with many oral species including Porphyromonas gingivalis. It causes α-hemolysis on blood agar, a process mediated by H O and thought to involve concomitant oxidation of hemoglobin (Hb). Porphyromonas gingivalis has a growth requirement for heme, which is acquired mainly from Hb. The paradigm for Hb heme acquisition involves the initial oxidation of oxyhemoglobin (oxyHb) to methemoglobin (metHb), followed by heme release and extraction through the actions of K-gingipain protease and/or the HmuY hemophore-like protein. The ability of S. gordonii to mediate Hb oxidation may potentially aid heme capture during co-aggregation with P. gingivalis. Hemoglobin derived from zones of S. gordonii α-hemolysis was found to be metHb. Generation of metHb from oxyHb by S. gordonii cells was inhibited by catalase, and correlated with levels of cellular H O production. Generation of metHb by S. gordonii occurred through the higher Hb oxidation state of ferrylhemoglobin. Heme complexation by the P. gingivalis HmuY was employed as a measure of the ease of heme capture from metHb. HmuY was able to extract iron(III)protoporphyrin IX from metHb derived from zones of S. gordonii α-hemolysis and from metHb generated by the action of S. gordonii cells on isolated oxyHb. The rate of HmuY-Fe(III)heme complex formation from S. gordonii-mediated metHb was greater than from an equivalent concentration of auto-oxidized metHb. It is concluded that S. gordonii may potentially aid heme acquisition by P. gingivalis by facilitating metHb formation in the presence of oxyHb.

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“…The asaccharolytic nature of P. gingivalis is facilitated by its proteolytic capacity, which is vital for nutrition. As part of its function, proteolytic enzymes play a role in the acquisition of heme, a required component for growth, survival and virulence in the polymicrobial community of the heme‐limited host environment (reviewed by Smalley and Olczak and available in the accompanying virtual issue). The authors reviewed data that suggested that P. gingivalis uses a novel heme acquisition mechanism from hemoglobin.…”

mentioning

confidence: 99%

Porphyromonas gingivalis: the gift of community involvement

Fletcher

2018

Molecular Oral Microbiology

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Heme acquisition mechanisms of Porphyromonas gingivalis – strategies used in a polymicrobial community in a heme‐limited host environment

Cited by 101 publications

References 186 publications

Missing pieces of the puzzle to effectively control digital dermatitis

Missing pieces of the puzzle to effectively control digital dermatitis

Potential role for Streptococcus gordonii‐derived hydrogen peroxide in heme acquisition by Porphyromonas gingivalis

Porphyromonas gingivalis: the gift of community involvement

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