Intractable colitis associated with chronic granulomatous disease

doi:10.1099/jmm.0.46722-0

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

Case Report

Intractable colitis associated with chronic granulomatous disease

Yoshiaki Arimura¹, Akira Goto¹, Kentaro Yamashita¹, Takao Endo¹, Hideyuki Ikeda², Kaori Tanaka³, Hiroyuki Tsutsumi³, Yasuhisa Shinomura¹ and Kohzoh Imai¹

First Department of Internal Medicine¹ , Department of Surgical Pathology² and Department of Pediatrics³ , Sapporo Medical University, S-1, W-16, Chuo-ku, Sapporo 060-8543, Japan

Correspondence
Yoshiaki Arimura
arimura{at}sapmed.ac.jp

Received 15 May 2006
Accepted 13 July 2006

The case of a 20-year-old Japanese man, diagnosed as havingautosomal recessive chronic granulomatous disease (CGD), whowas being treated with corticosteroids for intractable unclassifiedcolitis, is described. He died from multiple organ failure followingdisseminated intravascular coagulation secondary to disseminatedvaricella-zoster virus (VZV) infection. He was diagnosed asan index case of CGD when 2 years old, was inoculated againstVZV at the age of 5 years and had had an unremarkable coursefor 19 years. He was admitted to hospital because of athird episode of recurrent bloody diarrhoea. Clinical remissionfor each episode was achieved by intravenous corticosteroidtherapy. Unclassified colitis associated with CGD was diagnosedbased on a colonic biopsy demonstrating characteristic macrophageswith lipofuscin deposits. From a treatment viewpoint, idiopathicinflammatory bowel disease (IBD) should be differentiated fromsecondary IBD occurring in CGD, in which immunosuppressive drugsincluding corticosteroids, still the mainstay of IBD treatment,should be avoided.

Abbreviations: CD, Crohn's disease; CGD, chronic granulomatous disease; GI, gastrointestinal; IBD, inflammatory bowel disease; UC, ulcerative colitis.

Introduction

TOP
Introduction
Case report
Discussion
REFERENCES

Chronic granulomatous disease (CGD) is an X-linked (approx.65 % of CGD patients result from defects in gp91^phox) or anautosomal recessive [the remainder are due to defects in p47^phox(30 %), p67^phox (<5 %) or p22^phox (<5 %)] disorder typifiedby a defect of phagocytic respiratory bursts (Winkelstein et al., 2000).Gastrointestinal (GI) manifestations, including gastric outletobstruction and colitis, occur in up to 25–50 % of CGDpatients (Schäppi et al., 2003). The prevalence and severityof GI involvement in X-linked patients has been reported tobe significantly higher than in autosomal recessive patients.In a recent report on a cohort of 140 patients with CGD, all46 patients with GI involvement had abdominal pain and weredependent on treatment with corticosteroids. However, 71 % relapsedafter discontinuation of corticosteroids and required retreatment(Marciano et al., 2004).

Varicella-zoster virus (VZV) is now recognized as one of eightherpesviruses that infect humans. Varicella (chickenpox) representsprimary infection with VZV, while zoster (shingles) resultsfrom reactivation of latent virus. An association between corticosteroiduse and severe varicella has been recognized for decades, althoughmost reports have come from relatively small retrospective seriesand case reports (Dowell & Bresee, 1993). The largest, albeitretrospective, study to date of varicella in children with acutelymphoblastic leukaemia reported by Hill et al. (2005) providesconvincing evidence that prednisone therapy during the VZV incubationperiod significantly increases the risk of developing severevaricella infection. In addition, an older age is associatedwith more severe infection.

We describe a CGD patient with severe colitis who was treatedwith corticosteroids and eventually developed a lethal disseminatedvaricella infection. We also describe genome analysis of VZVfrom this patient.

Case report

TOP
Introduction
Case report
Discussion
REFERENCES

A 20-year-old Japanese man was admitted to our hospital becauseof recurrent bloody diarrhoea. When 2 years old he wasdiagnosed as an index case of CGD because of furunculosis, anegative nitroblue tetrazolium test, and an unremarkable familyhistory. An autosomal recessive trait was suggested based onabsence of a mutation of gp91^phox. Other gene states remainunknown. He had been inoculated against VZV at the age of 5 years,was receiving a prophylactic sulfamethoxazole–trimethoprimmixture and antimycotic drugs and his course had been uneventfuluntil about a year before referral.

Bloody diarrhoea first began at the age of 19 years. Unclassifiedcolitis associated with CGD was diagnosed (Fig. 1), andpathological examination of colonic biopsies revealed characteristicpigmented macrophages with lipofuscin deposits (Fig. 1f)(Levine et al., 2005). The bloody diarrhoea quickly resolvedwith intravenous prednisone (60 mg per day) infusion afterfailure of 5-aminosalicylate. Four months after the initialepisode when oral prednisone was being tapered to 7.5 mgper day, his diarrhoea recurred, but remitted with 60 mgintravenous prednisone. It flared again during tapering of prednisoneto 17.5 mg per day, and he was admitted to our hospital6 months after the second relapse.

View larger version (117K):
[in this window]
[in a new window]

Fig. 1. Barium enema study (a), colonoscopic findings (b–e) and representative haematoxylin and eosin section of colonic biopsy specimens (f). (a) Diffusely damaged mucosa is seen along with a cuff-button ulcer in the proximal part of the descending colon; longitudinal ulcers are seen distally. (b) Yellowish white spot reflecting cryptitis or crypt abscesses; (c) indigo carmine dye spray reveals diffuse small dimpling. (d) Shallow geographic ulcers with inflamed intervening mucosa. (e) Deep discrete ulcers with cobblestone-like appearance. (f) Fine, granular, golden-brown to yellow pigmented macrophages with lipofuscin that do not stain for iron are indicated by red arrowheads.

He was having eight bloody diarrhoeas each day, but examinationwas unrevealing except for slight lower abdominal tenderness.Clinical remission was once again achieved with 40 mg intravenousprednisone per day for 2 weeks. On the 35th hospital day,while receiving 35 mg prednisone per day, he suddenly experiencedsevere backache and developed an atypical haemorrhagic vesiculopapularrash on his face and anterior chest. Broad-spectrum antibioticswere started immediately. Next day, because of progressive thrombocytopenia,disseminated intravascular coagulation (DIC) due to cryptogenicinfection was strongly suspected and antifungal and antiviral(acyclovir) agents, gamma-globulin and gabexate mesilate wereadministered empirically. On the 37th day, severe DIC (plateletcount 56 000 µl^–1, fibrinogen <50 mg dl^–1,FDP >150 mg dl^–1) and liver dysfunction (AST2228 IU l^–1 and ALT 1254 IU l^–1)ensued and lethal haemorrhagic shock developed.

Autopsy revealed that the immediate cause of death was multipleorgan failure due to disseminated VZV infection. Intranuclearinclusion bodies or multinucleated giant cells suggesting VZVinfection were detected in his colon, skin, oesophagus, liver,spleen, pancreas, adrenal glands and bone marrow. Severe liverdysfunction was caused by so-called varicella hepatitis. VZVgenome analysis employing PCR-RFLP revealed a wild-type VZVinfection (varicella) without reactivation of the latent vaccinationstrain (zoster) (Fig. 2).

View larger version (80K):
[in this window]
[in a new window]

Fig. 2. VZV genome analysis employing PCR-RFLP. Each amplicon of VZV genomic PCR was digested by BssHII and NaeI. Lanes: 1, Oka vaccine strain; 2, wild-type strain; 3, size marker; 4, colonic DNA extracted from the patient. The digested band length from the wild-type strain is identical to that from the patient's DNA (upper arrow), and the lower arrow indicates the digested shorter band from the Oka vaccine strain.

	Discussion

TOP Introduction Case report Discussion REFERENCES

CGD patients are not susceptible to VZV infection but are susceptibleto catalase-positive bacteria or fungal infections because therespiratory burst in phagocytes producing hydrogen peroxideis impaired and catalase-positive organisms are resistant toself-produced hydrogen peroxide. Therefore, this patient receivedlife-long sulfamethoxazole–trimethoprim and antifungalchemoprophylaxis (Gallin et al., 2003). Since prednisone therapysignificantly increases the risk of severe varicella infectiondeveloping in children with acute lymphoblastic leukaemia (Hill et al., 2005),there may be implications for other diseases that are treatedwith corticosteroids, in addition to CGD with colitis. Althoughour patient had been inoculated against VZV in his childhood,and the source of exposure could not be identified, VZV genomeanalysis revealed varicella with a wild-type strain (Fig. 2

).This is not surprising because reinfection is well known tooccur despite the presence of specific humoral and cell-mediatedimmunity to VZV at the time of exposure, provided the virusload is high enough to overwhelm immune defences (Martin et al., 1994).Furthermore, several possible risk factors for the occurrenceof varicella reinfections have been suggested: (1) age lessthan 12 months, (2) mild initial first infections and (3)genetic factors suggested by a familial occurrence of repeatvaricella infections (Quinlivan & Breuer, 2006). The firsttwo of these factors may be associated with a poor memory cellresponse, which is insufficient to confer protection againsta second infection. Unfortunately, it remains unknown whetheror not our patient had any of the risk factors mentioned. Becausethe wild-type strain is more virulent than the recurrent vaccinestrain, and despite adequate treatment with acyclovir, deathwas probably inevitable in this patient given his backgroundof immunocompromised status, CGD and high-dose corticosteroidtherapy against intractable colitis.

Since CGD was first described, the colitis has been thoughtto be a variant of Crohn's colitis. In the present case, however,bloody diarrhoea was predominant among the symptoms of colitis,suggesting an association with ulcerative colitis (UC) ratherthan Crohn's disease (CD). There were also overlapping findingsbetween UC and CD on the imaging studies undertaken (Fig. 1):the barium enema suggested fulminant UC rather than Crohn'scolitis (Fig. 1a); and colonoscopic findings were characteristicof ulcerative colitis (Fig. 1b–d) with some featuresof CD (Fig. 1e). ‘Indeterminate colitis' originallyreferred to 10–15 % of cases of inflammatory bowel disease(IBD) in which there was initial difficulty in distinguishingbetween UC and CD in the colectomy specimen, but which usuallyevolved to either definite UC or CD on follow up. Pathologicalexamination of colonic biopsy specimens revealed pigmented macrophageswith lipofuscin deposits (Fig. 1f), which are reportedto be highly suggestive of colitis associated with CGD (Levine et al., 2005).Considering all the features, unclassified colitis associatedwith CGD should be diagnosed in this case.

Mutations of NOD2/CARD15, which functions as an intracellularpattern-recognition molecule against exogenous pathogens, havebeen reported to be associated with genetic susceptibility toCD (Hugot et al., 2001). Disorders characterized by neutrophildysfunction, such as CGD, glycogen storage disease 1B and Chédiak–Higashisyndrome, develop granulomatous colitis mimicking Crohn's colitis(Lekstrom-Himes & Gallin, 2005). Collectively, a possiblelink between defective innate immunity and colitis in the abovediseases has misled us into treating the colitis along similarlines to CD, resulting in 5-aminosalicylate and corticosteroidsbecoming established as the first line treatment (Chin et al., 1987).From our tragic experience, intractable unclassified colitisassociated with CGD should be specifically treated, and immunosuppressivedrugs including corticosteroids, which remain the mainstay ofCrohn's treatment, should be avoided. In contrast, immunologicalrestorative or potentiative strategies, such as granulocyte/-macrophagecolony stimulating factor (G/M-CSF) (Wang et al., 2005), bonemarrow transplantation (Güngör et al., 2005) or genetherapy, should be more appropriate. Determination of the optimaltreatment of colitis secondary to CGD is an urgent goal.

ACKNOWLEDGEMENTS

We would like to thank Dr Peter M. Olley, Emeritus Professor,for English language assistance.

REFERENCES

TOP
Introduction
Case report
Discussion
REFERENCES

Chin, T. W., Stiehm, E. R., Falloon, J. & Gallin, J. I. (1987). Corticosteroids in treatment of obstructive lesions of chronic granulomatous disease. J Pediatr 11, 349–352.

Dowell, S. F. & Bresee, J. S. (1993). Severe varicella associated with steroid use. Pediatrics 92, 223–228.[Abstract/Free Full Text]

Gallin, J. I., Alling, D. W., Malech, H. L. & 8 other authors (2003). Itraconazole to prevent fungal infections in chronic granulomatous disease. N Engl J Med 348, 2416–2422.[Abstract/Free Full Text]

Güngör, T., Halter, J., Klink, A., Junge, S., Stumpe, K. D. M., Seger, R. & Shanz, U. (2005). Successful low toxicity hematopoietic stem cell transplantation for high-risk adult chronic granulomatous disease patients. Transplantation 79, 1596–1606.[CrossRef][Medline]

Hill, G., Chauvenet, A. R., Lovato, J. & McLean, T. W. (2005). Recent steroid therapy increases severity of varicella infections in children with acute lymphoblastic leukemia. Pediatrics 116, 525–529.

Hugot, J.-P., Chamaillard, M., Zouali, H. & 17 other authors (2001). Association of NOD2 leucine-rich repeat variants with susceptibility to Crohn's disease. Nature 411, 599–603.[CrossRef][Medline]

Lekstrom-Himes, J. A. & Gallin, J. I. (2005). Immunodeficiency diseases caused by defects in phagocytes. N Engl J Med 343, 1703–1714.

Levine, S., Smith, V. V., Malone, M. & Sebire, N. J. (2005). Histopathological features of chronic granulomatous disease (CGD) in childhood. Histopathology 47, 508–516.[CrossRef][Medline]

Marciano, B. E., Rosenzweig, S. D., Kleiner, D. E. & 7 other authors (2004). Gastrointestinal involvement in chronic granulomatous disease. Pediatrics 114, 462–468.[Abstract/Free Full Text]

Martin, K. A., Junker, A. K., Thomas, E. E., Van Allen, M. I. & Friedman, J. M. (1994). Occurrence of chickenpox during pregnancy in women seropositive for varicella-zoster virus. J Infect Dis 170, 991–995.[Medline]

Quinlivan, M. & Breuer, J. (2006). Molecular studies of Varicella zoster virus. Rev Med Virol 16, 225–250.[CrossRef][Medline]

Schäppi, M., Klein, N. J., Lindley, K. J., Rampling, D., Smith, V. V., Goldbaltt, D. & Milla, P. J. (2003). The nature of colitis in chronic granulomatous disease. J Pediatr Gastroenterol Nutr 36, 623–631.[CrossRef][Medline]

Wang, J., Mayer, L. & Cunningham-Rundles, C. (2005). Use of GM-CSF in the treatment of colitis associated with chronic granulomatous disease. J Allergy Clin Immunol 115, 1092–1094.[CrossRef][Medline]

Winkelstein, J. A., Marino, M. C., Johnston, R. B., Jr & 11 other authors (2000). Chronic granulomatous disease: report on a national registry of 368 patients. Medicine 79, 155–169.[CrossRef][Medline]

This article has been cited by other articles:

J. Roesler
Important role of corticosteroids in chronic granulomatous disease
J. Med. Microbiol., September 1, 2007; 56(9): 1253 - 1253.
[Full Text] [PDF]

Y. Arimura, A. Goto, K. Yamashita, T. Endo, H. Ikeda, K. Tanaka, H. Tsutsumi, Y. Shinomura, and K. Imai
Authors' reply to 'Important role of corticosteroids in chronic granulomatous disease'
J. Med. Microbiol., September 1, 2007; 56(9): 1254 - 1254.
[Full Text] [PDF]

This Article

Abstract

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Citation Map

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via CrossRef

Citing Articles via Google Scholar

Google Scholar

Articles by Arimura, Y.

Articles by Imai, K.

Search for Related Content

PubMed

PubMed Citation

Articles by Arimura, Y.

Articles by Imai, K.

Agricola

Articles by Arimura, Y.

Articles by Imai, K.

				Y. Arimura, A. Goto, K. Yamashita, T. Endo, H. Ikeda, K. Tanaka, H. Tsutsumi, Y. Shinomura, and K. Imai Authors' reply to 'Important role of corticosteroids in chronic granulomatous disease' J. Med. Microbiol., September 1, 2007; 56(9): 1254 - 1254. [Full Text] [PDF]