Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0348321 (
Haemophilus
)
15,372
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Inherited deficiencies of complement components are associated with an increased risk of infection by encapsulated, high grade bacterial pathogens such as Streptococcus pneumoniae,
Haemophilus
influenzae type b and Neisseria meningitidis. Hence, the levels of antibodies to bacterial capsular polysaccharide antigens were measured using ELISA in 65 patients with inherited deficiencies covering the classical, alternative and terminal components of the complement cascade. Three of the four C3-deficient individuals studied were found to be almost totally deficient in specific anti-pneumococcal capsular polysaccharide (PCP) antibodies. These individuals had a history of recurrent pneumococcal sepsis. While single individuals with C1r, C2 and C1Inh deficiency were found to have low anti-PCP antibody levels, no other group of
complement deficiency
had significantly reduced anti-PCP antibody levels compared with 100 controls. Antibody levels to the other two polysaccharides were not significantly lower in the patient groups. These findings suggest that C3 may be able to provide a stimulatory signal to promote the production of anti-PCP antibodies.
...
PMID:An association between homozygous C3 deficiency and low levels of anti-pneumococcal capsular polysaccharide antibodies. 154 26
Freedom from infection is the result of many tiers of immune defenses that harmoniously interact to rid the body of microorganisms and their products, which are perceived as foreign. The ability to distinguish self from nonself is embodied in lymphocytes, which serve both effector and regulatory functions. Through the elaboration of cytokines and immunoglobulins, lymphocytes recruit nonspecific immune effectors, focus their activity, and modulate the intensity of the immune response. The phylogenetically more primitive complement system serves a similar function. Although congenital defects in immune function occur, by far the most common causes of immunodeficiency are acquired and occur in patients treated for cancer with myelosuppressive, cytolytic drugs and in transplant recipients treated with immunosuppressants. HIV infection and malnutrition are responsible for even larger numbers of immunocompromised patients worldwide. The nature and severity of infections that occur as a result of immunodeficiency vary as a function of the immune effector targeted and the degree to which it is dysfunctional. Granulocytopenia is well tolerated unless the absolute number of circulating cells falls below 500/mm3. Profound granulocytopenia and deficits of neutrophil function are often manifest as bacterial or fungal infections.
Complement deficiency
predisposes to infection with encapsulated bacteria such as pneumococci, meningococci, and
Haemophilus
influenzae. T cells play such a central role in the immune response that their derangement is associated with susceptibility to almost any potential pathogen. These patients often succumb to mortal opportunistic infections. Recent advances in hybridoma and recombinant DNA technology have provided us with immunologic reagents that enable us to manipulate the immune response. Anti-CD3 monoclonal antibody has permitted salvage of solid organ transplants in well-defined clinical settings. Monoclonal antibodies against TNF-alpha and lipopolysaccharide may alter the consequences of gram-negative sepsis. Alternatively, recombinant cytokines have been associated with clinically significant tumor regression in selected patients, presumably by enhancing the nascent antitumor immune response. The development of immunologic reagents such as these in concert with our growing understanding of the immune system may translate to improved care for immunocompromised patients.
...
PMID:Immune function and dysfunction. A primer for the radiologist. 157 Mar 93
The complement system consists of both plasma and membrane proteins. The former influence the inflammatory response, immune modulation, and host defense. The latter are complement receptors, which mediate the cellular effects of complement activation, and regulatory proteins, which protect host cells from complement-mediated injury. Complement activation occurs via either the classical or the alternative pathway, which converge at the level of C3 and share a sequence of terminal components. Four aspects of the complement cascade are critical to its function and regulation: (i) activation of the classical pathway, (ii) activation of the alternative pathway, (iii) C3 convertase formation and C3 deposition, and (iv) membrane attack complex assembly and insertion. In general, mechanisms evolved by pathogenic microbes to resist the effects of complement are targeted to these four steps. Because individual complement proteins subserve unique functional activities and are activated in a sequential manner,
complement deficiency
states are associated with predictable defects in complement-dependent functions. These deficiency states can be grouped by which of the above four mechanisms they disrupt. They are distinguished by unique epidemiologic, clinical, and microbiologic features and are most prevalent in patients with certain rheumatologic and infectious diseases. Ethnic background and the incidence of infection are important cofactors determining this prevalence. Although complement undoubtedly plays a role in host defense against many microbial pathogens, it appears most important in protection against encapsulated bacteria, especially Neisseria meningitidis but also Streptococcus pneumoniae,
Haemophilus
influenzae, and, to a lesser extent, Neisseria gonorrhoeae. The availability of effective polysaccharide vaccines and antibiotics provides an immunologic and chemotherapeutic rationale for preventing and treating infection in patients with these deficiencies.
...
PMID:Infectious diseases associated with complement deficiencies. 188 47
We analyzed the clinical and bacteriologic features of 12 episodes of spontaneous bacterial peritonitis (SBP) in 11 children (four boys, median age 5.5 years) with chronic liver disease. All patients had cirrhosis and ascites; four had hypersplenism, and one was asplenic. Symptoms included increasing abdominal distention, pyrexia, abdominal pain, gastrointestinal disturbance, and encephalopathy. Nine had rebound tenderness on abdominal palpation, and 12 had reduced bowel sounds. The most frequent organisms isolated from culture of ascitic fluid were Streptococcus pneumoniae (nine). Klebsiella (two), and
Haemophilus
influenzae (one); blood cultures grew identical organisms in nine. Seven patients died despite intensive antibiotic therapy. In the 3 months prior to onset of SBP, defective yeast opsonization and reduced serum concentration of C4 were found in all nine children tested; eight had reduced concentration of C3. Functional deficiency of all complement components was present in four tested within 1 to 5 months of the onset. In contrast, only eight of 59 cirrhotic children without SBP had low C3, and eight had defective yeast opsonization, although 35 had low C4 values. Four of the patients with SBP and low C3 and C4 concentrations had normal concentrations at the time of diagnosis of liver disease 2 to 5 years previously. Opsonization of type III pneumococci was reduced in sera from three patients who subsequently developed pneumococcal peritonitis. The incidence of SBP in children with chronic liver disease is similar to that in adults, as are the clinical features. Our observations suggest that
complement deficiency
induced by chronic liver disease may be important in the pathogenesis of SBP.
...
PMID:Spontaneous bacterial peritonitis in children with chronic liver disease: clinical features and etiologic factors. 399 46
