MYCOPLASMA and Ureaplasma Dr. R.K.Kalyan Associate Professor Microbiology Dept. KGMU

MYCOPLASMA Smallest free-living micro organisms, lack cell wall. Size varies from spherical shape(125-250nm to longer branching filaments 500-1000 nm in size. Many can pass through a bacterial filter. 1st member of this group – isolated by Nocard & Roux (1898) – caused bovine pleuropneumonia. Later, many similar isolates were obtained from animals, human beings, plants & environmental sources – called as “pleuropneumonia like organisms”(PPLO).

MYCOPLASMA Eaton (1944) first isolated the causative agent of the disease in hamsters and cotton rates. Also known as Eaton agent. 1956- PPLO replaced by Mycoplasma. Myco : fungus like branching filaments Plasma : plasticity highly pleomorphic – no fixed shape or size - Lack cell wall.

Morphology and Physiology Small genome size (M. pneumoniae is ~800 Kbp) Require complex media for growth Facultative anaerobes Except M. pneumoniae - strict aerobe No cell wall means these are resistant to penicillins, cephalosporins and vancomycin, etc. Grow slowly by binary fission Doubling time can be as long as 16 hours, extended incubation needed

Morphology and Physiology cont’ Require complex media for growth, including sterols Major antigenic determinants are glycolipids and proteins, some cross reaction with human tissues. Requirements for growth allow one to differentiate between species

Morphology and Physiology cont’ M. pneumoniae - glucose M. hominis - arginine U. urealyticum - urea (buffered media due to growth inhibition by alkaline media) M. genitalium - difficult to culture

Mycoplasmas of Humans Parasitic Established pathogens: M. pneumoniae Presumed pathogens: M. hominis, U. urealyticum Non pathogenic: M. orale, M. buccale, M. genitalium, M. fermentans Saprophytic – present mainly on skin & in mouth.

Pathogenicity Produce surface infections – adhere to the mucosa of respiratory, gastrointestinal & genitourinary tracts with the help of adhesin. Two types of diseases: Atypical Pneumonia Genital infections

Pathogenicity cont’ Adherence P1 pili (M. pneumoniae) Movement of cilia ceases (ciliostasis) Clearance mechanism stops resulting in cough Toxic metabolic products Peroxide and superoxide Inhibition of catalase Immunopathogenesis Activate macrophages Stimulate cytokine production Superantigen (M. pneumoniae) Inflammatory cells migrate to infection and release TNF-a then IL-1 and IL-6

Pathogenicity cont’

Mycoplasmal pneumonia Also called Primary Atypical Pneumonia/ Walking pneumonia. Seen in all ages Incubation period: 1-3 wks Transmission: airborne droplets of nasopharyngeal secretions, close contacts (families, military recruits).

Mycoplasmal pneumonia Gradual onset with fever, malaise, chills, headache & sore throat. Severe cough with blood tinged sputum (worsens at night) Complications: bullous myringitis & otitis, meningitis, encephalitis, hemolytic anemia

Diseases Caused by Mycoplasma Organism Disease M. pneumoniae Upper respiratory tract disease, tracheobronchitis, atypical pneumonia, (chronic asthma?) M. hominis Pyelonephritis, pelvic inflammatory disease, postpartum fever M. genitalium Nongonococcal urethritis U. urealyticum Nongonococcal urethritis, (pneumonia and chronic lung disease in premature infants?)

Clinical Syndrome - M. pneumoniae Incubation - 2-3 weeks Fever, headache and malaise Persistent, dry, non-productive cough Respiratory symptoms Patchy bronchopneumonia acute pharyngitis may be present Organisms persist Slow resolution Rarely fatal Note: Muscle pain and GI symptoms usually not present

Epidemiology - M. pneumoniae Occurs worldwide No seasonal variation Proportionally higher in summer and fall Epidemics occur every 4-8 year Spread by aerosol route (Confined populations). Disease of the young (5-20 years), although all ages are at risk

Laboratory Diagnosis - M. pneumoniae Microscopy Difficult to stain This process can help eliminate other organisms Culture (definitive diagnosis) Sputum (usually scant) or throat washings Special transport medium needed Must suspect M. pneumoniae May take 2-3 weeks or longer, 6 hour doubling time with glucose and pH indicator included Incubation with antisera to look for inhibition.

Laboratory Diagnosis Specimens – throat swabs, respiratory secretions. Microscopy – Highly pleomorphic, varying from small spherical shapes to longer branching filaments. 2. Gram negative, but better stained with Giemsa,Dienes’ stain, crystal-fast violet, orcein or fluorochroming with nucleic acid stain as acredine orange

Laboratory Diagnosis Isolation of Mycoplasma (Culture) – Semi solid enriched medium containing 20% horse or human serum, yeast extract & DNA. Penicillium & Thallium acetate are selective agents. (serum – source of cholesterol & other lipids) 2. Incubate aerobically for 7 -12 days with 5–10% CO2 at 35-37°C. (temp range 22- 41°C, parasites 35- 37°C, saprophytes – lower temp)

Laboratory Diagnosis 3. Typical “fried egg” appearance of colonies - Central opaque granular area of growth extending into the depth of the medium, surrounded by a flat, translucent peripheral zone. 4. Colonies best seen with a hand lens after staining with Diene’s method. 5. Produce beta hemolytic colonies, can agglutinate guinea pig erythrocytes.

Dr Ekta,Microbiology, GMCA Fried egg colonies Dr Ekta,Microbiology, GMCA

Except for M. pneumoniae colonies which have a granular appearance, described as being mulberry shaped

Identification of Isolates Growth Inhibition Test – inhibition of growth around discs impregnated with specific antisera. Immunofluorescence on colonies transferred to glass slides. Molecular diagnosis PCR-based tests are being developed and these are expected to be the diagnostic test of choice in the future. These should have good sensitivity and be specific

Identification of Isolates Serological diagnosis Specific tests – IF, HAI 2. Non specific serological tests – cold agglutination tests (Abs agglutinate human group O red cells at low temperature, 4C). 1:32 titer or above is significant.

Ureaplasma urealyticum Strains of mycoplasma isolated from the urogenital tract of human beings & animals. Form very tiny colonies - hence called T strain or T form of mycoplasmas. Hydrolyzes urea

Genital Infections Caused by M. hominis & U. urealyticum Transmitted by sexual contact Men - Nonspecific urethritis, proctitis, balanoposthitis & Reiter’s syndrome Women – acute salpingitis, PID, cervicitis, vaginitis Also associated with infertility, abortion, postpartum fever, chorioamnionitis & low birth weight infants

Mycoplasma & HIV infection Severe & prolonged infections in HIV infected & other immunodeficient individuals

Mycoplasma as cell culture contaminants Contaminates continuous cell cultures maintained in laboratories Interferes with the growth of viruses in these cultures. Mistaken for viruses. Eradication from infected cells is difficult.

Treatment and Prevention M. pneumoniae Tetracycline in adults (doxycycline) or erythromycin (children) Newer fluoroquinolones (in adults) Resistant to cell wall synthesis inhibitors. Prevention Avoid close contact Isolation is not practical due to length of illness No vaccine, although attempted

Treatment Tetracycline, Erythromycin & Clarithromycin – drug of choice Resistant to antibiotics which interfere with bacterial cell wall synthesis. Newer macrolides & quinolones being used now.

M. hominis, M. genitalium and U. urealyticum Treatment Tetracycline or erythromycin U. urealyticum is resistant to tetracycline M. hominis is resistant to erythromycin and sometimes to tetracyclin, Clindamycin for these resistant strains Prevention Abstinence or barrier protection No vaccine

POINTS TO BE REMEMBER Cold agglutination test Mycoplasma Cell culture contamination Ureaplasma hydrolysis of urea Primary atypical/ walking pneumonia Genital infections Mycoplasma No cell wall Pleomorphism Fried egg colonies Diene’s stain

Dienes stain Azure II Methylene blue Maltose Na2co3 Benzoic acid DW

Standard solid media PPLO agar base without crystal violet ph 7.8 +Yeast extract +Horse serum +Sodium deoxy ribonucleate +Thallous acetate solution +K2HPO4, Penicillin solution

Liquid medium PPLO agar base without crystal violet ph 7.8+Yeast extract +Horse serum +Sodium deoxyribonucleate +Thallous acetate solution+K2HPO4, Penicilin solution + Glucose serum + Phenol red +Methylene blue. Biphasic medium: 1. solid phase- Standard solid medium 2. Liquid phase- Liquid medium.

MCQ Q.1. Which of the following bacteria was named as Eaton agent Acholeplasma Mycoplasma hominis Mycoplasma pneumoniae Ureaplasma urealyticum Q.2. Dienes method is used to examine colonies of Bordetella Burkholderia Mycoplasma Helicobacter

Q.3.Which of the following bacteria is/are associated with nongonococcal urethritis ? Mycoplasma hominis Ureaplasma urealyticum Chlamydia trachomatis All of the above Q.4.Which is the causative agent of primary atypical pneumoniae Influenza virus Streptococcus Pneumoniae Haemophilus influenzae Mycoplasma pneumoniae

Q.5. Which of the following can hydrolyse urea Mycoplasma Acholeplasma Ureaplasma Escherichia Q.6. Which of the following bacteria is/are also named T strain ? Mycoplasma pneumoniae Mycoplasma hominis Ureaplasma urealyticum

Q.7.Postpartum fever due to Mycoplasma hominis is treated with Penicillin G A second generation Cephalosporins Vancomycin Tetracyclines Q.8.A distinguishing feature of human mycoplasma species is that they: Stain well with Giemsa, but not by Gram stain Contain no bacterial peptidoglycan Are not immunogenic because they mimic host cell membrane components Cannot be cultivated in vitro

Q.9. which of the following tests can be used to identify Mycoplasma pneumoniae ? Haemadsorption test Tetrazolium reduction test Inhibition of growth by specific antisera All of the above Q.10. Which of the following bacteria shows fried egg colonies on culture media ? Helicobacter Mycobacterium tuberculosis Bordetella Mycoplasma

ANSWERS OF MCQ Q.1- C Q.2- C Q.3- d Q.4- d Q.5- C Q.6- C Q.7- d Q.8- b Q.9- d Q.10- d

! Thanks for attention !