Nursing Pharmacology Chapter 33-34:  Anticancer Drugs

• Miscellaneous Anticancer Drugs: 

  • Bleomycin (Blenoxane)

    • Streptomyces verticillus AT291¹⁵

      Streptomyces verticillus AT291 Contributor:  Harada T & Hamada M "This strain produces bleomycin, a group of glycopeptide antitumor antibiotics, currently used in the chemotherapy of squamous cell carcinoma or malignant lymphoma. Bar, 1um." Copyright 2002-2019 The Society for Actinomycetes Japan, http://www.actino.jp/ http://www.actino.jp/DigitalAtlas/subwin.cgi?target=8-55

    • Overview:

      • The bleomycins consists of a group of peptide polyketides.

        • Polyketides are described as "natural compounds containing alternating carbonyl and methylene groups (β-polyketones), by genetically derived from repeated condensation of acetyl coenzyme A (via malonyl coenzyme A), and usually the compounds derived from them by further condensations. Considered by many to be synonymous with the less frequently used terms acetogenins and ketides".¹³ 

          • Examples of polyketides include:

            • Geldanamycin (antibiotic)¹⁴ 

            • Doxycycline (antibiotic)¹⁴ 

            • Erythromycin (antibiotic)¹⁴ 

            • Aflatoxin B1 (carcinogen)¹⁴ 

        • Fungal mycotoxins are often polyketides.¹⁴

      • Bleomycin exhibits both antineoplastic and antimicrobial properties.¹⁶ 

        • Bleomycin binds to guanine bases in DNA, a process associated with oxidation of Fe2+ to Fe 3+ (ferous iron to ferric iron).

        • Associated with this reaction is production of superoxides and hydroxyl radicals which induce single-and double-stranded DNA breaks and deletions.

        • The major bleomycin toxicity is pneumonitis (sub acute or chronic) which may progress to interstitial pneumonitis.¹⁶

      • As a group, the bleomycins are small glycopeptides.

        • A mixture of peptides (i.e. bleomycin) exhibits clinical activity against a number of cancers including:

          • Hodgkin's disease

          • Testicular cancer

          • Cervical cancer

          • Penile cancer

          • Malignant pleural effusions.

        • Bleomycin when combined with vinblastine, etoposide and cisplatin is typically curative for testicular germ cell tumors.

        • By contrast to many antineoplastic drugs, bleomycin has nearly no hematopoietic toxicity, although the agent is associated with pulmonary fibrosis.

    • Mechanism of Action:¹¹

      • Bleomycin when incubated in vitro in cultured cell systems induces both single-and double-strand DNA breaks.¹¹ 

        • Bleomycin is a cell-cycle specific drug  exerting its principal effects in the G2 and M phases.¹⁰

        • Following incubation with bleomycin, the consequences of DNA breaks include chromosomal gaps, fragments, and deletions.

          • Bleomycin also targets both RNA and lipids. RNA and lipids are affected by bleomycin and derivative oxygen radicals.

    • Absorption, Distribution, Biotransformation, Excretion:

      • Using IV serum concentration as a reference, bleomycin is 100% absorbed with the intramuscular route of administration.⁹ 

        • By comparison, subcutaneous administration results in about 70% absorption with intrapleural administration associated with 45% absorption.

      • Volume of distribution (Vd) following IV administration is about 17.5 L/m².

      • Bleomycin protein binding is estimated at about 1%.

      • The terminal half-life for administration (IV) is about two hours.

      • Following IV administration about 65% of the agent is excreted unchanged by the kidney; 40% for intrapleural administration.⁹  

      • Patients exhibiting reduced renal function may experience elevated bleomycin blood levels with attendant increased toxicity.¹⁸ 

        • Increased bleomycin toxicity may also be observed following cisplatin administration since cisplatin reduces bleomycin renal clearance.

      • Bleomycin is inactivated by the enzyme bleomycin hydrolase a.k.a. bleomycin hydrase (cytosolic cysteine proteinase).

        • This enzyme is widely distributed in most issues with the exception of lung and skin.¹⁸

    • Clinical Uses:

      • Bleomycin may be administered for treatment of various cancers, including:¹

        • Lymphoma

        • Malignant pleural effusions

        • Germ cell testicular and ovarian tumors

          • Bleomycin exhibits significant efficacy against testicular and ovarian germ cell tumors.

          • Furthermore, when bleomycin is combined with vinblastine and cisplatin or combined with etoposide and cisplatin, the combination protocol has been found often to be curative.

        • Hodgkin's disease

          • In Hodgkin's lymphoma bleomycin is a component of the:

            • ABVD protocol consisting of doxorubicin, bleomycin, vinblastine, dacarbazine as well as a part of the

            • BEACOPP regimen consisting of bleomycin, etoposide, doxorubicin, cyclophosphamide, vincristine, procarbazine, and prednisone.¹⁰

        • Squamous cell head and neck cancers^20,21 

    • Toxicities/Adverse Effects:

      • The major advantage of bleomycin compared to other anticancer chemotherapeutic drugs is limited myelosuppression.¹ 

        • As result of reduced myelosuppression, bleomycin confers advantages when employed in combination protocols.

        • Many cutaneous toxicities have been reported including:

          • Hyperpigmentation

          • Hyperkeratosis

          • Erythema

          • Ulceration

          • Raynaud syndrome (unusual side effect).

      • Application of topical steroids are useful in managing "flagellate dermatitis" which manifests as an itching erythema on arms, scalp, back and hands.¹

    • The most concerning adverse reaction to bleomycin is pulmonary toxicity which may begin with a simple cough that can evolve to life-threatening pulmonary fibrosis.

      • Pulmonary complications describing clinical pulmonary toxicity is not an uncommon, given that about 5%-10% of patients are so afflicted.

        • Furthermore, about 1% of these patients die.

      • 10% of patients exhibiting these pulmonary complications are those patients which have been treated with the higher cumulative dosing.

        • In children having received bleomycin, subclinical presentations a pulmonary toxicity may occur in up to 50% of individuals as assessed by spirometry.¹¹ 

          • Patients older than 70 are more likely to experience over toxicity especially if:

            • These individuals had prior chest radiotherapy or

            • If underlying renal dysfunction or emphysema was present or

            • If single doses >25 U/m2 were administered.¹¹

      • Clinical Evidence of Bleomycin Related Pulmonary Toxicity²⁰

        Attribution:  Image corresponds to Figure 65-1, reference 20 "The alveolus contains and exudate of fibrin, which is undergoing organization and is surrounded by alveolar macrophages. The large and atypical cells are markedly reactive alveolar type II pneumocytes. The alveolar wall itself is scarred with collagen deposition by the spindle-shade fibroblasts". Attribution: Dr. Darryl Carter, Prof. pathology, Yale University school of medicine.20

      •  

        Chest radiographs before (Left image) and after (right image) Bleomycin²⁰

        Attribution: Figure 65-2 reference 20. "Posteroanterior chest radiographs of a 56-year-old woman with cervical carcinoma". Left: Before. And Right: "after chemotherapy with the bleomycin-containing regimen. Note the decrease in lung volume and diffusely increased interstitial lung markings in the postchemotherapy radiograph".