Protein kinase inhibitor explained

A protein kinase inhibitor (PKI) is a type of enzyme inhibitor that blocks the action of one or more protein kinases. Protein kinases are enzymes that phosphorylate (add a phosphate, or PO4, group) to a protein and can modulate its function.

The phosphate groups are usually added to serine, threonine, or tyrosine amino acids on the protein. Most kinases act on both serine and threonine, the tyrosine kinases act on tyrosine, and a number (dual-specificity kinases) act on all three. There are also protein kinases that phosphorylate other amino acids, including histidine kinases that phosphorylate histidine residues.

Phosphorylation regulates many biological processes, and protein kinase inhibitors can be used to treat diseases due to hyperactive protein kinases (including mutant or overexpressed kinases in cancer) or to modulate cell functions to overcome other disease drivers.

Clinical use

Kinase inhibitors such as dasatinib are often used in the treatment of cancer and inflammation.[1]

Some of the kinase inhibitors used in treating cancer are inhibitors of tyrosine kinases.[2] The effectiveness of kinase inhibitors on various cancers can vary from patient to patient.[3]

Examples

There are several drugs launched or in development that target protein kinases and the receptors that activate them:

Name Target Company Class FDA approval - Not yet[4] - - - - Monoclonal antibody 2006 Mar (SCCHN) - Small molecule 2015 Nov (Advanced melanoma with BRAF mutation) in Combination with Vemurafenib (BRAF) - Small molecule 2011 Aug (NSCLC with Alk mutation) - Small molecule 2012 Nov (Metastatic medullary thyroid cancer) - 2018 Non-small cell lung cancer
multiple targets Small molecule 2006 - Small molecule Orphan Drug Designations (Neuroblastoma 12/14, Colorectal cancer, NSCLC, both 2/15) - Small molecule 2018 Breakthrough Therapy[5] - Small molecule 2004 - Small molecule Not yet[6] - Small molecule 2003 non-small cell lung cancer (NSCLC) - Small molecule 2013 - Small molecule 2001 (CML), 2002 (GIST) [7] - Small molecule 2007 (HER2+ Breast) - Small molecule 2015 (thyroid), 2016 (renal) - ? Small molecule Not yet, possibly abandoned - Small molecule 2007 - Small molecule 2009 (RCC) - 2004 (AMD) - Small molecule 2011 (Myelofibrosis) - multiple targets Small molecule 2005 Dec (kidney) - multiple targets Small molecule 2006 Jan (RCC & GIST) - Src, others Small molecule Not approved - Small molecule 2020 - Small molecule 2011 - Small molecule 2011 Aug (Advanced melanoma with BRAF mutation)

Comparison of available agents

Comparison of available agents used as Human Medicines! Drug !! Sponsor !! Target !! Indications !! Major toxicities !! Black box warning(s) !! MS
[8] [9] !! D !! FR !! PC (AU)
[10] !! PC (US)
!! FDA AD !! EMA AD[11] !! TGA AD[12]
ErbB family (irreversible) Hepatotoxicity, kidney failure, electrolyte anomalies (mostly hypokalaemia) and interstitial lung disease (uncommon). None - +++ - C D 12 July 2013 25 September 2013 7 November 2013
Advanced colorectal cancer and wet macular degeneration. GI perforation, haemorrhage and hepatotoxicity None +++/++ +++/++ - D C 21 November 2011 22 November 2012 2 April 2013
Thyroid dysfunction, blood clots, haemorrhages, reversible posterior leucoencephalopathy syndrome (uncommon), GI perforation/fistula (uncommon) and electrolyte disturbances None ++ ++ - D D 27 January 2012 3 September 2012 26 July 2012
Hypertension, GI perforation, ovarian failure, GI haemorrhage, blood clots, electrolyte anomalies, ileus, congestive heart failure, osteonecrosis of the jaw (rare), necrotising fasciitis (rare), gallbladder perforation (rare) GI perforation, haemorrhage and wound healing complications ++ ++/+ - D C 26 February 2004 12 January 2005 24 February 2005
Second-line Chronic myelogenous leukaemia treatment Lower respiratory tract infection, anaphylaxis (uncommon), electrolyte anomalies, cardiovascular effects (especially QT interval prolongation), GI haemorrhage (uncommon), hepatotoxicity and kidney failure. None ++/+ +++ + N/A D 4 September 2012 27 March 2013 N/A
Electrolyte anomalies, hypotension, peripheral sensory neuropathy, GI perforation/fistula, reversible posterior leucoencephalopathy syndrome (rare), blood clots and osteonecrosis. GI haemorrhage, perforation and fistula ++ +++/++ - N/A D 29 November 2012 N/A N/A
Anaplastic lymphoma kinase-positive non-small cell lung cancerPeripheral neuropathy, electrolyte anomalies, blood clots, kidney cyst, liver failure, interstitial lung disease and cardiotoxicity (probably QT interval prolongation). None ++ ++ ++/+ D D 26 August 2011 23 October 2012 27 September 2013
ErbB family (irreversible) Diarrhea, rash, fatigue. None N/A N/A N/A N/A N/A 27 September 2018 2 April 2019 N/A -
Second-line Chronic myelogenous leukaemia treatment Electrolyte disturbances, haemorrhages, fluid retention, heart failure (uncommon), myocardial infarction (uncommon) and pulmonary hypertension None +/- ++ ++ D D 28 June 2006 20 November 2006 15 January 2007
GI bleeds (rare), liver failure (rare), hepatorenal syndrome (rare), EGFR skin reactions and interstitial lung disease(uncommon). None - +++/++ - C D 18 November 2004 19 September 2005 30 January 2006
Advanced non-small cell lung cancer with EGFR mutation Haemorrhage, EGFR skin reactions (including Stevens–Johnson syndrome [SJS; rare] and toxic epidermal necrolysis[TEN; rare]), liver failure (rare), hepatitis (uncommon), pancreatitis (uncommon) and interstitial lung disease (uncommon).N/A- +++/++ - C D 5 May 2003 (discontinued) 24 June 2009 7 September 2011
First-line chronic myelogenous leukaemia treatment Haemorrhage, electrolyte disturbances, cardiotoxicity (uncommon), kidney failure (uncommon), GI perforation, hepatotoxicity (rare) and rhabdomyolysis (rare) N/A +++/++ + ++ D D 10 May 2001 7 November 2001 13 August 2001
HER2-positive advanced breast cancer Hypersensitivity (rare), hepatotoxicity (uncommon), interstitial lung disease (uncommon) and cardiovascular problems. Hepatotoxicity - ++ - C D 13 March 2007 10 June 2008 28 June 2007
Second-line chronic myelogenous leukaemia treatment Hyperglycaemia, electrolyte disturbances, fluid retention, pancreatitis and cardiotoxicity (mostly QT interval prolongation). QT interval prolongation and electrolyte anomalies ++ + + D D 29 October 2007 2 June 2009 17 January 2008
Electrolyte anomalies, anaphylaxis, blood clots, sepsis and pulmonary fibrosis. Dermatologic reactions and infusion reactions - + + C C 10 October 2006 3 December 2007 20 March 2012
Cardiotoxicity (mostly QT interval prolongation but also heart failure [uncommon]), blood clots, haemorrhage, thyroid anomalies (mostly hypothyroidism), blood glucose anomalies (hypoglycaemia and hyperglycaemia), torsades de pointes (uncommon), hepatotoxicity (uncommon), GI perforation/fistula (uncommon) and reversible posterior leucoencephalopathy syndrome (rare). Hepatotoxicity - ++ - D D 19 October 2009 14 June 2010 30 June 2010
Hypertension, cataracts, haemorrhage, vitreous floater, transient ischaemic attack, retinal detachment, diabetes mellitus and urinary tract infection None - +/- ++ N/A B 17 December 2004 31 January 2006 N/A
Hypertension, pneumonia, urinary tract infection, sepsis, GI haemorrhage, liver failure, cardiovascular problems and blood clots. Liver failure, blood clots and hepatotoxicity ++ + + N/A D 14 December 2012 1 July 2013 N/A
Wet macular degeneration and macular oedema (including diabetic macular oedema) Haemorrhage (conjunctival, vitreous and injection site), increased intraocular pressure, vitreous detachment and retinal degeneration. None - - - D C 10 August 2012 22 January 2007 27 February 2007
Advanced colorectal cancer, gastrointestinal stromal tumoursElectrolyte anomalies, hepatotoxicity, hypotension, haemorrhage, GI fistula, thyroid problems and blood clots. Hepatotoxicity +++/++ ++ - D D 27 September 2012 26 August 2013 29 November 2013
Hypercholesterolaemia, urinary tract infection, herpes zoster, tuberculosis and hepatotoxicity None +++ - - C C 16 November 2011 23 August 2012 3 July 2013
VEGFR, PDGFR, BRAF, c-KIT, etc. Hypertension, peripheral neuropathy, thyroid dysfunction, cardiovascular problems (e.g. QT interval prolongation, heart attack or heart failure), electrolyte anomalies, GI perforation (uncommon), pancreatitis (uncommon), hepatitis (rare), nephrotic syndrome (rare) and reversible posterior leucoencephalopathy syndrome (rare) None ++ ++ - D D 20 December 2005 19 July 2006 27 September 2006
Renal cell carcinoma, GI stromal tumour, pancreatic neuroendocrine tumour Blood clots, cardiovascular problems (mostly heart failure or left ventricular dysfunction but also QT interval prolongation and torsades de pointes), thyroid dysfunction, electrolyte anomalies, skin reactions (including SJS [rare] and TEN [rare]), liver failure (uncommon) and pancreatitis (uncommon). Hepatotoxicity + ++ + D D 26 January 2006 19 July 2006 14 September 2006
Infections and malignancies Serious infections and malignancies - - - N/A C 6 November 2012 N/A; refused 26 April 2013 N/A
Breast cancer (for either metastatic disease or adjuvant treatment), metastatic gastric cancer Congestive heart failure, depression, pulmonary toxicity, infections and tachycardia (heart high rate) Pulmonary toxicity, cardiomyopathy and a confusion warning - + + B2 D 25 September 1998 28 August 2000 14 September 2000
Advanced unresectable or metastatic HER2-positive breast cancer Diarrhea, hepatotoxicity, embryo-fetal toxicity None April 2020 August 2020
Urinary tract infection, hypertension, QT interval prolongation, electrolyte anomalies, depression, GI perforation and thyroid anomalies QT interval prolongation - ++ - D D 21 April 2011 17 February 2012 31 January 2013
Photosensitivity, squamous cell carcinoma and hepatotoxicity None - + + D D 17 August 2011 10 May 2012 17 February 2012

Note:
AD = Approval date.
MS = Myelosuppression.
D = Diarrhoea.
FR = Fluid retention.
As far as myelosuppression, diarrhoea and fluid retention goes: +++ means >70% of patients exhibit clinically significant myelosuppression. ++ means 30-70% of patients exhibit significant myelosuppression. + means 10-30% of patients exhibit significant myelosuppression. - means 0-10% of patients exhibit this side effect.
General references templates are given, which refer the reader to the respective drug database.

See also

Further reading

External links

Notes and References

  1. Gross S, Rahal R, Stransky N, Lengauer C, Hoeflich KP . Targeting cancer with kinase inhibitors . The Journal of Clinical Investigation . May 2015 . 125 . 5 . 1780–1789 . 10.1172/JCI76094 . 25932675 . 4463189 .
  2. Web site: Definition of tyrosine kinase inhibitor - NCI Dictionary of Cancer Terms. dead. https://web.archive.org/web/20080511053942/http://www.cancer.gov/Templates/db_alpha.aspx?CdrID=44833. 2008-05-11.
  3. 10.1038/nrd2871 . Factors underlying sensitivity of cancers to small-molecule kinase inhibitors . 2009 . Jänne . Pasi A. . Gray . Nathanael . Settleman . Jeff . Nature Reviews Drug Discovery . 8 . 9 . 709–23 . 19629074. 7817325 .
  4. Web site: Clinical trials using WEE1 inhibitor AZD1775 . National Cancer Institute . April 20, 2018.
  5. Web site: Janssen announces U.S. FDA breakthrough therapy designation for erdafitinib in the Treatment of metastatic urothelial cancer . March 15, 2018 . Johnson and Johnson . April 20, 2018.
  6. 19333898 . 2009 . Bajpai . M . Fostamatinib, a Syk inhibitor prodrug for the treatment of inflammatory diseases . 12 . 3 . 174–85 . IDrugs.
  7. Web site: FDA Grants Imatinib (Gleevec) Full Approval for Adjuvant Treatment of GIST .
  8. Myelosuppression.
  9. Web site: Medscape Multispecialty Home page. WebMD. 27 November 2013.
  10. PC = Pregnancy category
  11. Web site: European Public Assessment Reports. European Medicines Agency. 27 January 2014. 4 February 2014. https://web.archive.org/web/20140204043206/http://www.ema.europa.eu/ema/index.jsp?curl=pages/medicines/landing/epar_search.jsp&mid=WC0b01ac058001d12. dead.
  12. Web site: Therapeutic Goods Administration Home page. Department of Health (Australia). 27 November 2013.