Cell Injury and Cell Death PDF
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This document provides an outline of cell injury and cell death. It discusses reversible and irreversible cell injury, necrosis, apoptosis, and other related topics. It also covers mechanisms of cell injury, and associated factors.
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1 Cell Injury and Cell Death O U T L I N E Overview of Cell Injury, 1 Oxidative Stress, 7 Causes of Cell Injury, 1 Hypoxia and Ischemia, 8 Reversible Cell Injury, 1 Toxin-Mediated Cell Injury, 9 Cell Death, 2 Endoplasmic Reticulum (ER) Stress, 9 Necrosis, 3 DNA Damage, 9 Apoptosis, 3 Cellular Aging, 9 Other Pathways of Cell Death, 6 Cellular Adaptations to Stress, 11 Mechanisms of Cell Injury and Death, 7 Pathologic Accumulations in Cells, 12 In medeval mes, dseases were arbued o “evl umors, ” “masma, ” bo deprve ssues o oxygen and, n e case o scema, ces are and oer equally nebulous and unprovable causes. One o e mos aso dened essena nurens and oxc meaboes are aowed o undamenal advances n uman bolog y and medcne was e real- bud up zaon a e cell s e srucural and unconal un o lvng organ- Toxns, wc abound n e envronmen, as we as some terapeu- sms and abnormales n cells underle all dseases: Indvduals are tc drugs sck because er cells are sck. All dseases sare e common eaure Envronmenta nsuts, suc as pysca rauma, radaon exposure, a ey aler cellular uncon and srucure. ereore, e ounda- and nurona mbaances on o paoog y and medcne s an undersandng o ow ces are Genetc abnormates, ncudng muaons a mpar e uncon njured, e eme o s rs caper. o varous essena proens and oer muaons a ead o e accumuaon o damaged DNA or abnorma, msoded proens, bo o wc cause ce dea ey canno be repared or correced OVERVIEW OF CELL INJURY Immunoogc reactons agans se angens (as n auommune ds- eases) or envronmena angens (as n aerges), wc cause ce In response to stress, cells may adapt, may be injured reversibly njur y, oten by rggerng nlammaon and recover, or may be irreversibly damaged and die. Agng, a orm o sow, progressve ce njur y Ces normay manan a seady sae, caed omeostass, despe beng consany exposed o couness poenay damagng agens. Ces dea w exerna or nerna sresses by undergong canges a are grouped no ree broad caegores. REVERSIBLE CELL INJURY Adaptatons are aeraons a enabe ces o cope w sresses w- Reversible injury is characterized by functional and structural ou damage, suc as ncreased musce mass n response o ncreased changes in cells that are not permanent. workoad. e major ceuar adapaons and er pysoogc and e eares canges assocaed w ce njur y mosy afec cyo- paoogc sgncance are summarzed a e end o e caper. pasmc srucures bu do no damage nuce (nucear damage s usuay Reversbe njury reers o srucura and uncona abnormaes a rreversbe) and ncude e oowng: can be correced e njurous agen s removed. I e njury s per- Sweng of ce s as a resu o n ux o wae r. T s s usu a y c aus e d ssen or severe, can become rreversbe and ead o ce dea. In + by a ure o e adenos ne r po spae ( ATP ) -d ep end e n Na many cases, ces de wou raversng a deecabe reversbe pase. + K p asma membrane pump du e o d e cre as e d ge nera on o Ce deat s e end resu o njur y. As we dscuss aer, ere are + ATP or p asma membrane d amage. Te oss o n rac e u ar K wo major paways o ce dea, necross and apoposs, and ey + and comp ens aor y n ux o Na br ngs waer w o man- occur upon exposure o a varey o njurous agens. an osmo c b a ance, resu ng n p asma me mbrane a er a ons , Causes of Cell Injury ncudng bebbng , oss o m c rov and swe ng o m o con - dr a and e endop as m c re c u u m ( E R) (Fg. 1.1). Te so - Diverse insults cause cell injury or death and result in disease. og c canges are sub e, bu organs may app e ar g rossy swo en ese njurous nsus ncude: and p a e (due o compress on o c ap ar es ). Infectous patogens, wc njure ces by producng oxns, ner- Fatty cange. In organs a are acvey nvoved n meabosm erng w crca ceuar uncons, or by smuang mmune (e.g., ver, ear), oxc njur y dsrups meaboc paways and responses a damage neced ces n e course o r yng o erad- eads o rapd accumuaon o rgycerde-ed pd vacuoes. cae e necon Eosnopa. e cyopasm o njured ces appears eosnopc Hypoxa (reduced oxygen suppy) and scema (reduced bood (red n emaoxyn-and-eosn [H&E] sans) because o oss o suppy), wc are caused by bockage o areres or oss o bood; 1 2 CHAPTER 1 Cell Injury and Cell Death NORMAL CELL Reversible Recovery injury Swelling of Condensation endoplasmic of chromatin reticulum and mitochondria Membrane blebs Myelin figure Membrane blebs Progressive injury Breakdown of plasma membrane, Cellular organelles, and fragmentation nucleus; leakage of contents Inflammation APOPTOSIS Apoptotic body Phagocytosis of apoptotic cells Phagocyte and fragments NECROSIS Fig. 1.1 Reversible cell injury, necrosis, and apoptosis. The figure illustrates the sequence of events in cell injury that culminate in necrosis or apoptosis. Myelin figures are collections of phospholipids in concentric layers released from damaged plasma membranes. In cells undergoing necrosis, mitochondria often contain amorphous densities visible by electron microscopy, of unknown significance. RNA, wc bnds e bue emaoxyn san. e eosnopa pospor y a on and AT P ge ne ra on ) e ve n a e r res ou on o e becomes more pronounced w progresson oward necross. or g na njur y ; atered str uc ture and f unc ton of te pa sma mem- “Myen gures” composed o pospopds derved rom damaged brane and ntraceuar me mbranes; and DNA damage and oss of ceuar membranes appear n e cyoso. cromatn str uc tura nteg r t y e mtocondra may swe. e ER may become daed, w deacmen o rbosomes and CELL DEATH dssocaon o poysomes, ang proen syness. Nucear cromatn may cump. Necrosis and apoptosis, the two main forms of cell death, differ in ese aeraons become more severe e njur y progresses o e causes, mechanisms, and functional consequences. rreversbe pase o necross, cumnang n oss o pasma mem- Necross and apoposs are usuay dsnc orms o ce dea, w d- brane negry and breakdown o e nuceus. eren morpoogc canges and oer dsngusng eaures (Tabe 1.1). W p erssen or excessve nox ous exp osures , njure d ce s Necross may be oug o as “accdena” ce dea, relecng severe p ass a nebu ous “p o n o no reur n” and u nd ergo ce de a . njury a rreparaby damages so many ceuar componens a e ces A oug ere are no d e n ve mor poog c or b o cem c a cor- smpy “a apar”. Wen ces de by necross, ere s a oca nlamma- re aes o r re versb y, s c onssen y carac er z e d by re e pe- ory response a cears e scene o e “accden. ” By conras, apopo- nomena: e nabty to restore mtocondr a f unc ton (oxd a ve ss s “reguaed” ce dea, because s medaed by dened moecuar CHAPTER 1 Cell Injury and Cell Death 3 Table 1.1 Features of Necrosis and Apoptosis Feature Necrosis Apoptosis Cell size Enlarged (swelling) Reduced (shrinkage) Nucleus Pyknosis → karyorrhexis → karyolysis Fragmentation into nucleosome-sized fragments Plasma membrane Disrupted Intact; altered structure, especially orientation of lipids Cellular contents Enzymatic digestion; may leak out of cell Intact; may be released in apoptotic bodies Adjacent inflammation Frequent No Physiologic or pathologic role Invariably pathologic (culmination of Often physiologic means of eliminating unwanted irreversible cell injury) cells; may be pathologic after some forms of cell injury, especially DNA and protein damage paways a are acvaed under specc crcumsances and k ces ces are dead (Fg. 1.3). s orm o necross s caracersc w surgca precson, wou nlammaon or e assocaed coaera o ypoxa-nduced ce dea, caused mos commony by a oss damage. In some suaons, ce dea may sow eaures o bo necross o bood suppy (scema). e resuan necross, caed nfarc- and apoposs, or may sar w apoposs and progress o necross, so e ton, s seen n mos sod organs, suc as e ear and kdneys. dsncons may no be as absoue as once oug. Nevereess, s use- In quefactve necross, e dead ces are dgesed by reeased u o consder e wo orms as argey nonoverappng paways o ce enzymes (Fg. 1.4). s s seen n necross resung rom bac- dea because er prncpa mecansms and uncona consequences era and unga necons and n scemc narcs o e bran are usuay dferen. (even sere). Gangrenous necross s a cnca erm used or e dea o sot s- Necrosis sue and s oten apped o a mb a as os s bood suppy and Necrosis is the result of severe injury and is a pathologic process in as undergone coaguave necross nvovng mupe ssue ayers. which cells spill their contents into the extracellular milieu, caus- I resus rom scema (e.g., rom dabec vascuar dsease, afec- ing local inammation. ng e ower mbs) and s caed dry gangrene e dead ssue e amarks o necross are: remans nac or wet gangrene e ssue quees, as s common Dssouton of ceuar membranes, ncudng e pasma membrane oowng supermposed bacera necon. and ysosoma membranes, because o damage o membrane pds Caseous necross s caracersc o ubercuoss and some unga and acvy o pospopases necons suc as sopasmoss. e dead ssue breaks down, Leakage of ysosoma enzymes a dges e ce creang a ceesy conssency on gross examnaon (Fg. 1.5). L oca nlammaton n response o e reeased conens o dead Mcroscopcay, e necroc ocus s a coecon o ragmened ces. S ome specc componens o ese conens ave been caed or ysed ces w an amorpous granuar pnk (eosnopc) damage-assocaed moecuar paerns (DAMPs). ese reeased appearance. Ceuar ounes canno be dscerned, and ere s acors ncude ATP (rom damaged mocondra), urc acd (a oten a perpera coecon o macropages ormng a granuoma. breakdown produc o DNA), and numerous oer moecues a Fat necross reers o oca areas o a desrucon, ypcay are normay conaned wn eay ces and wose reease resung rom e reease o acvaed pancreac pases no e ndcaes severe ce njur y. ese moecues are recognzed by subsance o e pancreas and e peronea cavy. s occurs recepors expressed by macropages and mos oer ce ypes, n acue pancreas (Caper 13). Fay acds are reeased and and rgger pagoc yoss o e debrs, as we as e producon combne w cacum o produce grossy vsbe caky we o c yoknes a nduce nlammaon (see Caper 2). Inlamma- areas (a saponcaon), wc enabe e surgeon and e or y ces produce more proeoyc enzymes a exacerbae e paoogs o deny e esons (Suppemena eFg. 1.1). On damage and e subsequen reacon, un e necroc ssue as soogc examnaon, e oc o necross conan sadowy been ceared. ounes o necroc a ces surrounded by basopc cacum deposs and an nlammaor y reacon e man causes o necross ncude scema, exposure o mcro- Fbrnod necross s a caracersc mcroscopc ndng seen ba oxns, burns and oer orms o cemca and pysca njury, and mos commony n mmune reacons n wc compexes o unusua suaons n wc enzymes eak ou o ces and njure adjacen angens and anbodes and exravasaed pasma proens are ssues (as n pancreas). A ese nang rggers ead o rreparabe deposed n e was o bood vesses, were ey ave a brg damage o numerous ceuar componens, wc cumnae n mem- pnk, amorpous appearance remnscen o brn (Fg. 1.6). brane damage, e bass or e subsequen seps n necross. e aboraory dagnoss o necross may be made by deecng an Morphology. Necroc ces sow more dfuse cyopasmc eosno- ncrease n serum eves o nraceuar proens, wc eak ou o e pa compared w a seen n reversbe njur y (Fg. 1.2). Nuce necroc ces because o membrane damage. s s e bass o measur- undergo sequena canges, rom condensaon o croman (pyk- ng serum roponn or dagnoss o myocarda narcon, ransamnases noss) o ragmenaon o nuce (karyorrexs) o er compee or ver dsease, and pancreac enzymes suc as amyase or pancreas. dssouon (karyoyss). Necross rom dferen causes s manesed by dferen mor- Apoptosis pooges, and recognon o ese paerns s epu or deermn- Apoptosis is a form of cellular suicide that eliminates cells that are ng e underyng eoog y : no longer needed or are damaged beyond repair, without eliciting In coaguatve necross, e underyng ssue arcecure s a potentially harmful inammatory response. preser ved, a eas or some me, even oug e consuen CHAPTER 1 Cell Injury and Cell Death 3.e1 Supplemental eFig. 1.1 Fat necrosis. The areas of white chalky deposits represent foci of fat necrosis with calcium soap formation (saponification) at sites of lipid breakdown in the mesentery. (Courtesy of Dr. James Crawford, Department of Pathology, Zucker School of Medi- cine at Hofstra/Northwell.) 4 CHAPTER 1 Cell Injury and Cell Death A B Fig. 1.2 Morphologic changes in reversible and irreversible cell injury (necrosis). (A) Normal kidney tubules with viable epithelial cells. (B) Early (reversible) ischemic injury showing surface blebs, increased eosinophilia of cytoplasm, and swelling of occasional cells. (C) Necrotic (irreversible) injury of epithelial cells, with loss of nuclei and fragmentation of cells and leakage of contents. (Courtesy of Drs. Neal Pinckard and M.A. Ven- katachalam, University of Texas Health Sciences Center, San Antonio.) I N A B Fig. 1.3 Coagulative necrosis. (A) A wedge-shaped kidney infarct (yellow). (B) Microscopic view of the edge of the infarct, with normal kidney (N) and necrotic cells in the infarct (I). The necrotic cells show preserved outlines with loss of nuclei, and an inflammatory infiltrate (dark nuclei interspersed between necrotic tubules) is present. In s paway o ce dea, enzymes acvaed by specc sgnas dsmane e nuceus and cyopasm, generang ragmens a are recognzed and rapdy ceared by pagocyes. Causes of Apoptosis Apoposs occurs n many pysoogc suaons and ser ves o em- nae poenay armu ces and ces a ave ouved er use- uness (Tabe 1.2). I aso occurs as a paoogc even wen ces are damaged, especay wen e damage afecs e ce’s DNA or pro- ens; us, e rreparaby damaged ce s emnaed. Pysoogc apoptoss D ea o ces durng e deveopmen o organsms, suc as ces o prmorda ssues a are repaced by maure ssues D e a o eu ko c yes ( neu rop s and y mpo c yes ) a er n ammaor y and mmune resp ons es ave e m nae d o endng agens E mnaon o dysuncona or auoreacve ympocyes or ympocye precursors, parcuary n e bone marrow and e Fig. 1.4 Liquefactive necrosis. An infarct in the brain showing dissolu- ymus tion of the tissue. CHAPTER 1 Cell Injury and Cell Death 5 Table 1.2 Physiologic and Pathologic Conditions Associated With Apoptosis Condition Mechanism of apoptosis Physiologic During embryogenesis Loss of growth factor signaling (presumed mechanism) Turnover of proliferative tis- Absence of survival signals or acti- sues (e.g., lymphocytes in vation of death-inducing signals bone marrow and thymus) Involution of hormone- Decreased hormone levels lead to dependent tissues (e.g., reduced survival signals endometrium) Decline of leukocyte Loss of survival signals as stimulus numbers at the end of for leukocyte activation is elim- immune and inflammatory inated responses Elimination of potentially Strong recognition of self antigens harmful self-reactive induces apoptosis by both the Fig. 1.5 Caseous necrosis. Tuberculosis of the lung, with a large area of lymphocytes mitochondrial and death receptor caseous necrosis containing yellow-white (cheesy) debris. pathways Pathologic DNA damage Activation of proapoptotic proteins Accumulation of misfolded Activation of proapoptotic proteins, proteins possibly direct activation of caspases Infections, especially certain Activation of the mitochondrial viral infections pathway by viral proteins Killing of infected cells by cytotoxic T lymphocytes, which activate caspases proens ater asparc acd resdues. e end resu o apopoc ce dea s e cearance o apopoc bodes by pagocyes. e mtocondra (ntrnsc) patway seems o be responsbe or apoposs n mos pysoogc and paoogc suaons. Moecuar sensors n e cyopasm deec e ack o sur vva sgnas, DNA Fig. 1.6 Fibrinoid necrosis in an artery in a patient with polyarteritis damage, or e accumuaon o msoded proens. ese acvaed nodosa. The wall of the artery shows a circumferential bright pink area sensors nduce e dmerzaon o wo proens (caed BAX and of necrosis with protein deposition and inflammation. BAK) a nser no e mocondra membrane and orm can- nes, eadng o ncreased mocondra permeaby. e cannes aow proapopoc acors (.e., cyocrome c and oer proens) o Ce oss a aernaes w ce proeraon n ormone-respon- eak no e cyoso, were ey acvae e enzyme caspase-9. A sve ssues suc as e endomerum cascade o addona caspases s acvaed, cumnang n e enzy- Emnaon o ympocyes a recognze se angens mac breakdown o nuce and cyopasmc srucures. Fragmens Patoogc apoptoss o nuce and oer organees suc as mocondra are exruded S evere DNA damage, ater exposure o radaon or cyooxc drugs no ragmens (caed apopoc bodes) a are subsequeny Accumuaon o msoded proens, gvng rse o ER sress pagocyosed. Because ceuar membranes reman nac, enzymes C eran necous agens, parcuary some vruses suc as and oer ce conens do no eak ou (as ey do n necross), and epas B and C, wc rgger mmune responses a desroy ere s no nlammaon. e dmerzaon o e efecor moecues neced ces. BAX and BAK s normay prevened by anapopoc moecues o e BCL amy, noaby BCL-2 and B CL-x. ese are acvaed Mechanisms of Apoptosis by grow acors, wc s one way a grow acors promoe There are two pathways of apoptosis, the mitochondrial (or intrin- ce sur vva and subsequen proeraon. Consuve acvaon sic) pathway and the death receptor (or extrinsic) pathway, which o BCL-2 by genec aberraons s seen n umors; n ac, BCL-2 differ in their initiation and molecular signals (Fig. 1.7). sands or B ce ympoma-2, so named or e umor n wc e bocemca paways o apoposs conro e baance o was dscovered as an oncogene (see Caper 5). dea- and sur vva-nducng sgnas and umaey e acvaon o e deat receptor (extrnsc) patway of apoptoss. Dea recepors enzymes caed caspases. Caspases are cysene proeases a ceave are pasma membrane recepors o e umor necross acor (TNF)