Robbins Essential Pathology PDF, Genetic Diseases, Chapters 6 (Pages 113-118)
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This section of Robbins Essential Pathology details genetic diseases, specifically cystic fibrosis. It explains the chloride channel defect in the sweat duct leading to increased chloride and sodium concentration, impacting the airways and causing mucus dehydration. The chapter further discusses the resulting pancreatic and pulmonary complications.
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92 CHAPTER 6 Genetic Diseases NORMAL CYSTIC FIBR...
92 CHAPTER 6 Genetic Diseases NORMAL CYSTIC FIBROSIS LUMEN OF SWEAT DUCT LUMEN OF SWEAT DUCT + Cl Na + Cl Na CFTR ENaC NORMAL CYSTIC FIBROSIS AIRWAY AIRWAY Nor mal Dehydrated mucus mucus + + + + Cl Na H O Cl Na H O Cl Na H O Cl Na H O 2 2 2 2 Fig. 6.2 Top, In cystic fibrosis (CF), a chloride channel defect in the sweat duct causes increased chloride and sodium concentration in sweat. Bottom, Patients with CF have decreased chloride secretion and increased sodium and water reabsorption in the airways, leading to dehydration of the mucous layer coating epithelial cells, defective mucociliary action, and mucous plugging. CFTR, Cystic fibrosis transmembrane conductance regulator; ENaC, epithelial sodium channel responsible for intracellular sodium conduction. (see Fg. 6.2, bottom). s causes ncreased lumnal sodum absorpon cronc bronc s and bronc e c as s. D e vel opme n o lung roug epelal sodum cannels. Increased nracellular sodum and abs cess es s common. clorde drves waer reabsorpon rom e lumen, deydrang e Pancreatc abnormates are presen n 85% o 90% o paens. In layer o mucus coang e underlyng epelal cells. In e lungs, s severe cases, e pancreac ducs are obsruced by mucous plugs, deydraon leads o deecve mucoclary acon and e accumulaon causng aropy o e exocrne glands and progressve bross (Fg. o vscd secreons a obsruc ar passages and predspose o recur- 6.4). e loss o pancreac exocrne secreon mpars a absorp- ren pulmonary necons. Vscd secreons also may obsruc pancre- on, leadng o vamn A decency, wc may conrbue o ac ducs and e vas deerens, leadng o pancreac nsuicency and squamous meaplasa o e pancreac duc epelum. mae nery, respecvey. In addon, CFTR reguaes e ranspor o Meconum eus, a ype o bowel obsrucon, may occur n e bcarbonae ons n e epea ces o e exocrne pancreas, and s small nesne o nans because o e presence o ck plugs dysuncon causes e acdcaon o pancreac secreons. s resuls o mucus. n precpaon o mucn and mpars e acvy o dgesve enzymes Lver nvovement may lead o mucus pluggng o ble canalcul, suc as rypsn a uncon bes under alkalne condons, bo o accompaned by ducular proleraon and pora nammaon. wc exacerbae pancreac nsuicency. Hepac seaoss s common. Over me, crross may deveop, resung n dfuse epac noduary. Suc severe epac nvovemen s encounered n ewer an 10% o paens. Morphology. Lesons var y n dsrbuon and severy dependng Azoosperma and nfertty are ound n 95% o e afeced on genoype. maes wo sur vve o aduood; baera absence of e vas def- P umonar y d s eas e semmng rom ob s r uc on and n e c on erens s a requen indng. o e ar p ass ages s e mos s e r ous e aure (Fg. 6.3). Te broncoles o en are d send e d w ck muc us ass o c ae d w marke d yp er pl as a and y p er ropy o e muc us -s e - Clncal Features. e clncal manesaons o CF are proean. Sgns cre ng cel ls. Sup e r mp os e d n e c ons g ve r s e o s e ve re and sympoms vary rom mld o severe, may presen a br or years CHAPTER 6 Genetic Diseases 93 Fig. 6.4 Pathologic changes of cystic fibrosis in the pancreas. The ducts are dilated and plugged with eosinophilic mucin, and the parenchymal glands are atrophic and replaced by fibrous tissue. Diseases Caused by Mutations in Genes Encoding Enzyme Proteins Phenylketonuria Fig. 6.3 Lungs of a patient who died of cystic fibrosis. Extensive Phenylketonuria is caused by mutations that disable the enzyme mucous plugging and dilation of the tracheobronchial tree are apparent. phenylalanine hydroxylase. The pulmonary parenchyma is consolidated by a combination of both secretions and pneumonia; the greenish discoloration is the product Pathogeness. Penylkeonura (PKU) s an nborn error o meabolsm of Pseudomonas infection. (Courtesy of Dr. Eduardo Yunis, Children’s a afecs 1 n 10,000 lve-born Caucasan nans. e mos common Hospital of Pittsburgh, PA.) (classc) orm s relavely common n persons o Scandnavan descen and uncommon n Jews populaons and n persons o Arcan descen. aer, and may be reaed o e nvovemen o one organ or many. s auosomal recessve dsorder s caused by a severe decency Approxmaey 5% o 10% o e cases come o aenon a br or o penyaanne ydroxyase (PAH), wc blocks e converson o soon ater because o meconum leus Exocrne pancreac nsuicency penylalanne o yrosne and leads o yperpenylalannema. Afeced occurs n a majory (85% o 90%) o paens w CF and s assocaed nans are normal a br bu wn a ew weeks exb a rsng plasma w nerance o wo “severe” CFTR muaons (e.g., ΔF508/ΔF508), penylalanne level, wc mpars bran developmen. As penylalanne wereas paens carryng a eas one “md” CFTR muaon oten rean levels rse, normally mnor meabolc paways become more acve, pancreac exocrne uncon. Pancreac nsuicency s assocaed w yeldng nermedaes a are excreed n large amouns n e urne maabsorpon o proen and a. e auly a absorpon may nduce and n e swea, mparng a srong musy or “mousy” odor o afeced decency saes o e a-soluble vamns A, D, and K. Hypoproenema nans. Afeced nans’ pale coloraon s due o e deecve syness may be severe enoug o cause generalzed edema. Perssen darrea o yrosne, wc s requred or melann syness. resuls n recal prolapse n as many as 10% o cldren w CF. e pancreas-suicen penoype usuay s no assocaed w Clncal Features. I unreaed, by 6 mons o le PKU produces severe oer gasronesna compcaons and, n genera, ese paens menal dsably (nellgence quoen less an 60). Abou one rd demonsrae exceen grow and deveopmen. o ese cldren never walk and wo rds canno alk. Sezures, oer Cardorespraor y compcaons, suc as perssen ung nec- neurologc abnormales, decreased pgmenaon o ar and skn, and ons, obsrucve pumonar y dsease, and cor pumonae, are e mos eczema are also seen. ese complcaons can be avoded by lmng common cause o dea (approxmaey 80% o aaes n e Uned penylalanne nake early n le; ereore, nans are screened or Saes). By 18 years o age, paens w severe CF oten are colonzed PKU mmedaely ater br. Deary reamen s dsconnued ater w paogens suc as Pseudomonas aerugnosa and Burkodera adulood; owever, women o cldbearng age wo ave PKU mus go cepaca. Sgncan lver dsease occurs lae n e course and s ore- on a low penylalanne de pror o concepon because o e eraogenc sadowed by pulmonar y and pancreac nvolvemen; w mproved efecs o penylalanne and s meaboles on e eus. sur vval, lver dsease s now e rd mos common cause o dea Lysosomal Storage Diseases n paens w CF (ater cardopulmonar y and ransplan-relaed complcaons). Lysosomal storage diseases stem from mutations that lead to de e dagnoss s usually suspeced based on perssenly elevaed ciencies of enzymes required for the degradation of various metab- swea elecrolye concenraons, caracersc clncal ndngs (pulmo- olites and certain organelles. nary dsease and gasronesnal manesaons), and amly sory, and s esablsed by sequencng e CFTR gene. e use o anbocs and Pathogeness. Lysosomes, e dgesve sysem o cells, conan a pancreac enzyme replacemen erapy, as well as blaeral lung rans- number o ydrolyc enzymes a are nvolved n e breakdown o planaon, as mproved oucomes n paens w severe CF. New drug complex subsraes no soluble end producs. ese subsraes may be erapes also are now avalable a mprove e oldng, membrane derved rom nracellular organelles a are undergong auopag y or expresson, and uncon o muaed CFTR molecules. ese advances may be aken up no e cell by pagocyoss. I an enzyme requred ave exended e medan le expecancy o 40 years, cangng a leal or e caabolsm o a subsrae s mssng, parally degraded nsoluble dsease o cldood no a cronc dsease o aduls. meaboles accumulae wn e lysosomes (Fg. 6.5). In addon, 94 CHAPTER 6 Genetic Diseases Complex substrate Tay-Sachs Dsease (G Ganglosdoss: Deicency n Hexosam M2 ndase A) Tay-Sachs disease, the most common gangliosidosis, is caused by loss of function mutations affecting expression of the enzyme Normal lysosomal Lysosomal enzyme hexosaminidase A. degradation deficiency Pathogeness. In Tay-Sacs dsease, glycolpds called gangosdes A A accumulae n many ssues, bu damage s mosly conned o neurons and glal cells rougou e CNS. e molecular bass or neuronal njur y s no undersood. In many cases e muan proen msolds, and s may nduce e unolded proen response (see Caper 1), Small B B wc can lead o apopoc cell dea. diffusible end products Morphology. Afeced cells appear swollen and somemes oamy. Elecron mcroscopy reveals worled, onon skn–lke layers o C membranes wn e lysosomes (Fg. 6.6). ese canges are ound rougou e CNS, perperal nerves, and auonomc nervous sysem. e rena usually s nvolved, were e pallor produced by swollen ganglon cells n e perperal rena resuls n a conrasng “cerry red” spo n e relavely unafeced cenral macula. Clncal Features. In e mos common varan o Tay-Sacs dsease, PRIMARY Stored nonmetabolized nans appear normal a br, bu moor weakness begns a 3 o 6 STORAGE products mons o age, ollowed by neurologc mparmen, blndness, and progressvely more severe neurologc dysuncons. Dea occurs wn 2 or 3 years. Tay-Sacs dsease, lke oer lpdoses, s mos Defective fusion of autophagosome with lysosome common among Askenaz Jews, among wom e requency o eerozygous carrers s esmaed o be 1 n 30. Defective degradation of intracellular organelles Niemann-Pick Disease Types A and B Type A and type B Niemann-Pick disease is caused by loss of func- Accumulation tion mutations that affect the enzyme acid sphingomyelinase. Accumulation of SECONDARY of aberrant toxic proteins STORAGE mitochondria Pathogeness. e dsease s caused by a decency o spngo- myenase, more severe n ype A an n ype B, resulng n mpared breakdown o spngomyeln no ceramde and posporylcolne. Induction of Generation of CELL DEATH cell damage free radicals Morphology. In ype A, excess spngomyeln accumulaes n pagocyes and neurons. e macropages become sufed w Fig. 6.5 Pathogenesis of lysosomal storage diseases. In this example, droples or parcles o e complex lpd, mparng a ne vacuolaon a complex substrate is normally degraded by a series of lysosomal or oamness o e cyoplasm (Supplemenal eFg. 6.1). Wen enzymes (A, B, and C) into soluble end products. If there is a deficiency or malfunction of one of the enzymes (e.g., B), catabolism is incomplete, and insoluble intermediates accumulate in the lysosomes. In addition to this primary storage defect, secondary storage and toxic effects result from defective autophagy, leading to the accumulation of dysfunctional mitochondria and accumulation of toxic wastes. ysosome dysuncon nereres w cearance o deecve organees suc as mocondra, wc may generae desrucve ree radcas. s combnaon o deecs ulmaely leads o cell dea. Lysosomal sorage dsorders are subdvded based on e bocem- cal naure o e subsraes and e accumulaed meaboles (Table 6.3). Ceran eaures are common o mos dseases n s group: Autosoma recessve transmsson Onset of dsease n nfancy or eary cdood Hepatospenomegay, due o accumulaon o parally dgesed meaboles n pagocyes Frequent CNS nvovement w assocaed neuronal damage Ceuar dysfuncton, caused no only by accumulaon o und- gesed maeral bu also by a cascade o secondar y evens rggered, Fig. 6.6 Ganglion cells in Tay-Sachs disease. A portion of a neuron or example, by macropage acvaon and release o cyoknes under the electron microscope shows prominent lysosomes with Mos lysosome sorage dsorders are ver y rare; only a ew o e whorled configurations. Part of the nucleus is shown above. (Courtesy more common condons are consdered ere. Dr. Joe Rutledge, Children’s Regional Medical Center, Seattle.) CHAPTER 6 Genetic Diseases 95 Table 6.3 Selected Lysosomal Storage Disorders Disease Deficient Enzyme or Protein Accumulating Metabolite(s) Clinical Features Tay-Sachs disease Hexosaminidase GM2 ganglioside CNS disease Gaucher disease Glucocerebrosidase Glucocerebroside Mild forms: organomegaly, bone marrow failure Severe forms: CNS disease Niemann-Pick disease, Sphingomyelinase Sphingomyelin Type A: early-onset CNS disease, types A and B organomegaly Type B: early-onset organomegaly, late-onset CNS disease Niemann-Pick disease, NPC1 or NPC2; part of a Cholesterol, gangliosides Neurologic symptoms, including ataxia, type C lipid transport complex dementia; variable organomegaly MPS Type I (Hurler α-L-Iduronidase Heparin and dermatan sulfate Organomegaly, cardiovascular disease, syndrome) CNS disease MPS Type II (Hunter L-iduronate sulfatase Heparin and dermatan sulfate Similar to Hurler syndrome, but milder syndrome) phenotype Glycogenosis type 2, Lysosomal glucosidase (acid Glycogen Cardiac failure Pompe disease maltase) Morphology. Pagocyes sufed w glucocerebrosde— vewed by eecron mcroscopy, e vacuoes are engorged secondary so-called Gaucer ces—become markedly enlarged and acqure a ysosomes a oten conan membranous cyoplasmc bodes paognomonc cyoplasmc appearance caracerzed as “wrnkled resemblng concenrc lamellaed myeln gures. Because o er ssue paper” (Fg. 6.7). Splenomegaly may be massve, and e g conen o pagocyes, e mos severely afeced organs are marrow may be largely replaced by sees o Gaucer cells. e spleen, lver, bone marrow, lymp nodes, and lungs. e splenc enlargemen may be srkng. Neurons rougou e CNS also accumulae spngomyeln, wc resuls n neuronal enlargemen and vacuolzaon. Type B s assocaed w less severe spngomyelnase Clncal Features. One varan, ype 1, accouns or 99% o cases o Gaucer decency and e manesaons are mlder. dsease. I s assocaed w bone lesons, epaosplenomegaly, and e absence o CNS nvolvemen. Type 1 s mos common n Askenaz Clncal Features. Type A presens n nancy w massve Jews and s compable w long le. Types 2 and 3 are caracerzed by organomegaly and severe neurologc deeroraon Dea usually neurologc sgns and sympoms, wc may appear durng nancy (ype 2) occurs wn e rs 3 years o le. In comparson, paens w e or laer n le (ype 3). Aloug e lver and spleen also are nvolved, e ype B varan ave organomegaly bu no neurologc manesaons. clncal eaures n ypes 2 and 3 are domnaed by neurologc dsurbances, ncludng convulsons and progressve menal deeroraon. O neres, Niemann-Pick Disease Type C eerozygous carrers o Gaucer dsease are a ncreased rsk o Parknson Type C Niemann-Pick disease is caused by defects in lipid trans- dsease, or reasons a are unceran. port, leading to lipid accumulation in cells. Curren erapy s amed a reducng e burden o glucocerebro- Nemann-Pck dsease ype C resuls rom muaons n wo relaed sdes by nuson o recombnan glucocerebrosdase and w drugs genes, NPC1 and NPC2, wc encode proens a orm a complex a a nb glucocerebrosde synase. s nvolved n nracellular raickng o coesero and oer pds. Deec- Mucopolysaccharidoses ve pd ranspor resus n e nraceuar accumuaon o coesero Mucopolysaccharidoses are characterized by defective degrada- and gangosdes suc as GM1 and GM2. Afeced cldren exb aaxa, tion and excessive accumulation of mucopolysaccharides in var- vsual dsurbances, dysona, dysarra, and psycomoor regresson. ious tissues. Gaucher Disease Gaucher disease is caused by loss of function mutations in glucoce- Pathogeness. Mucopolysaccardes are syneszed by connecve rebrosidase that result in the accumulation of glucocerebrosides in ssue broblass and are par o e exracellular marx. Turnover or phagocytes and more variable accumulations in neurons. remodelng o mucopolysaccarde s medaed by upake no pagocyes and enzymac degradaon wn lysosomes. I any o ese enzymes are Pathogeness. Gaucer dsease s an auosomal recessve dsorder deecve, mucopolysaccardes, manly eparan sulae and dermaan w varable expressvy due o muaons o dferng severy. sulae, accumulae wn e lysosomes o pagocyes and oer cells. Gucocerebrosdase normally cleaves a glucose resdue rom ceramde. Is dec leads o an accumulaon o glucocerebrosde n macropages, Clncal and Morpholog c Features. Hepaosplenomegaly, skeleal parcularly n e spleen, lver, and bone marrow. s s because muc deormes, subendoelal areral deposs (parcularly n e o e glucocerebrosde s derved rom senescen red cells, wc coronar y areres), and lesons n ear valves and n e bran are are normally removed rom e crculaon by macropages n ese common o all o e mucopolysaccardoses (MPSs). Coronar y ssues. e macropages are acvaed wle aempng o dges subendoelal lesons oten lead o myocardal scema, and e glucocerebrosde and release a number o cyoknes. ese are myocardal narcon and cardac decompensaon are mporan suspeced o alerng bone meabolsm and may explan e assocaon causes o dea Mos cases are assocaed w coarse acal eaures, o Gaucer dsease w varable degrees o oseopena, oseopoross, cloudng o e cornea, jon sfness, and menal dsably Urnar y oseolyc lesons, and occasonally oseonecross. excreon o mucopolysaccardes oten s ncreased. CHAPTER 6 Genetic Diseases 95.e1 Supplemental eFig. 6.1 Niemann-Pick disease in liver. The hepato- cytes and Kupffer cells have a foamy, vacuolated appearance resulting from deposition of lipids. (From Kumar V, Abbas A, Aster J: Robbins Basic Pathology, 10th ed., St. Louis, Elsevier, 2018, Fig. 7.10; Courtesy Dr. Arthur Weinberg, Department of Pathology, University of Texas Southwestern Medical Center, Dallas.) 96 CHAPTER 6 Genetic Diseases A B Fig. 6.7 Gaucher disease involving the bone marrow. (A) Gaucher cells with abundant lipid-laden granular cytoplasm. (B) Electron micrograph of Gaucher cells with elongated distended lysosomes. (Courtesy Dr. Mat- thew Fries, Department of Pathology, University of Texas Southwestern Medical Center, Dallas.) Severa cnca varans o MPS exs, eac resung rom e de- acc umu l a on o g lycogen n mus cle s and mus cle we a k ness due cency o a dferen enzyme. Only wo well-caracerzed syndromes o mp are d energ y pro du c on. Myop a c or ms o g lyc ogen mer bre dscusson. sorage ds e as es are marke d by mus cl e c ramps a er e xerc s e, M PS ty pe I, a ls o k nown as Hurer sy ndrome, s an auos oma l re ces- mus cle njur y le adng o myog lob nur a, and a lure o exerc s e sve ds order caus e d by a decenc y o α-L-durondas e. Afe c e d o nduce an ele va on n bl o o d l ac ae le vels b e c aus e o a bl o ck c ldren ave a le exp e c anc y o 6 o 10 ye ars, and de a s oten n g lycolyss. Mc Arde d s eas e ( yp e V g lycogenos s ) , resu l ng due o cardac complca ons. Mucop olys accar des acc umu lae rom a de cenc y o mus cl e pospor y l as e, s e proo yp e o n macropages, broblass, endo elum and smo o mus cle myop a c g lycogenos es. cel ls o e vas c u lar wa l l, and o er cel ls. e afe c e d cel ls are Pompe dsease (ype II glycogenoss) s caused by a decenc y o swol len and ave cle ar c yoplasm, resu l ng rom e acc umu la- lysosomal glucosdase (acd malase), wc s requred or gly- on o engorge d, vac uolae d lys os omes. Acc umu la on n neu- cogen breakdown rougou e body (Supplemenal eFg. 6.2). rons accouns or e men a l ds ab l y. However, e mos afeced cell ype s e cardac myoc ye. Car- MPS type II, or Hunter syndrome, dfers rom Hurler syndrome domegaly s promnen, and mos paens de wn 2 years o n s mode o nerance (X-lnked) and e absence o corneal dsease onse owng o cardorespraor y alure. erapy w e cloudng. I also oten as a more prolonged, mlder clncal course. mssng enzyme can reverse cardac muscle damage and ncrease Unlke Hurler syndrome, resuls rom a decency o L-duro- longevy. nae sulaase (a dferen enzyme an α-L-durondase). Despe e dferen enzyme decency, dencal subsraes accumu- lae because breakdown o eparan sulae and dermaan sulae COMPLEX MULTIGENIC DISORDERS requres e uncon o bo enzymes. Complex multigenic disorders are caused by interactions between Glycogen Storage Diseases (Glycogenoses) multiple gene variants and environmental factors. The various glycogen storage diseases are caused by inherited de Genec varans are reerred o as polymorpsms ey ave an ciencies of enzymes involved in glycogen metabolism and result allele requency n e populaon o a leas 1%. Accordng o e com- in excessive accumulation of glycogen or some abnormal form of mon dsease–common varan ypoess, complex mulgenc dsorders glycogen in tissues. occur wen several polymorpsms, eac w a modes efec and low penerance, are conered. Many common dseases are oug o all Pathogeness. In glycogen sorage dseases, e specc enzyme n s group, ncludng auommune and allergc dseases, dabees, decency dcaes e ype o glycogen a accumulaes, s nracellular yperenson, and scemc ear dsease, bu s oten no possble o locaon, and s ssue dsrbuon. Glycogen may accumulae wn pnpon a specc causave polymorpsm. Wen consderng complex e cyoplasm and somemes wn e nucle o afeced cells. Mos mulgenc dsorders, several oer prncples sould be kep n mnd: glycogenoses are nered as auosomal recessve dseases. Aloug complex dsorders resul rom e collecve nerance Approxmaely a dozen glycogenoses ave been descrbed. On e o several polymorpsms, ceran polymorpsms may ave a bass o paopysologc ndngs, ey all no ree groups (Table 6.4): domnan nuence. For exampe, aoug varans n 20 o 30 Hepatc type. e lver syneszes glycogen and also breaks genes are mpcaed n ype 1 dabees, a ew HLA aees conrbue down no ree glucose. Glycogenoses caused by deecs n epac more an 50% o e rsk. enzymes nvolved n glycogen meabolsm ave wo major efecs: S ome poymorpsms are assocaed w mupe dseases, usuay lver enlargemen due o accumulaon o normal or abnormal o e same ype (e.g., auommune dsorders), wereas oers are orms o glycogen, and ypoglycema due o a alure o glucose dsease-specic. producon (Fg. 6.8). Von Gerke dsease (ype I glycogenoss), Many genec varans nked o dsease a n e noncodng reg- resulng rom a lack o glucose-6-pospaase, s e mos mpor- uaor y regons o e genome and us are key assocaed w a an epac orm o glycogenoss. quanave varaon n gene expresson, raer an a srucura Myopatc type. Glycogen s an mp or an e nerg y s ource n s r - cange n e encoded proen. ae d mus cle. Glyco gen sorage ds e as es c aus e d by d ee c s n Envronmena acors pay a sgnican roe n e expresson o enzy mes a are re qu re d or g lycogen bre a kdow n lead o e compex mugenc dsorders. Type 2 dabees s an exampe o a