High Yield Topics-Biochemistry

Question 1

On NBME, do you ever refer or send patient to ethics committee?

Answer 1

NO! NEVER!

Use patient-centered questions, respect patient autonomy, never lie

Question 2

Inheritance pattern of mostly enzyme deficiencies; usually seen in only 1 generation

Answer 2

AR

Question 3

Inheritance pattern of mostly structural protein gene defect; usually seen in many generations with variable expressivity

Answer 3

AD

Question 4

How to distinguish x-linked dominant vs. recessive

Answer 4

x-linked dominant: females are more affected

x-linked recessive: males are more affected

• no male to male transition in both types!

Question 5

One gene contributes to multiple phenotypic effects; example is PKU ( light skin, intellectual disability, and musty body odor)

Answer 5

Pleiotropy

Question 6

Presence of both normal and mutated mtDNA, resulting in variable expression in mitochondrially inherited disease

• mtDNA passed from mother to all children.

Answer 6

Heteroplasmy

Question 7

inheritance that occurs when one characteristic is controlled by two or more genes

Answer 7

Polygenic inheritance

Question 8

When gene is “silenced”

Answer 8

imprinting

Question 9

A disorder caused by paternal uniparental disomy with paternal imprinting and maternal deletion; Inappropriate laughter, seizures, ataxia, severe intellectual disability

Answer 9

Angelman syndrome

• STUDY AID: angelMEN syndrome is paternal uniparental disomy

Question 10

A disorder caused by maternal uniparental disomy with maternal imprinting and paternal deletion; Hyperphagia and obesity, intellectual disability, hypogonadism, hypotonia

Answer 10

Prader-Willi syndrome

Question 11

immotile cilia (cilliary dyskinesia) due to a dynein arm defect; decreased male and female fertility due to immotile sperm and dysfunctional fallopian tube cilia; cause bronchiectasis, recurrent sinusitis, chronic ear infections, conductive hearing loss, and situs inversus (dextrocardia on xray)

Answer 11

Kartagener syndrome

• Kartagener’s restaurant: take-out only –> there’s no dynein “dine-in”

Question 12

Inheritance pattern of Kartagener syndrome

Answer 12

AR

Question 13

Normal function of CFTR gene

Answer 13

CFTR gene encodes ATP-gated Cl- channels –> secrete Cl- in lungs & GI tract and reabsorb Cl- in sweat glands

Question 14

Inheritance pattern of CF

Answer 14

AR

Question 15

Describe pathophysiology of CF

Answer 15

1. Phe508 deletion in CFTR gene on chromosome 7
2. Misfolded protein –> protein reatined in RER and cannot be transported to cell membrane
3. Cl- cannot be secreted –> Increased intracellular Cl-
4. Compensatory Na+ reabsorption via ENaC channel (and H2O follows)
5. Abnormal thick mucus secreted in lungs and GI tract
6. Na+ and Cl- cannot be reabsorbed in sweat glands –> excessive NaCl salt (and water) losses

Question 16

How is CF diagnosed?

Answer 16

Adults: Increased Cl− concentration in pilocarpine-induced sweat test

Newborn Screening: increased immunoreactive trypsinogen

• pilocarpine is cholinergic agonist (increase sweating)

Question 17

What electrolyte abnormality can be present in CF patients due to renal K+/H+ wasting in order to compensate ECF Na+/H2O losses (through sweating)?

HINT: effects are similar to taking a loop diuretic

Answer 17

contraction (metabolic) alkalosis & hypokalemia

• K+/H+ ATPase moves K+ and H+ in opposite directions –> H+ moves into the cell & K+ moves out of the cell –> Hypokalemia & metabolic alkalosis

Question 18

Pulmonary complications associated with CF

Answer 18

Recurrent pulmonary infections, chronic bronchitis, and bronchiectasis

Question 19

GI-related complications associated with CF

Answer 19

Pancreatic insufficiency, malabsorption with steatorrhea, fat-soluble vitamin deficiencies, and meconium ileus

Question 20

a bowel obstruction that occurs in CF babies when the meconium in your child’s intestine is even thicker and stickier than normal meconium

Answer 20

meconium ileus

Question 21

What other clinical signs/symptoms are associated with CF

Answer 21

infertility in men (subfertility in women), clubbing of nails, and nasal polyps

Question 22

Tx for pancreatic insufficiency due to CF

Answer 22

Pancreatic enzyme replacement therapy

Question 23

Tx for phe508 deletion in CF (2 types)

Answer 23

1. lumacaftor (corrects misfolded proteins and improves their transport to cell surface)
2. ivacaftor (increase opening of Cl– channels → improved chloride transport)

Question 24

Both b-oxidation (FA oxidation) and ketogenesis occur in what organelle?

Answer 24

mitochondria

Question 25

Glycolysis occurs in what part of the cell?

Answer 25

cytoplasm/cytosol

Question 26

Heme synthesis, urea cycle, and gluconeogenesis occur in what organelle?

Answer 26

both cytoplasm and mitochondria

Question 27

Enzyme that muscle lacks and therefore cannot participate in gluconeogenesis

Answer 27

glucose-6-phosphatase

Question 28

Even/Odd chain FA can undergo gluconeogenesis (enter the TCA cycle as 1 propionyl-CoA) and serve as a glucose source

Answer 28

Odd chain FA

Question 29

glucose-6-phosphatase resides in what organelle to convert Glucose-6-phosphate to glucose?

Answer 29

ER

Question 30

Pentose phosphate pathway is aka

Answer 30

HMP shunt

Question 31

HMP shunt provides what two important products from glucose-6-phosphate

Answer 31

1. NADPH (required for many reductive rxns)

2. ribose-5-phosphate (nucleotide synthesis)

Question 32

What enzyme converts glucose-6P to 6-phosphogluconate (and reduces NADP+ to NADPH)?

Answer 32

Glucose-6-phosphate dehydrogenase (G6PD)

• G6PD deficiency leads to anemia (heinz bodies & bite cells)

Question 33

Tyrosine, DOPA, dopamine, NE, and epinephrine are what amino acid derivates?

Answer 33

Phenylalanine

Question 34

Niacin (B3) and serotonin are what amino acid derivates?

Answer 34

Tryptophan

Question 35

Histamine is what amino acid derivates?

Answer 35

Histidine

Question 36

Porphyrin and heme are what amino acid derivates?

Answer 36

Glycine

Question 37

GABA and glutathione are what amino acid derivates?

Answer 37

Glutamate

glutamate is not same as glutamine; two different AAs

Question 38

creatinine, urea, and nitric oxide are what amino acid derivates?

Answer 38

Arginine

• STUDY AID: creatinine sounds like creatine
• You need “creatinine” to build muscle (arghhh)

Question 39

Nonpolar or hydrophobic amino acids

Answer 39

GLAM VIP PT

Glycine
Leucine
Alanine
Methionine

Valine
Isoleucine
Phenylalanine

Proline
Tryptophan

Question 40

What are the steps, enzymes, and cofactors in catecholamine synthesis?

Answer 40

1. phenylalanine to tyrosine
   - by phenylalanine hydroxylase
   - BH4
2. tyrosine to DOPA
   - by tyrosine hydroxylase
   - BH4
3. DOPA to dopamine
   - by DOPA decarboxylase
   - B6
4. dopamine to NE
   - by dopamine B-hydroxylase
   - Vitamin C
5. NE to Epinepherine
   - by PMNT
   - S-Adenosyl methionine (SAM)

Question 41

What enzyme converts tyrosine to melanin?

Answer 41

Tyrosinase

Question 42

Enzyme affected in PKU

Answer 42

phenylalanine hydroxylase

Question 43

Enzyme affected in albinism

Answer 43

Tyrosinase

Question 44

Congenital deficiency of homogentisate oxidase in the degradative pathway of tyrosine to fumarate; causes pigment-forming homogentisic acid builds up in tissue; presents with dark urine (when exposed to air), ochronosis (bluish-black connective tissue like in ear cartilage and sclerae), and arthralgias (homogentisic acid builds up in joints)

Answer 44

alkaptonuria

Question 45

A disorder due to decreased phenylalanine hydroxylase or decreased tetrahydrobiopterin (BH4) cofactor; presents with intellectual disability, growth retardation, seizures, fair complexion, eczema, musty body odor

Answer 45

Phenylketonuria (PKU)

Question 46

A disorder affecting infants due to lack of proper dietary therapy during pregnancy; presents with microcephaly, intellectual disability, growth retardation, congenital heart defects

Answer 46

Maternal PKU

*Mother has PKU which affects infant growth during pregnancy

Question 47

PKU patients must avoid what artificial sweetener since it contains phenylalanine

Answer 47

aspartame

Question 48

Enzyme affected in alkaptonuria

Answer 48

homogentisate oxidase

• converts Homogentisic Acid to Maleylacetoacetic Acid

Question 49

Enzyme that destroys damaged or ubiquitin-tagged proteins; defective in “Parkinson disease”

Answer 49

Proteasome

*Defects in the ubiquitin-proteasome system have been implicated in some cases of Parkinson disease

Question 50

An organelle that plays a key role in apoptosis; Cytochrome C leaks into the cell from this organelle and activates caspases, which break down cellular proteins

Answer 50

Mitochondria

Question 51

Stabilize the inter mitochondria membrane, which prevents leakage of Cytochrome C into the cell

Answer 51

Bcl-2 and Bcl-xL

Question 52

What cells lack Mitochondria?

Answer 52

RBCs (it needs to carry O2 and not used by mitochondria)

Question 53

What autoimmune disorder is associated with anti-mitochondrial antibodies?

Answer 53

Primary Biliary Cholangitis (bile ducts in liver)

Question 54

Most common type of collagen; makes bone, skin, tendon, cornea, LATE wound repair

Answer 54

Type I: bONE

Question 55

Type of collagen that makes cartilage, hyaline, vitreous humor, and nucleus pulposus

Answer 55

Type II: carTWOlage

Question 56

Type of collagen that makes blood vessels, uterus, early wound repair, and “reticulin” in connective tissue

Answer 56

Type III

• STUDY AID: parallel lines look like blood vessels

Question 57

Collagen type deficient in Ehlers-Danlos syndrome

Answer 57

Type III or V

Question 58

Type of collagen that makes lens and basement membrane (lamina)

Answer 58

Type IV: four for floor (BM)

Question 59

Collagen type deficient in Alport syndrome

Answer 59

Type IV

Question 60

Collagen type targeted by antibodies in Goodpasture syndrome

Answer 60

Type IV

• STUDY AID: “Good Pastor is ANTI-satan”

Question 61

Collagen is synthesized by

Answer 61

fibroblasts

Question 62

Describe steps of collagen synthesis

Answer 62

1. Preprocollagen Synthesis:
   - collagen a-chains (Glycine-Proline-Lysine) are translated in RER
2. Hydroxylation:
   - Proline and lysine are hydroxylated
   - Vitamin C is required!
3. Glycosylation:
   - Hydroxylysine residues are glycosylated
   - Three glycosylated collagen a-chains are bonded via hydrogen and disulfide bonds
   - Procollagen forms (triple helix of 3 a-chains)
4. Exocytosis:
   - procollagen is exocytosed into extracellular space (outside of cell)
5. Proteolytic Processing:
   - C and N terminals of procollagen are cleaved
   - Tropocollagen forms
6. Cross-linking:
   - lysyl oxidase covalently link many tropocollagens via lysine-hydroxylysine bonds
   - Copper is required!
   - Collagen fibers form

Question 63

Vitamin C deficiency can impair what collagen synthesis step and cause what disease?

Answer 63

hydroxylation of proline and lysine; Scurvy

Question 64

Problems forming triple helix can cause what disease?

Answer 64

Osteogenesis imperfecta

Question 65

Problems with cross-linking is caused by what disease?

Answer 65

Menkes disease

Question 66

↓ production of otherwise normal type 1 collagen due to problems forming triple helix; presents with multiple fractures after minimal trauma, blue sclerae, tooth abnormality, and hearing loss

Answer 66

Osteogenesis imperfecta

Question 67

Inheritance pattern of Osteogenesis imperfecta

Answer 67

AD

• structural protein defect

Question 68

Tx for Osteogenesis imperfecta

Answer 68

bisphosphonates to ↓ fracture risk

Question 69

Gene defects of Osteogenesis imperfecta

Answer 69

COL1A1 and COL1A2

Question 70

Connective tissue disease caused by impaired copper absorption and transport due to defective Menkes protein; presents with brittle, “kinky” hair, growth retardation, hypotonia, and ↑ risk of cerebral aneurysms

Answer 70

Menkes disease

Question 71

What enzyme activity is low due to impaired copper absorption in Menkes disease?

Answer 71

lysyl oxidase

*copper is a necessary cofactor

Question 72

Gene defects of Menkes disease

Answer 72

ATP7A

• ATP7B in Wilson disease (causes high level of copper instead of low as in Menkes disease)
• STUDY AID: a (means to lack)

Question 73

Inheritance pattern of Menkes disease

Answer 73

X-Linked recessive

Question 74

Faulty collagen synthesis causing hyperextensible skin, hypermobile joints, and tendency to bleed (easy bruising); AD inheritance

Answer 74

Ehlers-Danlos syndrome

• collagen type III or V mutation

Question 75

Collagen type that causes hyperextensible skin and hypermobile joints in Ehlers-Danlos syndrome

Answer 75

type V

Question 76

Collagen type that causes Vascular defects (bleeding, berry/aortic aneurysm, and uterus that are prone to rupture)

Answer 76

type III

Question 77

Protein that is NOT hydroxylated and can stretch

Answer 77

Elastin

Question 78

Amino acids that form elastin

Answer 78

Nonhydroxylated proline, glycine, and lysine residues

Question 79

A glycoprotein that forms a sheath around elastin; acts as a scaffold

Answer 79

fibrillin

Question 80

Cross-linking of many tropoelastins occur in

Answer 80

extracellular space

*same as collagen cross-linking

Question 81

Enzyme that breaks down elastin

Answer 81

elastase

Question 82

Elastase is normally inhibited by

Answer 82

a1-antitrypsin

Question 83

a1-antitrypsin deficiency results in unopposed elastase activity and can cause what disease?

Answer 83

Emphysema (COPD)

Question 84

Although dermal collagen and elastin synthesis decreases with age, what remains normal?

Answer 84

cross-linking

Question 85

Defective fibrillin causes what disorder that presents with tall stature, long extremities and fingers/toes, pectus excavatum (sunken chest), hypermobile joints, aortic root dilation/aneurysm, and mitral valve prolapse?

Answer 85

Marfan syndrome

Question 86

Gene mutation of Marfan syndrome

Answer 86

FBN1 gene –> defective fibrillin

*STUDY AID: “MARk zukerberg is the #1 CEO of FB” (FBn1)

Question 87

How do you distinguish Marfan syndrome vs. Homocystinuria?

Answer 87

Marfan syndrome:

• upward displacement of lens
• aortic root dilation/aneurysm
• normal intellectual ability

Homocystinuria:

• downward displacement of lens
• No aortic involvement
• Intellectual disability

Question 88

Describe insulin synthesis

*HINT: similar to collagen synthesis!

Answer 88

1. Preproinsulin is synthesized in RER of pancreatic B-cells
2. Presignal is cleaved to form proinsulin
3. Proinsulin is cleaved again and exocytosed with c-peptide in secretory granules

Question 89

What level is elevated with insulin in insulinoma and sulfonylurea use?

Answer 89

C-peptide

*it means endogenous insulin production

Question 90

What is missing if insulin is from exogenous source?

Answer 90

C-peptide

Question 91

Niacin is aka

Answer 91

B3

Question 92

Niacin is derived from what amino acid?

Answer 92

tryptophan

Question 93

Constituent of NAD+ and NADP+ (used in redox reactions); lowers levels of VLDL and raises levels of HDL (used to treat dyslipidemia)

Answer 93

Niacin

Question 94

Deficiency leads to glossitis (swollen, inflamed tongue), facial flushing, and pellagra (diarrhea, dementia, dermatitis, and death)

Answer 94

Niacin

Question 95

“broad collar” rash (Casal necklace) and hyperpigmentation of sun exposed are skin findings of

Answer 95

dermatitis of niacin deficiency

Question 96

Deficiency of neutral amino acid (tryptophan) transporters in proximal renal tubular cells and on enterocytes —–> neutral aminoaciduria and decreased absorption from the gut —–> decreased tryptophan for conversion to niacin leading to pellagra

Answer 96

Hartnup Disease

Question 97

Niacin is found in what type of food

Answer 97

meat/protein

Question 98

Vitamin B12 is aka

Answer 98

Cobalamin

Question 99

Cofactor for DNA synthesis, myeline synthesis, and methionine synthase (converts homocysteine to methionine)

Answer 99

Vitamin B12

Question 100

Deficiency leads to macrocytic, megaloblastic anemia, hypersegmented PMNs, and nerve damage (myelin degeneration)

Answer 100

Vitamin B12

Question 101

Lab findings for macrocytic, megaloblastic anemia caused by vitamin B12 deficiency

Answer 101

Increased MMA

Increased homocysteine

Question 102

Macrocytic, megaloblastic anemia caused by folic acid does not have elevated

Answer 102

MMA

Question 103

Vitamin B12 is found only in what type of food?

Answer 103

Animal products

Question 104

An autoimmune gastritis that destroys Parietal Cells and leads to HCl acid and Intrinsic Factor deficiency –> B12 deficiency

Answer 104

Pernicious anemia

Question 105

B12 deficiency can also be caused by what surgery?

Answer 105

gastric bypass surgery; Crohn disease surgery (surgical resection of ileum)

Question 106

What unique symptom in B12 deficiency can help distinguish from folate deficiency?

Answer 106

neurologic symptom

*not present in folate deficiency

Question 107

A long-term veganism can lead to what type of anemia?

Answer 107

macrocytic, megaloblastic anemia (B12 deficiency)

• takes a very long time though!

Question 108

Deficiency presents as hemolytic anemia, acantholysis (loss of cohesion between keratinocytes), and demyelinations of the dorsal columns and spinocerebellar tract

Answer 108

Vitamin E

Question 109

Vitamin E is aka

Answer 109

tocopherol

Question 110

Excess can increase risk of enterocolitis in infant. May also decrease metabolism of vitamin K, thereby enhancing warfarin effects

Answer 110

Vitamin E

Question 111

ALT vs. AST in liver disease

Answer 111

ALT > AST

Question 112

ALT vs. AST in alcoholic liver disease

Answer 112

AST > ALT

• AST will not exceed 500 U/L in alcoholic hepatitis
• AST/ALT > 2

Question 113

AST > ALT in nonalcoholic liver disease suggests

Answer 113

cirrhosis (a late stage of scarring (fibrosis) of the liver)

Question 114

AST, ALT > 1000 U/L suggests

Answer 114

1. drug-induced liver injury (acetaminophen toxicity)
2. ischemic hepatitis
3. acute viral hepatitis
4. autoimmune hepatitis

Question 115

Antibodies associated with pernicious anemia

Answer 115

1. anti-parietal cells

2. anti-IF

Question 116

What trisomy causes rocker-bottom feet, cleft liP/Palate, Polydactyly, cutis aplasia (absence of skin on scalp), Polycystic kidney disease, and omphalocele (covered)?

Answer 116

Patau syndrome

• trisomy 13 = “P”uberty age
• Caused by oligohydramnios

Question 117

What trisomy is due to defect in fusion of prechordal mesoderm → midline defects

Answer 117

Patau syndrome

Question 118

What trisomy causes clenched fists with overlapping fingers, rocker-bottom feet, prominent occiput, low-set ears, and micrognathia (small jaw)?

Answer 118

Edwards syndrome

• trisomy 18 = “E”lection age

Question 119

What trisomy causes flat facies, single palmar crease, duodenal atresia, ASD, and Brushfield spots (speckled iris)?

Answer 119

Down

*trisomy 21 = “D”rinking age

Question 120

Patients with down syndrome are at an increased risk of developing

Answer 120

1. Alzheimer disease
   (chromosome 21 codes for amyloid precursor protein)
2. AML/ALL

Question 121

Two types of genetic mutation causing down syndrome

Answer 121

1. 95% of cases due to “meiotic nondisjunction”

2. 4% of cases due to “unbalanced Robertsonian translocation” (b/w chromosomes 14 and 21)

Question 122

Risk of meiotic nondisjunction mutation that cause down syndrome increases with

Answer 122

advanced maternal age

Question 123

Markers for down syndrome during pregnancy

Answer 123

Decreased AFP
Increased hCG
Increased inhibin

• • nuchal translucency

Question 124

Mnemonic for Fabry Dx

Answer 124

My fabryite activity is making ceramic galaxy. Sorry for keep HARPing on it.

Question 125

Describe Fabry Dx

Answer 125

• Ceramide accumulation
• Galactosidase deficiency
• H: Hypohidrosis
• A: Angiokeratomas
• R: Renal failure
• P: Peripheral neuropathy

Question 126

Mnemonic for Gaucher Dx

Answer 126

(crying voice) OMGauch! He’s such a bro.

Question 127

Describe Gaucher Dx

Answer 127

• Glucocerebroside accumulation
• Glucocerebrosidase deficiency
• O: Osteoporosis
• M: Most common LSD
• G: Gross femoral avascular necrosis
• Lipid-laden tissue paper cytoplasm

Question 128

Mnemonic for Tay-Sachs Dx

Answer 128

A gang of six small Jews

Question 129

Describe Tay-Sachs Dx

Answer 129

• Ganglioside accumulation
• Hexoaminidase A deficiency
• No hepatosplenomegaly
• Cherry-red spots on macula

Question 130

Mnemonic for Niemann-Pick Dx

Answer 130

Pick your nose with a big, foamy sphinger

Question 131

Describe Niemann-Pick Dx

Answer 131

• Sphingomyelin accumulation
• Sphingomyelinase deficiency
• Yes hepatosplenomegaly
• Cherry-red spots on macula
• Foam cells (lipid-laden macrophages)

Question 132

Mnemonic for Krabbe Dx

Answer 132

A glob of GOOey krabbe meat is out of this world

Question 133

Describe Krabbe Dx

Answer 133

• Galactocerebroside accumulation
• Galactocerebrosidase deficiency
• G: Globoid cells
• O: Oligodendrocyte destruction
• O: Optic atrophy

Question 134

Mnemonic for Metachromatic Leukodystropy

Answer 134

Metapod is an aryl broken pokemon

Question 135

Describe Metachromatic Leukodystropy

Answer 135

• Cerebroside sulfate accumulation
• Arylsulfatase deficiency
• Dementia
• Ataxia
• Central/peripheral demyelination

Question 136

Mnemonic for Hunter syndrome

Answer 136

Hunters have clear I’s 2 see

Question 137

Describe Hunter syndrome

Answer 137

• Dermatan/heparan sulfate accumulation
• Iduronate-2-sulfatase deficiency
• Gargoylism (coarse facial features)
• No corneal clouding
• Behavioral aggression

Question 138

Describe Hurler syndrome

Answer 138

• Dermatan/heparan sulfate accumulation
• Alpha-2-iduronitase deficiency
• Gargoylism (coarse facial features)
• Corneal clouding

Question 139

What lysosomal storage diseases are x-linked recessive

Answer 139

Hunter
Fabry

“Hunt FoX”

Question 140

What lysosomal storage diseases are autosomal recessive

Answer 140

Everything else besides Hunter & Fabry

Question 141

Enzymes of Glycolysis

1. Insulin activates _____
2. Glucagon activates _____

Answer 141

1. Phosphofructokinase-2

2. Fructose-2,6-bisphosphatase

Question 142

Rate-limiting enzyme in glycogen synthesis

Answer 142

glycogen synthase

Question 143

Rate-limiting enzyme in glycogenolysis

Answer 143

Glycogen phosphorylase

Question 144

Mnemonic for Von Gierke Disease

Answer 144

Von “Geek” Disease

• Fat, fatty liver, and no muscle

Question 145

Describe Von Gierke Disease

Answer 145

• Lack of G-6-phosphatase
• Hepatomegaly
• Hypoglycemia (no gluconeogenesis)
• Hyperlipidemia (increased fat breakdown)
• Hyperuricemia (increased protein breakdown)
• Since glucose cannot be made, fat & protein catabolism increases

Question 146

Mnemonic for Cori Disease

Answer 146

“Coral” disease

• Think of coral reef

Question 147

Describe Cori Disease

Answer 147

• Lack of debranching enzyme (alpha-1,6-glucosidase)
• Abnormal glycogen structure (like branched coral reef)
• Same symptoms as Von Gierke Disease

Question 148

Mnemonic for McArdle’s Disease

Answer 148

McArdle’s-“Muscle”

Question 149

Describe McArdle’s Disease

Answer 149

• Lack of glycogen phosphorylase in “muscle”
• Muscle cramps on exertion
• Hypoglycemia on exertion
• Myoglobinuria (glycogen deposit damages and increases muscle breakdown)
• glycogen phosphorylase cleaves 1,4-a-glycosidic bonds

Question 150

Mnemonic for Her’s Disease

Answer 150

Her’s-“Hepatic”

Question 151

Describe Her’s Disease

Answer 151

• Lack of glycogen phosphorylase in “hepatocytes”
• Hepatomegaly
• Fasting blood hypoglycemia

Question 152

Mnemonic for Anderson Disease

Answer 152

“Anderson Cooper gets straight to the point”

Question 153

Describe Anderson Disease

Answer 153

• Lack of branching enzyme

- Cirrhosis (long glycogen constantly inflamed the liver –> scarring)

Question 154

Mnemonic for Pompe Disease

Answer 154

“Pompe affects the pumping organ (heart)”

Question 155

Describe Pompe Disease

Answer 155

• Lack of debranching enzymes specifically in “lysosomes”

- Cardiomegaly (heart has lots of lysosomes)

Question 156

Periodic acid-Schiff stain identifies what molecule and is useful identifying diseases related to this molecule?

Answer 156

Glycogen

Question 157

Symptoms/signs that develop with tyrosine hydroxylase deficiency

Answer 157

Decreased dopamine –> progressive “dystonia”

Decreased dopamine –> decreased “Homovanillic Acid” (dopamine degradation products)

Question 158

Cotransporter that absorbs galactose and glucose through the intestinal enterocytes.

Answer 158

sodium-glucose cotransporter-1 (SGLT-1)

• SGLT2 is responsible for Na+ and glucose reuptake in the KIDNEY (PCT)

Question 159

Rising from supine to standing results in what changes (dec. or inc.) in venous return, carotid sinus baroreceptor activity, and cerebral blood flow?

Answer 159

• decreased venous return
• decreased carotid sinus baroreceptor activity (due to decreased atrial stretching)
• decreased cerebral blood flow

Question 160

a genetic phenomenon in which disease traits are more severe and/or appear at earlier ages in later generations

Answer 160

Anticipation

Question 161

Anticipation is commonly seen in what type of genetic phenomena?

Answer 161

trinucleotide repeat expansions

Question 162

Trinucleotide repeat expansions is a genetic mutation caused by a defect in

Answer 162

DNA mismatch repair

Question 163

Progressive skeletal muscle wasting, weakness (impaired ability to relax), and cardiomyopathy with dysrhythmia (arrhythmia)

Answer 163

Myotonic dystrophy

Question 164

What trinucleotide repeat expansion of ____ gene causes myotonic dystrophy

Answer 164

CTG; DMPK (dystrophia myotonica protein kinase)

Question 165

What lysosomal storage diseases show increased urinary levels of dermatan and heparan sulfates (mucopolysaccharides)?

Answer 165

Hunter & Hurler Syndromes

Question 166

Mucopolysaccharides are currently known as

Answer 166

glycosaminoglycans (GAGs)

Question 167

An autosomal recessive disease similarly presents as Hurler syndrome (coarse facial feature, corneal clouding) that is caused by defective N-acetylglucosaminyl-1-phosphotransferase

Answer 167

I-cell disease

Question 168

Defective N-acetylglucosaminyl-1-phosphotransferase in I-cell disease causes impaired addition of _____ to lysosomal enzymes

Answer 168

mannose phosphate

Question 169

The same phenotype can be produced by numerous different gene mutations

ex. Albinism

Answer 169

Genetic heterogeneity

• two affected individuals can exhibit the same symptoms of albinism but have entirely disparate genetic mutations.

Question 170

Changes in the following enzyme activity or molecule concentrations during fasting (dec or inc)

1. fructose 2,6-bisphosphate
2. glucose 6-phosphatase
3. phosphoenolpyruvate carboxykinase
4. pyruvate kinase

Answer 170

1. dec
2. inc
3. inc
4. dec

Question 171

Describe adenylate cyclase signaling pathway

Answer 171

1. Ligand binds to GPCR
2. GPCR goes through conformational change and activates alpha subunit
3. Alpha subunit releases GDP and binds to GTP
4. GTP bound alpha subunit activates adenylate cyclase
5. adenylate cyclase converts ATP into cAMP
6. cAMP binds to inhibitory protein on Protein Kinase “A”
7. Activated PKA activates protein kinase
8. Activated protein kinase activates other enzymes (ex. glycogen phosphorylase)

Question 172

Type of G protein that involves adenylate cyclase

Answer 172

G stimulatory (Gs)
G inhibitory (Gi)

Question 173

Describe phospholipase C signaling pathway

Answer 173

1. Ligand binds to GPCR
2. GPCR goes through conformational change and activates alpha subunit
3. Alpha subunit releases GDP and binds to GTP
4. GTP bound alpha subunit activates phospholipase C
5. phospholipase C cleaves PIP2 molecule –> IP3 & DAG
6. IP3 binds to IP3/Ca+2 channel on ER
7. Ca+2 gets released into cytosol
8. Cytosolic Ca+2 and DAG together activates protein kinase “C”
9. Activated PKC phosphorylates target protein

Question 174

Type of GCPR that involves phospholipase C

Answer 174

Gq

Question 175

Pyruvate –> acetyl coa is mediated by what enzyme?

Answer 175

Pyruvate dehydrogenase (complex)

Question 176

What serum level increases in pyruvate dehydrogenase deficiency?

Answer 176

Lactic acid (b/c pyruvate can only be converted to lactate by LDH)

Question 177

What type of amino acids can provide energy in the form of acetyl-CoA without increasing lactate production?

Answer 177

Ketogenic amino acids

• Lysine
• Leucine

Question 178

What type of amino acids can produce pyruvate or TCA cycle intermediates, which can be converted to glucose via gluconeogenesis?

Answer 178

Glucogenic amino acids

- all AAs except Lysine and Leucine!

Question 179

In response to increased exercise, what locally produced metabolites (5) from skeletal muscles are produced? What’s their function?

Answer 179

• Lactate, H+, K+, CO2, and Adenosine

- Vasodilation

Question 180

Accumulation of NADH is observed in the setting of tissue

Answer 180

Hypoxia

• Without oxidative phosphorylation, the body increases glycolysis to generate ATP ANaerobically, which produces excess NADH and lactic acid

Question 181

C-ANCA is antibody against

Answer 181

cytoplasmic components of “neutrophils”

Question 182

P-ANCA is antibody against

Answer 182

Peri-nuclear components of “neutrophils”

Question 183

C-ANCA is aka.

Answer 183

Proteinase 3 (PR3) antibody

Question 184

P-ANCA is aka.

Answer 184

Myeloperoxidase (MPO) antibody