Hematology Oncology - UWorld

Question 1

HIV drugs from the outside in

Answer 1

Maraviroc: CCR5 receptor inhibitor
Enfuvirtide: fusion inhibition by blocking gp41
Efavirenz, nevirapine: NNRTI (do not require intracellular phosphorylation for activation)
Zidovudine, emtricitabine: NRTIs (must be converted to monophosphate form by cellular thymidine kinase before conversion to active triphosphate forms)
Raltegravir: integrase inhibition
Ritanovir, saquinavir: protease inhibition

Question 2

How do WBCs get from the intravascular space to the site of infection?

Answer 2

Margination: vascular leakage causes leukocyte margination toward vascular walls

Rolling: loose binding of sialylated carbohydrate groups on the endothelium (Sialyl Lewis X & PSGL-1) to L-selectin (PMNs) or E/P-selectin (endothelial cells).

Activation: slow rolling allows PMNs to sample chemokines being secreted from inflamed tissue, resulting in a conformational change in their expressed integrins

Tight adhesion and crawling: PMNs firmly attach to ICAM-1 or CD18 beta-2 integrins (Mac-1 and LFA-1) on endothelial cells

• **LAD type 1 = absence of CD18 -> decreased synthesis of Mac-1 and LFA-1 skin infections without pus formation and delayed umbilical cord separation.
• **LAD type 2 = less severe
• **LAD type 3 = similar to type 1, but associated bleeding due to poor synthesis of beta-3 integrins on platelets

Transmigration: after crawling to the periphery of the endothelial cells, PMNs attach to PECAM-1 and squeeze out of the vasculature

Question 3

Types of hemoglobin that make up the RBCs in a normal person

Answer 3

97% HbA = alpha2beta2

2.5% = HbA2 = alpha2delta2 *elevated in thalassemia

Question 4

Region of the lymph node largely populated by T-cells and dendritic cells

Answer 4

Parafollicular cortex (poorly developed in DiGeorge syndrome)

Question 5

What is the difference between the primary and secondary follicles in the lymph node.

Answer 5

Primary: dense packing of dormant B-cells
Secondary: proliferating B-cells and follicular dendritic cells

Question 6

Lymph nodes changes in patients with X-linked (Bruton’s) agammaglobulinemia

Answer 6

Poorly formed primary follicles and germinal centers due to poor B-cell differentiation

Question 7

What makes up the medulla of the lymph node?

Answer 7

Medullary cords: B cells, plasma cells and macrophages

Medullary sinuses: reticular cells and macrophages

Question 8

Cell surface receptor that binds parvovirus and allows cellular entry

Answer 8

Erythrocyte P antigen

Question 9

Origin of cells in carcinoid tumors

Answer 9

Enterochromaffin cells

Question 10

Normal platelets and poor aggregation after addition of normal plasma and ristocetin vs. good aggregation after ristocetin and plasma.

Answer 10

Ristocetin increases expression of Gp1b on platelets. In vWF deficiency, there is little vWF to bind Gp1b and there is minimal improvement despite increased expression of Gp1b on platelets.

Bernard-Soulier syndrome is due to absence of Gp1b on platelets. Although platelets will not aggregate with ristocetin, addition of normal plasma will induce aggregation.

Glanzmann thrombasthenia is due to defective GpIIb-IIIa that prevents platelet-platelet adherence. Ristocetin test will be normal in these patients.

Question 11

Aminocaproic acid vs. protamine sulfate

Answer 11

Aminocaproic acid - reverses tPA conversion of plasminogen to plasmin
Protamine sulfate - reverses heparin by binding to and inactivating heparin

Question 12

Enzymes that take heme in the periphery to conjugated bilirubin in the bile

Answer 12

Heme oxygenase breaks down heme to biliverdin -> biliverdin reductase reduces biliverdin to bilirubin and it is transported to the liver bound to albumin -> glucuronyl transferase conjugates bilirubin to glucuronic acid, making soluble and excretable in bile

Question 13

Sickle cell anemia mutation

Answer 13

AR point mutation in the 6th codon of the beta-globin gene causing Glu -> Val. This results in formation of HbS, which polymerizes with other Hgb at low O2 tension.

This can be diagnosed by Hgb electrophoresis, with the HbS moving more slowly than the other Hgb due to the mutation.

Question 14

Brain centers that trigger vomiting

Answer 14

Area postrema in the 4th ventricle has M1, H1, D2, 5-HT3 and neurokinin-1 chemoreceptors

Nucleus tracts solitaires in the medulla receives neuronal input from GI tract (CN IX, X), area postrema, vestibular system (CN VIII) and CNS

Question 15

Best drugs for treatment of chemotherapy-induced vomiting

Answer 15

5-HT3 antagonists: ondansetron, granisetron
D2 antagonists: metaclopramide, prochlorperazine
NK1 antagonists: aripepitant, fosaprepitant

Question 16

A patient has a lymph node biopsy that shows packed follicles that obscure the normal lymph node architecture, with abundant centrocytes (small cleaved cells) and a t(14;18) translocation. What is causing his condition?

Answer 16

Overactivation of the anti-apoptotic gene Bcl-2 occurs as a result of this translocation and causes follicular lymphoma, which is consistent with his biopsy

Question 17

t(9;22)

Answer 17

BCR-ABL translocation resulting in constitutively active tyrosine kinase activity and CML

Question 18

A patient with a lymph node biopsy presents with diffuse medium sized lymphocytes with interspersed macrophages, a high proliferation index represented by a Ki-67 fraction around 95% and a t(8;14) translocation.

Answer 18

Over activation of the transcription regulator c-MYC resulting in Burkitt lymphoma

Question 19

Causes of left and right shifts on the Hbg binding curve

Answer 19

Left

• Decreased H+
• Decreased 2,3-BPG
• Decreased temperature

Right

• Increased H+
• Increased 2,3-BPG
• Increased temperature

Question 20

HbC

Answer 20

Result of Glu -> Lys substitution on Hgb. Cells do not sickle because Lys is negatively charged. This hgb moves even slower than HbS on Hgb electrophoresis

Question 21

A patient presents with DIC. Peripheral blood smear shows immature myeloid cells with needle-shaped intracytoplasmic inclusions that stain positive for peroxidase. What caused this patients condition? Treatment?

Answer 21

Acute promyelocytic anemia (M3 AML) is due to t(15;17) that causes fusion of the retinoic acid receptor to the PML gene. Consequently, these patients are highly responsive to treatment with all trans retinoic acid.

Question 22

Why is DRE a good test for prostatic adenocarcinoma

Answer 22

The neoplastic growth typically occurs in the peripheral zone of the prostate

Question 23

Process leading to cellular apoptosis

Answer 23

Initiation

• Intrinsic damage from toxins, radiation, heat -> expression of phosphatidyl serine and/or thrombospondin on plasma membrane
• Extrinsic TNF and Fas ligand binding to TNF receptor 1 or Fas receptor (CD95), respectively
• Mitochondrial mediated pathway

Control

• Intrinsic: Bas, Bam and Bim replace anti-apoptotic molecules Bcl-2 and Bcl-x in the mitochondrial membrane, release of cytochrome c and caspase activation
• Extrinsic: binding death receptor brings caspases in close proximity

Destruction
-Cysteine on caspases cleave aspartic acid residues and digest cellular proteins

Question 24

Pure red cell aplasia

Answer 24

Inhibition of red cell precursors by IgG antibodies or cytotoxic T-lymphocytes resulting in reduced erythropoietic products and normal granulopoiesis and thrombopoiesis. Causes include thymomas, lymphocytic leukemias and parvovirus B19 infection.

Question 25

Most common childhood brain tumors and how to differentiate between them

Answer 25

1) Pilocytic astrocytoma: benign, cystic cerebellar or hemispherical mass with solid tumor protruding from cyst wall. Biopsy shows Rosenthal fibers.
2) Medulloblastoma: malignant, mass in cerebellar vermis, biopsy shows sheets of small round blue cells
3) Ependymomas: ventricular masses presenting with hydrocephalus, biopsy shows rosettes

Question 26

Mutation seen in patients with polycythemia vera

Answer 26

Constitutive activation of cytoplasmic JAK-2 tyrosine kinase

Question 27

Where is factor VIII produced

Answer 27

Endothelial cells

Question 28

Lymph node drainage for all cutaneous areas beneath the umbilicus, exceptions?

Answer 28

Pretty much all cutaneous areas below the umbilicus drain to the superficial inguinal nodes. Exceptions include the testes (para-aortic LNs), glans and posterior calves (both drain to deep inguinal nodes).

Question 29

Common cause of adult T-cell lymphoma

Answer 29

HTLV

Question 30

Why does the spleen enlarge in patients with hereditary spherocytosis

Answer 30

The RBCs cannot pass through the cords of Billroth and are sequestered in the spleen

Question 31

Why might you add allopurinol to a patient’s chemo regimen to improve efficacy?

Answer 31

It inhibits xanthine oxidase, which is necessary for the breakdown and inactivation of 6-MP. This shunts more 6-MP towards HGPRT, which converts it to its active metabolites that inhibit purine synthesis (6-TG). Note that 6-MP can also be inactivated by TPMT in the liver, which is not inhibited by allopurinol.

Question 32

Mechanism of action of azathioprine

Answer 32

It is broken down to 6-MP after metabolism and similarly inhibits de novo purine synthesis

Question 33

Neoplasms that can be treated with IL-2

Answer 33

Melanoma and renal cell carcinoma

Question 34

Imatinib mesylate

Answer 34

BCR/ABL tyrosin kinase inhibitor, used to treat CML from t(9;22)

Question 35

Abciximab, eptifibatide and tirofiban

Answer 35

Anti-GpIIb-IIIa anti-coagulant

Question 36

Process of tumor transition from in situ to invasive

Answer 36

1) Downregulation of E-cadhedrins -> detachment of neoplastic cells from surrounding cells
2) Expression of laminin or other adhesion molecules and tumor adherence to the basement membrane
3) Production of cathespin D protease and metalloproteinases that help degrade the basement membrane and invade deeper tissue

Question 37

Pathogenesis of paroxysmal nocturnal hemoglobinuria

Answer 37

PIGA mutation -> absence of GPI anchor -> defective complement inhibitor (CD55 and CD59) attachment to RBC membrane -> complement MAC formation -> hemolysis -> triad of anemia, hypercoaguability and pancytopenia

Question 38

Treatment of HIT

Answer 38

Stop heparin and start a direct thrombin inhibitor (argatroban, hirudin, lepirudin) because these patients are at continued risk for thrombosis, but cannot be on heparin or LMWH.

Question 39

A patient presents with abdominal pain, vomiting, peripheral neuropathy, neuropsychiatric derangement and reddish urine that darkens on exposure to light. How do you treat this patient?

Answer 39

She has acute intermittent porphyria due to PBG deaminase deficiency resulting in accumulation of PBG (urine that darkens with sunlight). To limit accumulation of PBG, you can give these patient glucose and heme in an acute attack (they inhibit ALA synthase). Patients should avoid P450 inducers (EtOH, tobacco, drugs) because this will up regulate ALA synthase and precipitate further attacks.

Question 40

Topoisomerase I vs II

Answer 40

I) introduces single-stranded breaks into DNA to relieve negative supercoiling during transcription (inhibited by topotecan)

II) introduces double-stranded breaks into DNA to relieve positive and negative supercoiling (double strand break ligation inhibited by etoposide)

Question 41

Malaria treatment

Answer 41

Chloroquine if confirmed chloroquine-sensitive region
Mefloquine if chloroquine resistant region
Atovoquine-proguanil and artemisinins are also useful
Add primaquine if P. vivax or P. ovale to treat dormant liver hypnozoites

Question 42

TdT

Answer 42

Adds V, D and J regions to the antibody for diversity. Present in all immature lymphocytes (T and B cells) and indicative of ALL.

Question 43

Mutation that causes beta-thalassemia

Answer 43

Around the AUG start codon on the beta-globin mRNA there is a Kozak sequence reading gccRccAUGG, where R can be guanine or adenine. This sequence acts as an initiator for translation. Beta-thalassemia occurs when the R is a cytosine and there is poor translation initiation.

Question 44

What might you see on light microscopy of a female who is susceptible to X-linked recessive mutations?

Answer 44

Absence of hypermethylated, deacetylated compact heterochromatin at the periphery of the cells (Barr bodies, inactivated female X chromosome)

Question 45

What keeps cells bound to basement membranes and the extracellular matrix

Answer 45

Fibronectin, collagen and laminin all bind cellular integrins

Question 46

HbA, HbS and HbF in normal, sickle trait and sickle cell disease patients

Answer 46

Normal: HbA > HbF absent HbS
Trait: HbA > HbS > HbF
Sickle cell disease: HbS > HbF absent HbA

Question 47

Mechanism of activation of most pro-carcinogens

Answer 47

Microsomal mono-oxygenase (P450 system)

Question 48

What causes basophilic stippling

Answer 48

Abnormal degradation of rRNA due to Pb inhibition of nucleotidase

Question 49

How does Pb cause microcytic anemia

Answer 49

It inhibits ALA-dehydratase, limiting the amount of heme that can be synthesized for RBC Hgb.

Question 50

Why prescribe pyridoxine with INH

Answer 50

INH pyridoxine phosphokinase, an enzyme that converts B6 to its active metabolite pyridoxal 5’ phosphate

Question 51

Characteristics of anaplastic tumors

Answer 51

Numerous mitoses and giant tumor cells

Question 52

How are eukaryotes able to produce multiple protein products from a single mRNA transcript?

Answer 52

Alternative mRNA splicing

Question 53

Stop codons

Answer 53

UAA, UAG and UGA

Question 54

Consequence of incorporation of the MDR1 gene into neoplastic cells

Answer 54

Formation of P-glycoprotein, which pumps chemo drugs out of the neoplastic cells, rendering them ineffective

Question 55

Factors that promote angiogenesis

Answer 55

FGF-2 is involved in endothelial cell proliferation, migration and differentiation.

VEGF increases endothelial cell proliferation and motility. IL-1 and IFN-gamma can cause increased VEGF release from macrophages.

Question 56

mTOR pathway

Answer 56

Growth factor binds to the receptor -> tyrosine residue autophosophorylation -> PI3K activation -> PIP2 phosphorylation to PIP3 -> Akt (Protein Kinase B) activation -> Akt activates mTOR -> mTOR translocates to nucleus to activate genes involved in cell survival, anti-apoptosis and angiogenesis.

Note that this pathway is inhibited by PTEN because it removes a phosphate from PIP3

Question 57

How to limit hemorrhagic cystitis secondary to cyclophosphamide use

Answer 57

Mesna, it binds the inactive metabolites (acrolein) that are cytotoxic to the uroepithelial cells

Question 58

Medication you can give to limit doxorubicin (anthracycline) cardiotoxicity

Answer 58

Dexrazoxane, an iron chelator